FreeCalypso > hg > fc-magnetite
view src/aci2/mfw/CPHS_mod.c @ 554:28ed4002131a
configs/* except classic and hybrid-gpf: all parts of TCS211 GPF
for which we found exact corresponding sources are now rebuilt
from those sources; only OSL and OSX remain as blobs,
plus CCD for non-hybrid configs
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Mon, 19 Nov 2018 00:12:20 +0000 |
parents | 93999a60b835 |
children |
line wrap: on
line source
/*-----------------------Include Files---------------------------------*/ #define ENTITY_MFW #include <string.h> #include <stdio.h> #include <stdlib.h> #include <limits.h> #if defined (NEW_FRAME) #include "typedefs.h" #include "vsi.h" #include "pei.h" #include "custom.h" #include "gsm.h" #else #include "STDDEFS.H" #include "custom.h" #include "gsm.h" #include "vsi.h" #endif #include "prim.h" #ifndef PCM_2_FFS #include "pcm.h" #endif #ifndef GPRS #include "ffs/ffs.h" #undef GPRS /* ffs.h anyhow defines GPRS: has to be undef ifndef GPRS */ #else /* GPRS */ #include "ffs/ffs.h" #endif /* GPRS */ #ifndef PCM_2_FFS #include "ffs_coat.h" #endif #ifdef SIM_TOOLKIT //#include "mfw_sat.h" #endif #include "message.h" #include "prim.h" #include "aci_cmh.h" #if defined (FAX_AND_DATA) #include "aci_fd.h" #endif #ifdef GPRS #include "gprs.h" #endif #include "dti_conn_mng.h" #include "phb.h" #include "psa.h" #include "cmh.h" #include "cmh_phb.h" #include "psa.h" #include "psa_sim.h" #include "cus_aci.h" #include "cmh_mm.h" #include "cmh_sim.h" #include "CPHS_mod.h" /*--------------------- Constant definitions ---------------------------*/ #define MFW_INVALID_SIM_DATA 0xFF #define MAX_CPHS_ENTRY 4 #define MAX_PCM_MAILBOX_LEN 10 #define NO_ALLOCATED 0 #define FALSE 0 #define TRUE 1 #define LONG_NAME 26 #define SHORT_NAME 10 #define SP_NAME 17 #define NUMERIC_LENGTH 6 #ifdef TI_PS_FFS_PHB #define PHB_MAX_LEN MAX_PHB_NUM_LEN /* Phonebook number length + '\0' */ #else //GW-SPR#762- 40 digit phonebook size. #ifdef PHONEBOOK_EXTENSION #define PHB_MAX_LEN 41 /* Phonebook number length + '\0' */ #else #define PHB_MAX_LEN 21 /* Phonebook number length + '\0' */ #endif /* else, #ifdef PHONEBOOK_EXTENSION */ #endif /* else, #ifdef TI_PS_FFS_PHB */ /*--------------------- Types --------------------------------------*/ typedef enum /* numbering plan identifier */ { CPHS_NPI_UNKNOWN, CPHS_NPI_ISDN = 1, CPHS_NPI_DATA = 3, CPHS_NPI_TELEX = 4, CPHS_NPI_NATIONAL = 8, CPHS_NPI_PRIVATE = 9, CPHS_NPI_M_ERMES = 10, CPHS_NPI_M_CTS = 11 } T_PHB_NPI; typedef enum /* type of number */ { CPHS_TON_UNKNOWN, CPHS_TON_INTERNATIONAL, CPHS_TON_NATIONAL, CPHS_TON_NET_SPECIFIC, CPHS_TON_DED_ACCESS, CPHS_TON_ALPHA_NUMERIC, CPHS_TON_ABBREVIATED, CPHS_TON_EXTENDED } T_CPHS_PHB_TON; typedef enum /* CPHS service */ { CPHS_CSP = 1, /* customer service profile */ CPHS_SST, /* service string table */ CPHS_MB_NUMBER, /* mailbox numbers */ CHPS_NAME_SHORT, /* operator name shortform */ CHPS_INFO_NUMBERS /* information numbers */ } T_CPHS_SERVICE; #define CPHS_SERVICE_TABLE 2 /* size of CPHS service table */ #define CPHS_INFO_SIZE 3 /* size of CPHS information field (6F16) */ #define CPHS_ONS_SIZE 20 /* size of operator name string (6F14) - read first 20 bytes only */ #define CPHS_ONSF_SIZE 10 /* size of operator name short form (6F18) */ #define CPHS_MIN_MBN_SIZE 14 #define CPHS_MBS_SIZE 2 /* size of voice message waiting flag (6F11) */ #define CPHS_CFF_SIZE 2 /* size of call forwarding flags (6F13) */ #define CPHS_ALS_SIZE 1 /* size of alternate line service (6F9F) */ #define CPHS_ALSS_SIZE 1 /* size of alternate line service status (6F92) */ #define CPHS_CSP_SIZE 20 /* size of customer service profile (6F15) */ #define CPHS_MIN_INS_SIZE 5 typedef struct { T_CPHS_OPN opName; T_CPHS_MAILBOX_NUM_LIST mbNum; T_CPHS_LINE_IND mbStatus; T_CPHS_LINE_IND dvStatus; T_CPHS_ALS_INFO alsStatus; T_CPHS_ALS_LINE Line1_desc; T_CPHS_ALS_LINE Line2_desc; T_CPHS_CSP csProfile; T_CPHS_INFO_NUM_LIST* numList; T_CPHS_INFO_NUM_ENTRY* infoEntry; T_CPHS_ROAMING_IND roaming_ind; UBYTE mbnData[40]; // it should be allocated dynamically. UBYTE mbsData[CPHS_MBS_SIZE]; // it should be allocated dynamically. UBYTE dvData[CPHS_CFF_SIZE]; // it should be allocated dynamically. // T_CPHS_READ_SIM_ENTRY read_sim_entry;//MC UBYTE cphsStatus; UBYTE cphsPhase; UBYTE cphsServTab[CPHS_SERVICE_TABLE]; UBYTE maxRec; T_CPHS_MAILBOX_NUM_ENTRY MbnEntry; T_CPHS_MAILBOX_NUM_ENTRY *vcEntry; T_CPHS_SIMOP_STATUS simStatus; UBYTE alsData; UBYTE idxLevel; UBYTE startIdx; UBYTE cphsUpdate ; ULONG cphsPrevRead; T_CPHS_CB_FUNC InfoNumberListCB; T_CPHS_CB_FUNC InfoNumberCB; T_CPHS_CB_FUNC RefreshCB; }T_CPHS_CACHED_DATA; static T_CPHS_CACHED_DATA* cphs_data = NULL; void Cphs_support_check (void); UBYTE Cphs_ssc (UBYTE nr, UBYTE * serv_table); void Cphs_update_info_cnf (SHORT errCode, UBYTE *data, UBYTE dataLen); void Cphs_read_information(SHORT errCode, UBYTE *data, UBYTE dataLen); void Cphs_read_csp(SHORT errCode, UBYTE *data, UBYTE dataLen); void Cphs_read_cff(SHORT errCode, UBYTE *data, UBYTE dataLen); void Cphs_read_mbs(SHORT errCode, UBYTE *data, UBYTE dataLen); void Cphs_read_mbn(SHORT table_id); void Cphs_read_onsf(SHORT errCode, UBYTE *data, UBYTE dataLen); void Cphs_read_ons(SHORT errCode, UBYTE *data, UBYTE dataLen); void Cphs_get_csp (); void Cphs_get_mailbox (void); void Cphs_read_sim_dat_cb(SHORT table_id); BOOL Cphs_read_sim_dat(USHORT data_id, UBYTE len, UBYTE max_length); T_CPHS_RET Cphs_set_divert_status (T_CPHS_FLAG_STATUS line1, T_CPHS_FLAG_STATUS line2, T_CPHS_FLAG_STATUS fax, T_CPHS_FLAG_STATUS data); T_CPHS_RET Cphs_set_mailbox_status (T_CPHS_FLAG_STATUS line1, T_CPHS_FLAG_STATUS line2, T_CPHS_FLAG_STATUS fax, T_CPHS_FLAG_STATUS data); void Cphs_operator_name (void); void Cphs_get_mailbox_status (); void Cphs_get_divert_status () ; void Cphs_write_eeprom_mailbox(T_CPHS_MAILBOX_NUM_ENTRY *entry); void Cphs_read_eeprom_mailbox(void); void Cphs_build_mbn_data(UBYTE *data, UBYTE len); void Cphs_req_info_num_read(UBYTE rcd_num, UBYTE dataLen); void Cphs_get_info_num (UBYTE level, UBYTE startIndex); void Cphs_read_info_num(SHORT table_id); void Cphs_read_first_info_num(SHORT table_id); void Cphs_read_sim_rcd_cb (SHORT table_id); BOOL Cphs_read_sim_rcd(USHORT data_id, UBYTE rcd_num, UBYTE len); void Cphs_select_info_num (UBYTE index) ; void Cphs_write_sim_dat_cb(SHORT table_id); BOOL Cphs_write_sim_dat(USHORT data_id, UBYTE *data, UBYTE length); void Cphs_write_sim_rcd_cb (SHORT table_id); BOOL Cphs_write_sim_rcd(USHORT data_id, UBYTE rcd_num, UBYTE *data, UBYTE dataLen); void Cphs_read_eeprom_als_desc(); void Cphs_write_eeprom_als_desc(T_CPHS_ALS_LINE* line); T_CPHS_RET Cphs_write_eeprom_als(T_CPHS_ALS_INFO* info); T_CPHS_RET Cphs_read_eeprom_als(T_CPHS_ALS_INFO* info); void Cphs_get_als_info (); T_CPHS_PHB_TON cvtTon(T_ACI_TOA_TON ton); /* initializes CPHS module, reads CPHS data fields from SIM and caches */ /* the read data. */ #ifdef _TESTING__ T_CPHS_INFO_NUM_LIST num_list; T_CPHS_INFO_NUM_ENTRY num_entry; int Info_Numbers_Callback(T_CPHS_INFO_NUM_LIST* list, T_CPHS_INFO_NUM_ENTRY* entry) { char debug[50]; TRACE_FUNCTION("Info_Numbers_Callback()"); if (list != NULL) { sprintf(debug, "INFO_NUMLIST:%s, count:%d",(char*)list->entry[0].alpha.data, list->count); TRACE_EVENT(debug); } if (entry != NULL) { sprintf(debug, "INFO_NUM:%s",(char*)entry->alpha.data); TRACE_EVENT(debug); } if (list == NULL && entry == NULL) TRACE_EVENT("REFRESH DONE!!!!"); } void Cphs_reading_test() { T_CPHS_ALS_INFO als_info; T_CPHS_ALS_LINE als_line; T_CPHS_INFO cphs_info; T_CPHS_CSP cphs_csp; T_CPHS_LINE_IND dv_ind; T_CPHS_MAILBOX_NUM_LIST mb_nums; T_CPHS_OPN op_name; T_CPHS_ROAMING_IND roam_ind; char debug[60]; //cphs_Init(Info_Numbers_Callback); cphs_refresh(Info_Numbers_Callback); //cphs_getInfoNumbers(&num_list,1,1, Info_Numbers_Callback); /*cphs_getAlsInfo(&als_info); sprintf(debug,"line:%d, locked:%d", als_info.line, als_info.locked); TRACE_FUNCTION(debug); als_line.line = CPHS_LINE_INDEX_LINE2; cphs_getAlsLineDescr(&als_line); sprintf(debug,"line:%d, desc:%0.22s", als_line.line, als_line.description.data); TRACE_EVENT(debug); cphs_getVoiceMessageInd(&dv_ind); sprintf(debug, "VM result:%d, line1:%d, line2: %d", dv_ind.result, dv_ind.line1, dv_ind.line2); TRACE_EVENT(debug); cphs_getCPHSInfo(&cphs_info); sprintf(debug, "Phase:%d InfoNum:%d, shortname:%d, mb:%d", cphs_info.phase, cphs_info.info_num, cphs_info.opn_short, cphs_info.mailbox_num); TRACE_EVENT(debug); cphs_getCSP(&cphs_csp); sprintf(debug, "Result: %d, CSP:%x,%x,%x,%x,%x,%x", cphs_csp.result, cphs_csp.csp[0].services, cphs_csp.csp[1].services, cphs_csp.csp[2].services, cphs_csp.csp[3].services, cphs_csp.csp[4].services, cphs_csp.csp[5].services); TRACE_EVENT(debug); //#ifdef FRED cphs_getDivertCallInd(&dv_ind); sprintf(debug, "Divert result: %d, line1:%d, line2:%d", dv_ind.result, dv_ind.line1, dv_ind.line2); TRACE_EVENT(debug); //#endif cphs_getOPN(&op_name); sprintf(debug, "res:%d long_name:%s, short_name%0.22s", op_name.result, op_name.long_name, op_name.short_name); TRACE_EVENT(debug); cphs_getRoamingInd(&roam_ind); sprintf(debug, "Roaming ind: %d", roam_ind); TRACE_EVENT(debug); cphs_getMailboxNumbers(&mb_nums); sprintf(debug, "MBN result: %d, count:%d, first:%0.22s",mb_nums.result, mb_nums.count, mb_nums.entries[0].number); TRACE_EVENT(debug);*/ } void Cphs_writing_test() { T_CPHS_ALS_INFO als_info; T_CPHS_ALS_LINE als_line; T_CPHS_LINE_IND dv_ind; T_CPHS_ROAMING_IND roam_ind; char debug[50]; cphs_Init(Info_Numbers_Callback); //cphs_refresh(Info_Numbers_Callback); als_line.line = CPHS_LINE_INDEX_LINE2; memcpy(als_line.description.data, (UBYTE*)"Second Line !!", 8); als_line.description.len = 8; cphs_setAlsLineDescr(als_line); als_info.line = CPHS_LINE_INDEX_LINE2; als_info.locked= CPHS_LINEFLAG_SET; cphs_setAlsInfo(&als_info); cphs_setDivertCallInd(CPHS_LINE_INDEX_LINE1, CPHS_LINEFLAG_NOT_SET); cphs_setDivertCallInd(CPHS_LINE_INDEX_LINE2, CPHS_LINEFLAG_SET); cphs_setVoiceMessageInd(CPHS_LINE_INDEX_LINE1, CPHS_LINEFLAG_NOT_SET); cphs_setVoiceMessageInd(CPHS_LINE_INDEX_LINE2, CPHS_LINEFLAG_SET); roam_ind = CPHS_ROAMING_OFF; cphs_setRoamingInd(&roam_ind); //cphs_selectInfoNumber(2, &num_entry, Info_Numbers_Callback); } #endif /* +--------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : cphs_Init | +--------------------------------------------------------------------+ */ T_CPHS_RET cphs_Init(T_CPHS_CB_FUNC callback) { //check if already initilaised? if (cphs_data) return CPHS_IS_OK; cphs_data = (T_CPHS_CACHED_DATA*)malloc(sizeof(T_CPHS_CACHED_DATA)); if (cphs_data) { cphs_data->cphsStatus = CPHS_NOT_PRESENT; cphs_data->simStatus = SIMOP_UNKNOWN; cphs_data->cphsUpdate = FALSE; cphs_data->cphsPrevRead = 0; cphs_data->InfoNumberListCB = NULL; cphs_data->InfoNumberCB = NULL; Cphs_support_check(); cphs_refresh(callback); return CPHS_IS_OK; } else return CPHS_FAIL; } /* +--------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : cphs_refresh() | +--------------------------------------------------------------------+ */ /* reads CPHS data fields from SIM and updates the cached CPHS data */ T_CPHS_RET cphs_refresh(T_CPHS_CB_FUNC callback) { T_CPHS_RET res; if (cphs_data EQ NULL) { TRACE_EVENT("CPHS not initialised"); return CPHS_NOT_INIT; } //get call divert indicator Cphs_get_divert_status (); cphs_data->RefreshCB = callback; //set call back function //get mailbox numbers /*Cphs_get_mailbox (); Cphs_operator_name (); //get voice message indicator Cphs_read_eeprom_als_desc(); //get als line description Cphs_get_mailbox_status (); //get CSP Cphs_get_csp ();*/ } /* +--------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : cphs_Exit() | +--------------------------------------------------------------------+ */ /* de-initializes CPHS module */ T_CPHS_RET cphs_Exit() { if (cphs_data EQ NULL) return CPHS_NOT_INIT; free(cphs_data); return CPHS_IS_OK; } /* +--------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : cphs_getOPN | +--------------------------------------------------------------------+ */ /* reads from SIM the operator long name and if available the short */ /* name, too */ T_CPHS_RET cphs_getOPN ( T_CPHS_OPN *opn ) { if (cphs_data EQ NULL) return CPHS_NOT_INIT; if (opn EQ NULL) return CPHS_FAIL; memcpy(opn, &cphs_data->opName, sizeof(T_CPHS_OPN)); return CPHS_IS_OK; } /* +--------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : cphs_getRoamingInd | +--------------------------------------------------------------------+ */ /* checks if roaming is active */ T_CPHS_RET cphs_getRoamingInd ( T_CPHS_ROAMING_IND *indicator ) { #ifndef NEPTUNE_BOARD /* T_ACI_COPS_MOD mode; T_ACI_COPS_FRMT format; CHAR oper[30]; T_OPER_NTRY* plmn_entry; SHORT mccBuf, mncBuf; char debug[50]; UBYTE numeric[8]; char ** end; memset(oper, 0, 30); */ #else T_ACI_COPS_MOD mode; T_ACI_COPS_FRMT format; CHAR oper[30]; T_OPER_NTRY* plmn_entry; SHORT mccBuf, mncBuf; char debug[50]; UBYTE numeric[8]; char ** end; memset(oper, 0, 30); #endif if (cphs_data EQ NULL) return CPHS_NOT_INIT; if (indicator EQ NULL) return CPHS_FAIL; #ifndef NEPTUNE_BOARD *indicator = cphs_data->roaming_ind; #else memcpy(indicator, &cphs_data->roaming_ind, sizeof(T_CPHS_ROAMING_IND)); #endif /* qAT_PlusCOPS (CMD_SRC_NONE,&mode,&format,oper ); //get current MCC if (format == COPS_FRMT_Long OR format == COPS_FRMT_Short) { sAT_PlusCOPSE(oper, format, NULL, NULL, numeric); // plmn_entry = cmhMM_FindName( oper, format ); numeric[3] = 0;//terminate string before MNC plmn_entry->mcc = strtol((char*)numeric,end,16 ); } if (format == COPS_FRMT_Numeric) { //plmn_entry = cmhMM_FindNumeric( oper ); oper[3] = 0; plmn_entry->mcc = strtol((char*)oper, end, 16); } //get "Home MCC" cmhSIM_GetHomePLMN ( &mccBuf, &mncBuf ); //currently qAT_PlusCOPS is not returning the correct format //cmhMM_FindName/Numeric rely on PCM which does not work sprintf(debug, "Home MCC %d, current MCC %d COPS fmt:%d", plmn_entry->mcc, mccBuf, format); TRACE_EVENT(debug); if (plmn_entry->mcc == mccBuf) *indicator = CPHS_ROAMING_OFF; else *indicator = CPHS_ROAMING_ON; */ return CPHS_IS_OK; } /* +--------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : cphs_getVoiceMessageInd | +--------------------------------------------------------------------+ */ /* reads from SIM if voice mails are waiting for the available lines */ /* (line1, line2, fax, data) */ T_CPHS_RET cphs_getVoiceMessageInd( T_CPHS_LINE_IND *indicator ) { if (cphs_data EQ NULL) return CPHS_NOT_INIT; if (indicator EQ NULL) return CPHS_FAIL; memcpy(indicator, &cphs_data->mbStatus, sizeof(T_CPHS_LINE_IND)); return CPHS_IS_OK; } /* +--------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : cphs_setVoiceMessageInd | +--------------------------------------------------------------------+ */ /* sets on SIM the voice mail waiting flag for the given lines in the */ /* parameter line_mask. The bitmask will be created by oring the lines.*/ /* The bits for the lines are defined in T_CPHS_LINE_INDEX. */ T_CPHS_RET cphs_setVoiceMessageInd( UBYTE line_mask, T_CPHS_FLAG_STATUS flag ) { if (cphs_data EQ NULL) return CPHS_NOT_INIT; if (CPHS_LINE_INDEX_LINE1 & line_mask) { cphs_data->mbStatus.line1 = flag; TRACE_EVENT("Setting Line 1 VM"); Cphs_set_mailbox_status(flag,CPHS_FLAG_NOT_PRESENT ,CPHS_FLAG_NOT_PRESENT,CPHS_FLAG_NOT_PRESENT); } if (CPHS_LINE_INDEX_LINE2 & line_mask) { TRACE_EVENT("SEtting line 2 VM"); cphs_data->mbStatus.line2 = flag; Cphs_set_mailbox_status(CPHS_FLAG_NOT_PRESENT, flag,CPHS_FLAG_NOT_PRESENT,CPHS_FLAG_NOT_PRESENT); } if (CPHS_LINE_INDEX_FAX & line_mask) { cphs_data->mbStatus.fax = flag; Cphs_set_mailbox_status(CPHS_FLAG_NOT_PRESENT, CPHS_FLAG_NOT_PRESENT,flag,CPHS_FLAG_NOT_PRESENT); } if (CPHS_LINE_INDEX_DATA & line_mask) { cphs_data->mbStatus.data = flag; Cphs_set_mailbox_status(CPHS_FLAG_NOT_PRESENT, CPHS_FLAG_NOT_PRESENT,CPHS_FLAG_NOT_PRESENT,flag); } return CPHS_EXEC; } /* +--------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : cphs_getDivertCallInd | +--------------------------------------------------------------------+ */ /* reads from SIMif calls shall be diverted for the available lines */ /* (line1, line2, fax, data) */ T_CPHS_RET cphs_getDivertCallInd (T_CPHS_LINE_IND *indicator ) { if (cphs_data EQ NULL) return CPHS_NOT_INIT; if (ind EQ NULL) return CPHS_FAIL; memcpy(indicator, &cphs_data->dvStatus, sizeof(T_CPHS_LINE_IND)); return CPHS_IS_OK; } /* +--------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : cphs_setDivertCallInd | +--------------------------------------------------------------------+ */ /* sets on SIM the divert call flag for the given lines in the */ /* parameter line_mask. The bitmask will be created by oring the lines.*/ /* The bits for the lines are defined in T_CPHS_LINE_INDEX. */ T_CPHS_RET cphs_setDivertCallInd ( UBYTE line_mask, T_CPHS_FLAG_STATUS flag ) { if (cphs_data EQ NULL) return CPHS_NOT_INIT; if (CPHS_LINE_INDEX_LINE1 & line_mask) { cphs_data->dvStatus.line1 = flag; TRACE_EVENT("Setting line 1 divert"); Cphs_set_divert_status(flag,CPHS_FLAG_NOT_PRESENT ,CPHS_FLAG_NOT_PRESENT,CPHS_FLAG_NOT_PRESENT); } if (CPHS_LINE_INDEX_LINE2 & line_mask) { cphs_data->dvStatus.line2 = flag; TRACE_EVENT("Setting line 2 divert"); Cphs_set_divert_status(CPHS_FLAG_NOT_PRESENT, flag,CPHS_FLAG_NOT_PRESENT,CPHS_FLAG_NOT_PRESENT); } if (CPHS_LINE_INDEX_FAX & line_mask) { cphs_data->dvStatus.fax = flag; Cphs_set_divert_status(CPHS_FLAG_NOT_PRESENT, CPHS_FLAG_NOT_PRESENT,flag,CPHS_FLAG_NOT_PRESENT); } if (CPHS_LINE_INDEX_DATA & line_mask) { cphs_data->dvStatus.data = flag; Cphs_set_divert_status(CPHS_FLAG_NOT_PRESENT, CPHS_FLAG_NOT_PRESENT,CPHS_FLAG_NOT_PRESENT,flag); } return CPHS_EXEC; } /* +--------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : cphs_getAlsInfo | +--------------------------------------------------------------------+ */ /* reads from SIM the information of alternate line service */ /* ( selected line, alternate line service locked/unlocked) */ T_CPHS_RET cphs_getAlsInfo ( T_CPHS_ALS_INFO *info ) { if (cphs_data EQ NULL) return CPHS_NOT_INIT; if (info EQ NULL) return CPHS_FAIL; //memcpy(info, &cphs_data->alsStatus, sizeof( T_CPHS_ALS_INFO)); Cphs_read_eeprom_als(info); return CPHS_IS_OK; } /* +--------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : cphs_setAlsInfo| +--------------------------------------------------------------------+ */ /* sets on SIM the informtion of alternate line service / selects the */ /* active line */ T_CPHS_RET cphs_setAlsInfo ( T_CPHS_ALS_INFO *info ) { if (cphs_data EQ NULL) return CPHS_NOT_INIT; if (info EQ NULL) return CPHS_FAIL; //memcpy(&cphs_data->alsStatus, info, sizeof(T_CPHS_ALS_INFO)); return Cphs_write_eeprom_als(info); //return CPHS_EXEC; } /* +--------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : cphs_getAlsLineDescr | +--------------------------------------------------------------------+ */ /* reads the (alpha)numeric description for the given line */ T_CPHS_RET cphs_getAlsLineDescr ( T_CPHS_ALS_LINE* line ) { if (cphs_data EQ NULL) return CPHS_NOT_INIT; if (line EQ NULL) return CPHS_FAIL; Cphs_read_eeprom_als_desc(); if (line->line EQ CPHS_LINE_INDEX_LINE1) { memcpy(line,&cphs_data->Line1_desc, sizeof(T_CPHS_ALS_LINE)); return CPHS_IS_OK; } if (line->line EQ CPHS_LINE_INDEX_LINE2) { memcpy( line, &cphs_data->Line2_desc,sizeof(T_CPHS_ALS_LINE)); return CPHS_IS_OK; } return CPHS_FAIL; } /* +--------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE :cphs_setAlsLineDescr | +--------------------------------------------------------------------+ */ /* sets a (alpha)numeric description for the given line */ T_CPHS_RET cphs_setAlsLineDescr ( T_CPHS_ALS_LINE line ) { if (cphs_data EQ NULL) return CPHS_NOT_INIT; if (line.line EQ CPHS_LINE_INDEX_LINE1) { memcpy(&cphs_data->Line1_desc,&line, sizeof(T_CPHS_ALS_LINE)); Cphs_write_eeprom_als_desc(&cphs_data->Line1_desc); return CPHS_IS_OK; } if (line.line EQ CPHS_LINE_INDEX_LINE2) { memcpy(&cphs_data->Line2_desc, &line, sizeof(T_CPHS_ALS_LINE)); Cphs_write_eeprom_als_desc(&cphs_data->Line2_desc); return CPHS_IS_OK; } return CPHS_FAIL; } /* +--------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : cphs_setRoamingInd | +--------------------------------------------------------------------+ */ T_CPHS_RET cphs_setRoamingInd ( T_CPHS_ROAMING_IND* indicator ) { if (cphs_data EQ NULL) return CPHS_NOT_INIT; if (*indicator EQ CPHS_ROAMING_OFF OR *indicator EQ CPHS_ROAMING_ON) { cphs_data->roaming_ind = *indicator; return CPHS_IS_OK; } else return CPHS_FAIL; } /* +--------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : cphs_checkEmergencyCall | +--------------------------------------------------------------------+ */ /* check if the current call number(ASCII encoded) is an emergency number supported */ /* by CPHS. */ T_CPHS_RET cphs_checkEmergencyCall( char* num ) { char** end; if (cphs_data EQ NULL) return CPHS_NOT_INIT; if (num EQ NULL) return CPHS_FAIL; if (strtol(num, end, 10)EQ CPHS_EMERGENCY_NUM_112 OR strtol(num, end, 10)EQ CPHS_EMERGENCY_NUM_999) return CPHS_IS_OK; else return CPHS_FAIL; } /* +--------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : cphs_getCPHSInfo | +--------------------------------------------------------------------+ */ /* reads from SIM the phase of the SIM and which optional datafields */ /* are present in the SIM */ /* (operator name shortform, mailbox numbers, service string table, */ /* information numbers) */ T_CPHS_RET cphs_getCPHSInfo ( T_CPHS_INFO *info ) { if (cphs_data EQ NULL) return CPHS_NOT_INIT; if (info !=NULL) { info->phase = cphs_data->cphsPhase; info->csp = Cphs_ssc(CPHS_CSP, cphs_data->cphsServTab); info->mailbox_num = Cphs_ssc(CPHS_MB_NUMBER, cphs_data->cphsServTab); if (cphs_data->cphsPhase EQ 1) /* phase 1 only */ info->sst = Cphs_ssc(CPHS_SST, cphs_data->cphsServTab); else /* not support */ info->sst = NO_ALLOCATED; if (cphs_data->cphsPhase EQ 2) /* phase 2 only */ { info->opn_short = Cphs_ssc(CHPS_NAME_SHORT, cphs_data->cphsServTab); info->info_num = Cphs_ssc(CHPS_INFO_NUMBERS, cphs_data->cphsServTab); } else /* not support */ { info->opn_short = NO_ALLOCATED; info->info_num = NO_ALLOCATED; } return CPHS_IS_OK; } return CPHS_FAIL; } /* +--------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : cphs_getCSP | +--------------------------------------------------------------------+ */ /* reads all entries of the customer service profile and fills */ T_CPHS_RET cphs_getCSP ( T_CPHS_CSP *csp ) { if (cphs_data EQ NULL) return CPHS_NOT_INIT; if (csp EQ NULL) return CPHS_FAIL; memcpy(csp, &cphs_data->csProfile, sizeof(T_CPHS_CSP)); return CPHS_IS_OK; } /* +--------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : cphs_getMailboxNumbers | +--------------------------------------------------------------------+ */ /* reads all mailbox numbers from the SIM fills all mailbox number */ /* entries in the mailbox number list */ T_CPHS_RET cphs_getMailboxNumbers ( T_CPHS_MAILBOX_NUM_LIST *nums ) {if (cphs_data EQ NULL) return CPHS_NOT_INIT; if (nums EQ NULL) return CPHS_FAIL; memcpy(nums, &cphs_data->mbNum, sizeof(T_CPHS_CSP)); return CPHS_IS_OK; } /* +--------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : cphs_getInfoNumbers| +--------------------------------------------------------------------+ */ /* reads all information numbers from the SIM fills all information */ /* numbers into the array of pointers to information number lists down to the level specified */ //MC-Not sure about the format of this as current mfw_cphs code returns an information number list //with only 4 entries T_CPHS_RET cphs_getInfoNumbers ( T_CPHS_INFO_NUM_LIST *nums, UBYTE level, UBYTE start_index, T_CPHS_CB_FUNC callback) { cphs_data->InfoNumberListCB = callback; cphs_data->numList=nums; Cphs_get_info_num(level, start_index); } /* +--------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : cphs_selectInfoNumber | +--------------------------------------------------------------------+ PURPOSE : reads the information number entry given by level and index from the SIM */ T_CPHS_RET cphs_selectInfoNumber ( USHORT index, T_CPHS_INFO_NUM_ENTRY *num, T_CPHS_CB_FUNC callback) { cphs_data->InfoNumberCB = callback; cphs_data->infoEntry= num; Cphs_select_info_num(index); //num = &cphs_data->infoEntry; } /* +--------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : Cphs_support_check | +--------------------------------------------------------------------+ PURPOSE : Check whether CPHS is supported. */ void Cphs_support_check (void) { TRACE_FUNCTION ("Cphs_support_check()"); /* Read CPHS information filed (6F16 - 3 bytes) from SIM card */ if (!Cphs_read_sim_dat(SIM_CPHS_CINF, NOT_PRESENT_8BIT, CPHS_INFO_SIZE)) { /* Read failed */ cphs_data->cphsStatus = CPHS_NOT_PRESENT; } } /* +--------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : Cphs_operator_name | +--------------------------------------------------------------------+ PURPOSE : Request the network operator name */ void Cphs_operator_name (void) { TRACE_FUNCTION ("Cphs_operator_name()"); /* Check CPHS support status */ if (cphs_data->cphsStatus EQ CPHS_NOT_PRESENT) return; /* Read operator name sring */ if (!Cphs_read_sim_dat(SIM_CPHS_ONSTR, NOT_PRESENT_8BIT, CPHS_ONS_SIZE)) { /* Read operator name sring failed */ cphs_data->opName.long_name.len = 0; /* Read operator name shortform */ if ((cphs_data->cphsPhase NEQ 2) OR (Cphs_ssc(CHPS_NAME_SHORT, cphs_data->cphsServTab) NEQ ALLOCATED_AND_ACTIVATED) OR !Cphs_read_sim_dat(SIM_CPHS_ONSHF, NOT_PRESENT_8BIT, CPHS_ONSF_SIZE) ) { /* Read operator name shortform failed. */ cphs_data->opName.short_name.len = 0; cphs_data->opName.result = SIMOP_READ_ERR; } } } /* +-------------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : Cphs_get_mailbox_status | +-------------------------------------------------------------------------+ PURPOSE : get the voice message waiting flag */ void Cphs_get_mailbox_status () { TRACE_FUNCTION ("Cphs_get_mailbox_status()"); /* Check CPHS support status. */ if (cphs_data->cphsStatus EQ CPHS_NOT_PRESENT) return ; /* Read voice message waiting flag. When this reading failed, send event with "read error" parameter to MMI */ if (!Cphs_read_sim_dat(SIM_CPHS_VMW, NOT_PRESENT_8BIT, CPHS_MBS_SIZE)) { cphs_data->mbStatus.result = SIMOP_READ_ERR; TRACE_EVENT("Reading mailbox status failed"); } } /* +------------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : Cphs_get_divert_status | +------------------------------------------------------------------------+ PURPOSE : Request the call forwarding flags */ void Cphs_get_divert_status () { TRACE_FUNCTION ("Cphs_get_divert_status()"); /* Check CPHS support status. */ if (cphs_data->cphsStatus EQ CPHS_NOT_PRESENT) return; /* Read call forwarding flags. When this reading failed, send event with "read error" parameter to MMI */ if (!Cphs_read_sim_dat(SIM_CPHS_CFF, NOT_PRESENT_8BIT, CPHS_CFF_SIZE)) { cphs_data->dvStatus.result = SIMOP_READ_ERR; } } /* +---------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : Cphs_get_als_info | +---------------------------------------------------------------------+ PURPOSE : Request the Status of Alternate Line Service information (first read selected ALS line, dann status of this line). When the field does not exist in SIM, read it from EEPROM. */ //ATM, cannot get als lock status from SIM /*void Cphs_get_als_info () { TRACE_EVENT ("Cphs_get_als_info()"); Cphs_read_eeprom_als(); }*/ /* +---------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : Cphs_get_csp | +---------------------------------------------------------------------+ PURPOSE : Request the customer service profile */ void Cphs_get_csp () { UBYTE res; TRACE_FUNCTION ("Cphs_get_csp()"); /* Check CPHS support status. */ if (cphs_data->cphsStatus EQ CPHS_NOT_PRESENT) return ; /* check CPHS service table */ res = Cphs_ssc(CPHS_CSP, cphs_data->cphsServTab); if ( res NEQ ALLOCATED_AND_ACTIVATED) return; /* Read customer service profile. When this reading failed, send event with empty parameter array to MMI */ if (!Cphs_read_sim_dat(SIM_CPHS_CSP, NOT_PRESENT_8BIT, CPHS_CSP_SIZE)) { cphs_data->csProfile.result = SIMOP_READ_ERR; memset(cphs_data->csProfile.csp, 0, sizeof(cphs_data->csProfile.csp)); } } /* +---------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : Cphs_get_mailbox | +---------------------------------------------------------------------+ PURPOSE : Request the customer service profile */ void Cphs_get_mailbox (void) { TRACE_FUNCTION ("Cphs_get_mailbox()"); cphs_data->mbNum.count = 0; /* Check CPHS support status. When CPHS is not support, read mailbox numbers from EEPROM */ if (cphs_data->cphsStatus EQ CPHS_NOT_PRESENT) { Cphs_read_eeprom_mailbox(); return; } /* Check CPHS service table. When CPHS is not support, read mailbox numbers from EEPROM */ if (Cphs_ssc(CPHS_MB_NUMBER, cphs_data->cphsServTab) NEQ ALLOCATED_AND_ACTIVATED) { TRACE_EVENT("CPHS doesn't support mailbox"); Cphs_read_eeprom_mailbox(); return; } /* Read mailbox numbers from SIM. When this reading failed, read mailbox numbers from EEPROM */ //cphs_data->simStatus = SIMOP_UNKNOWN; if (!Cphs_read_sim_rcd(SIM_CPHS_MBXN, 1, 0)) /* read the first record */ { TRACE_EVENT("Mailbox Sim read failed"); Cphs_read_eeprom_mailbox(); } } /* +----------------------------------------------------------------------+ | MODULE: CPHS standalone module | | STATE : code ROUTINE: Cphs_ssc | +----------------------------------------------------------------------+ PURPOSE : Check CPHS service status. */ UBYTE Cphs_ssc (UBYTE nr, UBYTE * serv_table) { UBYTE value; TRACE_FUNCTION ("Cphs_ssc()"); serv_table = serv_table + (nr-1)/4; value = * serv_table; value = value >> (((nr-1) & 3) * 2); value = value & 3; return value; } /* +------------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : Cphs_set_mailbox_status| +------------------------------------------------------------------------+ PURPOSE : Set the mailbox status on each line */ T_CPHS_RET Cphs_set_mailbox_status (T_CPHS_FLAG_STATUS line1, T_CPHS_FLAG_STATUS line2, T_CPHS_FLAG_STATUS fax, T_CPHS_FLAG_STATUS data) { UBYTE result; char debug[50]; TRACE_FUNCTION ("Cphs_set_mailbox_status()"); /* Check CPHS support status. */ // if (cphs_data->cphsStatus EQ CPHS_NOT_PRESENT) // return CPHS_FAIL; sprintf(debug, "Original mailbox status: %x%x",cphs_data->mbsData[0],cphs_data->mbsData[1]); TRACE_EVENT(debug); /* Write status in buffer */ if (line1 EQ CPHS_LINEFLAG_SET OR line1 ==CPHS_LINEFLAG_NOT_SET ) { /* low Nibble */ cphs_data->mbsData[0]&=0xF0; //get rid of low nibble cphs_data->mbsData[0] += (line1&0x0F); } /* else cphs_data->mbsData[0] |= 0x0F;*/ if (line2 EQ CPHS_LINEFLAG_SET OR line2 EQ CPHS_LINEFLAG_NOT_SET ) { cphs_data->mbsData[0]&=0x0F; //get rid of high nibble cphs_data->mbsData[0] += (line2 << 4)&0xF0; /* high Nibble */ } /* else cphs_data->mbsData[0] = 0xF0 | cphs_data->mbsData[0];*/ if (fax EQ CPHS_LINEFLAG_SET OR fax EQ CPHS_LINEFLAG_NOT_SET ) {cphs_data->mbsData[1]&=0xF0; //get rid of low nibble cphs_data->mbsData[1] += fax&0x0F; /* low Nibble */ } /* else cphs_data->mbsData[1] |= 0x0F;*/ if (data EQ CPHS_LINEFLAG_SET OR data EQ CPHS_LINEFLAG_NOT_SET ) { cphs_data->mbsData[1]&=0x0F; //get rid of high nibble cphs_data->mbsData[1] += (data << 4)&0xF0; /* high Nibble */ } /* else cphs_data->mbsData[1] = 0xF0 | cphs_data->mbsData[1];*/ sprintf(debug, "MBS Data:%x%x", cphs_data->mbsData[0], cphs_data->mbsData[1]); TRACE_EVENT(debug); /* Read voice message waiting flag to determine the size */ cphs_data->simStatus = SIMOP_WRITE_OK; if (!Cphs_read_sim_dat(SIM_CPHS_VMW, NOT_PRESENT_8BIT, CPHS_MBS_SIZE)) //if (!Cphs_write_sim_dat(SIM_CPHS_VMW, cphs_data->mbsData, CPHS_MBS_SIZE)) { TRACE_EVENT("Mailbox status SIM write failed"); return CPHS_SIM_WRITE_ERROR; } } /* +------------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : Cphs_set_divert_status| +------------------------------------------------------------------------+ PURPOSE : Set the divert status on each line */ T_CPHS_RET Cphs_set_divert_status (T_CPHS_FLAG_STATUS line1, T_CPHS_FLAG_STATUS line2, T_CPHS_FLAG_STATUS fax, T_CPHS_FLAG_STATUS data) { UBYTE result; char debug[50]; TRACE_FUNCTION ("Cphs_set_divert_status()"); /* Check CPHS support status. */ // if (cphs_data->cphsStatus EQ CPHS_NOT_PRESENT) // return cphs_data->cphsStatus; sprintf(debug, "Original divert status: %x%x",cphs_data->dvData[0],cphs_data->dvData[1]); TRACE_EVENT(debug); /* Write status in buffer */ if (line1 EQ CPHS_LINEFLAG_SET OR line1 EQ CPHS_LINEFLAG_NOT_SET ) { cphs_data->dvData[0] &= 0xF0; //zero low nibble cphs_data->dvData[0] += line1&0x0F; /* low Nibble */ } /*else cphs_data->dvData[0] |= 0x0F;*/ if (line2 EQ CPHS_LINEFLAG_SET OR line2 EQ CPHS_LINEFLAG_NOT_SET ) {cphs_data->dvData[0] &= 0x0F; //zero high nibble cphs_data->dvData[0] += (line2 << 4)&0xF0; /* high Nibble */ } /*else cphs_data->dvData[0] = 0xF0 | cphs_data->dvData[0];*/ if (fax EQ CPHS_LINEFLAG_SET OR fax EQ CPHS_LINEFLAG_NOT_SET ) { cphs_data->dvData[0] &= 0xF0; //zero low nibble cphs_data->dvData[1] += fax&0x0F; /* low Nibble */ } /* else cphs_data->dvData[1] |= 0x0F;*/ if (data EQ CPHS_LINEFLAG_SET OR data EQ CPHS_LINEFLAG_NOT_SET ) { cphs_data->dvData[1] &= 0x0F; //zero high nibble cphs_data->dvData[1] += (data << 4)&0xF0; /* high Nibble */ } /*else cphs_data->dvData[1] = 0xF0 | cphs_data->dvData[1];*/ sprintf(debug, "Divert Data:%x%x", cphs_data->dvData[0], cphs_data->dvData[1]); TRACE_EVENT(debug); /* Read call forwarding flag to determine the size */ cphs_data->simStatus = SIMOP_WRITE_OK; if (!Cphs_read_sim_dat(SIM_CPHS_CFF, NOT_PRESENT_8BIT, CPHS_CFF_SIZE)) { TRACE_EVENT("Mailbox SIM write failed"); return SIMOP_WRITE_ERR; //cphs_sign_exec(E_CPHS_SET_DV_STAT, &result); } /* PATCH VO 22.01.01 end */ return cphs_data->cphsStatus; } /*CPHS_RET cphs_set_als_status (T_CPHS_ALS_INFO status) { UBYTE result; //T_MFW_SIM_PIN_STATUS pinStatus; //TRACE_EVENT ("cphs_set_als_status()"); /* check PIN 2 requirement */ /*pinStatus.type = MFW_SIM_PIN2; sim_pin_status(&pinStatus); if (pinStatus.set NEQ MFW_SIM_NO_PIN) return MFW_SIM_PIN2_REQ; /* check given parameter */ /*if (status NEQ MFW_LINE_LOCKED AND status NEQ MFW_LINE_UNLOCKED ) { result = MFW_SIMOP_WRITE_ERR; //cphs_sign_exec(E_CPHS_SET_ALS_STATUS, &result); return CPHS_ERR; }*/ /* cphs_data->alsData = (UBYTE)status.locked;*/ /* write lock status in EEPROM */ //MC cphs_write_eeprom_alss(&result); //cphs_sign_exec(E_CPHS_SET_LINE, &result); // } /* return CPHS_IS_OK; }*/ /* +----------------------------------------------------------------------+ | MODULE: CPHS standalone module | | STATE : code ROUTINE: Cphs_read_sim_dat | +----------------------------------------------------------------------+ PURPOSE : Request to read SIM card. */ BOOL Cphs_read_sim_dat(USHORT data_id, UBYTE len, UBYTE max_length) { T_ACI_RETURN res; TRACE_FUNCTION ("Cphs_read_sim_dat()"); res = cmhSIM_ReadTranspEF ( CMD_SRC_NONE, AT_CMD_NONE, data_id, 0, max_length, NULL, Cphs_read_sim_dat_cb); if (res NEQ AT_EXCT) return FALSE; return TRUE; } /* +----------------------------------------------------------------------+ | MODULE: CPHS standalone module | | STATE : code ROUTINE: Cphs_read_sim_dat_cb | +----------------------------------------------------------------------+ PURPOSE : Call back for SIM read. */ void Cphs_read_sim_dat_cb(SHORT table_id) { UBYTE dataLen; UBYTE result; switch (simShrdPrm.atb[table_id].reqDataFld) { case SIM_CPHS_CINF: /* CPHS information */ if (!cphs_data->cphsUpdate) Cphs_read_information(simShrdPrm.atb[table_id].errCode, simShrdPrm.atb[table_id].exchData, simShrdPrm.atb[table_id].dataLen); /*#ifdef SIM_TOOLKIT else Cphs_update_info_cnf(simShrdPrm.atb[table_id].errCode, simShrdPrm.atb[table_id].exchData, simShrdPrm.atb[table_id].dataLen); #endif*/ break; case SIM_CPHS_ONSTR: /* operator name string */ Cphs_read_ons(simShrdPrm.atb[table_id].errCode, simShrdPrm.atb[table_id].exchData, simShrdPrm.atb[table_id].dataLen); break; case SIM_CPHS_ONSHF: /* operator name short form */ Cphs_read_onsf(simShrdPrm.atb[table_id].errCode, simShrdPrm.atb[table_id].exchData, simShrdPrm.atb[table_id].dataLen); Cphs_get_mailbox_status();//get next item break; case SIM_CPHS_VMW: /* voice message waiting flag */ if (cphs_data->simStatus EQ SIMOP_WRITE_OK) { /* Determine the size of this field, and write the data. When the writing is not possible, write this voice message waiting flag in EEPROM. */ cphs_data->simStatus = SIMOP_UNKNOWN; #ifdef FF_2TO1_PS if ( simShrdPrm.atb[table_id].errCode EQ CAUSE_SIM_NO_ERROR ) #else if ( simShrdPrm.atb[table_id].errCode EQ SIM_NO_ERROR ) #endif { dataLen = simShrdPrm.atb[table_id].dataLen; /* Write voice message waiting flag. When this writing failed, send event with "write error" parameter to MMI */ if (!Cphs_write_sim_dat(SIM_CPHS_VMW, cphs_data->mbsData, dataLen)) { cphs_data->mbStatus.result = SIMOP_WRITE_ERR; cphs_data->mbStatus.line1 = CPHS_FLAG_NOT_PRESENT; cphs_data->mbStatus.line2 = CPHS_FLAG_NOT_PRESENT; cphs_data->mbStatus.fax = CPHS_FLAG_NOT_PRESENT; cphs_data->mbStatus.data = CPHS_FLAG_NOT_PRESENT; } } else { cphs_data->mbStatus.result = SIMOP_WRITE_ERR; //cphs_sign_exec(E_CPHS_SET_VC_STAT, &result); cphs_data->mbStatus.line1 = CPHS_FLAG_NOT_PRESENT; cphs_data->mbStatus.line2 = CPHS_FLAG_NOT_PRESENT; cphs_data->mbStatus.fax = CPHS_FLAG_NOT_PRESENT; cphs_data->mbStatus.data = CPHS_FLAG_NOT_PRESENT; } } else /* PATCH VO 22.01.01 end */ { Cphs_read_mbs (simShrdPrm.atb[table_id].errCode, simShrdPrm.atb[table_id].exchData, simShrdPrm.atb[table_id].dataLen); Cphs_get_csp(); } break; case SIM_CPHS_CFF: /* call forwarding flag */ /* PATCH VO 22.01.01 */ if (cphs_data->simStatus EQ SIMOP_WRITE_OK) { /* Determine the size of this field, and write the data. When the writing is not possible, write this voice message waiting flag in EEPROM. */ cphs_data->simStatus = SIMOP_UNKNOWN; #ifdef FF_2TO1_PS if ( simShrdPrm.atb[table_id].errCode EQ CAUSE_SIM_NO_ERROR ) #else if ( simShrdPrm.atb[table_id].errCode EQ SIM_NO_ERROR ) #endif { dataLen = simShrdPrm.atb[table_id].dataLen; /* Write call forwarding flag. When this writing failed, send event with "write error" parameter to MMI */ if (!Cphs_write_sim_dat(SIM_CPHS_CFF, cphs_data->dvData, dataLen)) { TRACE_EVENT("Divert write failed"); cphs_data->dvStatus.result = SIMOP_WRITE_ERR; cphs_data->dvStatus.line1 = CPHS_FLAG_NOT_PRESENT; cphs_data->dvStatus.line2 = CPHS_FLAG_NOT_PRESENT; cphs_data->dvStatus.fax = CPHS_FLAG_NOT_PRESENT; cphs_data->dvStatus.data = CPHS_FLAG_NOT_PRESENT; } } else {TRACE_EVENT("Sim error while writing"); cphs_data->dvStatus.result = SIMOP_WRITE_ERR; cphs_data->dvStatus.line1 = CPHS_FLAG_NOT_PRESENT; cphs_data->dvStatus.line2 = CPHS_FLAG_NOT_PRESENT; cphs_data->dvStatus.fax = CPHS_FLAG_NOT_PRESENT; cphs_data->dvStatus.data = CPHS_FLAG_NOT_PRESENT; } } else /* PATCH VO 22.01.01 end */ {Cphs_get_mailbox(); Cphs_read_cff (simShrdPrm.atb[table_id].errCode, simShrdPrm.atb[table_id].exchData, simShrdPrm.atb[table_id].dataLen); } break; case SIM_CPHS_CSP: /* customer service profile */ Cphs_read_csp (simShrdPrm.atb[table_id].errCode, simShrdPrm.atb[table_id].exchData, simShrdPrm.atb[table_id].dataLen); //All CPHS data fields have now been read //so call callback function to alert client layer break; default: break; } simShrdPrm.atb[table_id].ntryUsdFlg = FALSE; } /* +----------------------------------------------------------------------+ | MODULE: CPHS standalone module | | STATE : code ROUTINE: Cphs_read_sim_rcd | +----------------------------------------------------------------------+ PURPOSE : Request to read SIM card. */ BOOL Cphs_read_sim_rcd(USHORT data_id, UBYTE rcd_num, UBYTE len) { T_ACI_RETURN res; UBYTE dataLen; TRACE_FUNCTION ("Cphs_read_sim_rcd()"); if (rcd_num EQ 1) dataLen = UCHAR_MAX; else dataLen = len; res = cmhSIM_ReadRecordEF ( CMD_SRC_NONE, AT_CMD_NONE, data_id, rcd_num, dataLen, NULL, Cphs_read_sim_rcd_cb); if (res NEQ AT_EXCT) return FALSE; return TRUE; } /* +----------------------------------------------------------------------+ | MODULE: CPHS standalone module | | STATE : code ROUTINE: Cphs_read_sim_rcd_cb | +----------------------------------------------------------------------+ PURPOSE : Request to read SIM card. */ void Cphs_read_sim_rcd_cb (SHORT table_id) { UBYTE dataLen; char debug[25]; sprintf(debug, "SIM Error code!!!%d", simShrdPrm.atb[table_id].errCode); TRACE_FUNCTION ("Cphs_read_sim_rcd_cb()"); TRACE_EVENT(debug); switch (simShrdPrm.atb[table_id].reqDataFld) { case SIM_CPHS_MBXN: /* mailbox numbers */ if (cphs_data->simStatus EQ SIMOP_WRITE_OK) { /* Determine the size of record, and write a new record. When the writing is not possible, write this mailbox number in EEPROM. */ cphs_data->simStatus = SIMOP_UNKNOWN; #ifdef FF_2TO1_PS if ( simShrdPrm.atb[table_id].errCode EQ CAUSE_SIM_NO_ERROR ) #else if ( simShrdPrm.atb[table_id].errCode EQ SIM_NO_ERROR ) #endif { dataLen = simShrdPrm.atb[table_id].dataLen; /* allocate mbnData (sizeof(dataLen)) */ Cphs_build_mbn_data(cphs_data->mbnData, dataLen); if (!Cphs_write_sim_rcd(SIM_CPHS_MBXN, cphs_data->vcEntry->index, cphs_data->mbnData, dataLen)) Cphs_write_eeprom_mailbox(cphs_data->vcEntry); } else Cphs_write_eeprom_mailbox(cphs_data->vcEntry); } else Cphs_read_mbn(table_id); break; case SIM_CPHS_INFN: /* information numbers */ if (simShrdPrm.atb[table_id].recNr EQ 1) { if ((cphs_data->startIdx EQ 1) AND (cphs_data->simStatus EQ SIMOP_READ_OK)) Cphs_read_info_num(table_id); else Cphs_read_first_info_num(table_id); } else Cphs_read_info_num(table_id); break; case SIM_CPHS_INFN2: /* information numbers 2 - 7F10 'EA01' selected if SIM_CPHS_INFN '6F19' isn't there*/ if (simShrdPrm.atb[table_id].recNr EQ 1) { if ((cphs_data->startIdx EQ 1) AND (cphs_data->simStatus EQ SIMOP_READ_OK)) Cphs_read_info_num(table_id); else Cphs_read_first_info_num(table_id); } else Cphs_read_info_num(table_id); break; default: break; } simShrdPrm.atb[table_id].ntryUsdFlg = FALSE; } /* +----------------------------------------------------------------------+ | MODULE: CPHS standalone module | | STATE : code ROUTINE: Cphs_write_sim_rcd | +----------------------------------------------------------------------+ PURPOSE : Request to write SIM card. */ BOOL Cphs_write_sim_rcd(USHORT data_id, UBYTE rcd_num, UBYTE *data, UBYTE dataLen) { T_ACI_RETURN res; TRACE_FUNCTION ("Cphs_read_sim_rcd()"); res = cmhSIM_WriteRecordEF (CMD_SRC_NONE, AT_CMD_NONE, data_id, rcd_num, dataLen, data, Cphs_write_sim_rcd_cb); if (res NEQ AT_EXCT) return FALSE; return TRUE; } /* +----------------------------------------------------------------------+ | MODULE: CPHS standalone module | | STATE : code ROUTINE: Cphs_write_sim_rcd_cb | +----------------------------------------------------------------------+ PURPOSE : callback of SIM card writing. */ void Cphs_write_sim_rcd_cb (SHORT table_id) { UBYTE result; char debug[30]; TRACE_FUNCTION ("Cphs_write_sim_rcd_cb()"); sprintf(debug, "SIM Error code!!!%d", simShrdPrm.atb[table_id].errCode); TRACE_EVENT(debug); switch (simShrdPrm.atb[table_id].reqDataFld) { case SIM_CPHS_MBXN: /* mailbox numbers */ #ifdef FF_2TO1_PS if ( simShrdPrm.atb[table_id].errCode EQ CAUSE_SIM_NO_ERROR ) #else if ( simShrdPrm.atb[table_id].errCode EQ SIM_NO_ERROR ) #endif { cphs_data->mbNum.result = SIMOP_WRITE_OK; //cphs_sign_exec(E_CPHS_SET_VC_NUM, &result); } else { Cphs_write_eeprom_mailbox(cphs_data->vcEntry); } break; default: break; } simShrdPrm.atb[table_id].ntryUsdFlg = FALSE; } /* +--------------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : Cphs_read_first_info_num | +--------------------------------------------------------------------------+ PURPOSE : Read first record of information numbers */ void Cphs_read_first_info_num(SHORT table_id) { //UBYTE* pData; /* points to data buffer */ UBYTE dataLen; TRACE_FUNCTION ("Cphs_read_first_info_num()"); #ifdef FF_2TO1_PS if ( simShrdPrm.atb[table_id].errCode NEQ CAUSE_SIM_NO_ERROR ) /* VO patch 040501 - remove dataLen and pData check */ #else if ( simShrdPrm.atb[table_id].errCode NEQ SIM_NO_ERROR ) /* VO patch 040501 - remove dataLen and pData check */ #endif { if (cphs_data->simStatus EQ SIMOP_READ_OK) /* Read entry of information numbers */ { cphs_data->simStatus = SIMOP_UNKNOWN; cphs_data->infoEntry->result = SIMOP_READ_ERR; if (cphs_data->InfoNumberCB != NULL) (cphs_data->InfoNumberCB)(NULL, cphs_data->infoEntry); } else {// if we are here then its possible the read of 7F20 6F19 failed. // so we must try reading 7F10 EA01 instead. if (cphs_data->cphsPrevRead EQ SIM_CPHS_INFN) { if (!Cphs_read_sim_rcd(SIM_CPHS_INFN2, 1, 0)) { cphs_data->infoEntry->result = SIMOP_READ_ERR; if (cphs_data->InfoNumberCB != NULL) (cphs_data->InfoNumberCB)(NULL, cphs_data->infoEntry); } else { cphs_data->cphsPrevRead = SIM_CPHS_INFN2; } } else { if (cphs_data->InfoNumberListCB != NULL) (cphs_data->InfoNumberListCB)(cphs_data->numList, NULL); } } } else { cphs_data->maxRec = simShrdPrm.atb[table_id].recMax; dataLen = simShrdPrm.atb[table_id].dataLen; if (cphs_data->simStatus EQ SIMOP_READ_OK) /* Read entry of information numbers */ { /* VO patch 040501 - add dataLen check: if (patch) else ... */ if (dataLen < CPHS_MIN_INS_SIZE ) { cphs_data->simStatus = SIMOP_UNKNOWN; cphs_data->infoEntry->result = SIMOP_READ_ERR; } else Cphs_req_info_num_read(cphs_data->startIdx, dataLen); } else /* Read list of information numbers */ { /* VO patch 040501 - add dataLen check: if (patch) else ... */ if (dataLen >= CPHS_MIN_INS_SIZE ) { if (cphs_data->idxLevel EQ 1) /* read this entry */ Cphs_read_info_num(table_id); else /* read the startIndex record */ Cphs_req_info_num_read(cphs_data->startIdx, dataLen); } } } } T_PHB_NPI cvtNpi(T_ACI_TOA_NPI npi) { switch (npi) { case NPI_NotPresent: case NPI_Unknown: return CPHS_NPI_UNKNOWN; case NPI_IsdnTelephony: return CPHS_NPI_ISDN; case NPI_Data: return CPHS_NPI_DATA; case NPI_Telex: return CPHS_NPI_TELEX; case NPI_Private: return CPHS_NPI_PRIVATE; case NPI_National: return CPHS_NPI_NATIONAL; #ifdef FF_2TO1_PS case NPI_Ermes: return CPHS_NPI_M_ERMES; case NPI_Cts: return CPHS_NPI_M_CTS; #else case NPI_ERMES: return CPHS_NPI_M_ERMES; case NPI_CTS: return CPHS_NPI_M_CTS; #endif default: return npi; } } /* +---------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : Cphs_read_info_num | +---------------------------------------------------------------------+ PURPOSE : Read first record of information numbers */ void Cphs_read_info_num(SHORT table_id) { UBYTE* pData; /* points to data buffer */ UBYTE dataLen; UBYTE alphaLen; UBYTE recNr; T_ACI_TOA type; TRACE_FUNCTION ("Cphs_read_info_num()"); pData = simShrdPrm.atb[table_id].exchData; dataLen = simShrdPrm.atb[table_id].dataLen; recNr = simShrdPrm.atb[table_id].recNr; #ifdef FF_2TO1_PS if ( simShrdPrm.atb[table_id].errCode NEQ CAUSE_SIM_NO_ERROR OR #else if ( simShrdPrm.atb[table_id].errCode NEQ SIM_NO_ERROR OR #endif pData EQ NULL OR dataLen < CPHS_MIN_INS_SIZE ) { if (cphs_data->simStatus EQ SIMOP_READ_OK) /* Read entry of information numbers */ { cphs_data->simStatus = SIMOP_UNKNOWN; cphs_data->infoEntry->result = SIMOP_READ_ERR; TRACE_EVENT("Info num read error"); if (cphs_data->InfoNumberCB != NULL) (cphs_data->InfoNumberCB)(NULL, cphs_data->infoEntry); } else {// if we are here then its possible the read of 7F20 6F19 failed. // so we must try reading 7F10 EA01 instead. if (cphs_data->cphsPrevRead EQ SIM_CPHS_INFN2) { if (!Cphs_read_sim_rcd(SIM_CPHS_INFN2, 1, 0)) { cphs_data->infoEntry->result = SIMOP_READ_ERR; if (cphs_data->InfoNumberCB != NULL) (cphs_data->InfoNumberCB)(NULL, cphs_data->infoEntry); } else { cphs_data->cphsPrevRead = SIM_CPHS_INFN2; } } else { if (cphs_data->InfoNumberListCB != NULL) (cphs_data->InfoNumberListCB)(cphs_data->numList, NULL); } } (cphs_data->InfoNumberListCB)(cphs_data->numList, NULL); } else { if (cphs_data->simStatus EQ SIMOP_READ_OK) { /* Read entry of information numbers */ alphaLen = *pData; if (alphaLen) { /* copy/encode entry */ cphs_data->infoEntry->index = recNr; cphs_data->infoEntry->entryStat = *(pData + 1); cmhPHB_getMfwTagNt(pData + 2, alphaLen, cphs_data->infoEntry->alpha.data, &cphs_data->infoEntry->alpha.len); pData += alphaLen + 2; if (*pData NEQ 0xFF) { cmhPHB_getAdrStr ( (CHAR *)cphs_data->infoEntry->number, 3, /* length of number */ pData + 2, *pData ); cmhPHB_toaDmrg ( *( pData + 1 ), &type ); cphs_data->infoEntry->ton = cvtTon(type.ton); cphs_data->infoEntry->npi = cvtNpi(type.npi); cphs_data->infoEntry->entryStat = cphs_data->infoEntry->entryStat | 0x80; } else { cphs_data->infoEntry->number[0] = '\0'; cphs_data->infoEntry->ton = CPHS_TON_UNKNOWN; cphs_data->infoEntry->npi = CPHS_NPI_UNKNOWN; } } cphs_data->infoEntry->result = SIMOP_READ_OK; if (cphs_data->InfoNumberCB != NULL) (cphs_data->InfoNumberCB)((T_CPHS_INFO_NUM_LIST*)NULL, cphs_data->infoEntry); return; } else if ((*(pData + 1) & 0x0F) > cphs_data->idxLevel) { /* This is not wished index level. Read the next */ recNr++; Cphs_req_info_num_read(recNr, dataLen); } else { /* This is the wished index level. Read it. */ alphaLen = *pData; if (alphaLen) /* check alpha length */ { /* copy/encode this entry in list */ cphs_data->numList->level = cphs_data->idxLevel; cphs_data->numList->entry[cphs_data->numList->count].index = recNr; cphs_data->numList->entry[cphs_data->numList->count].entryStat = *(pData + 1) & 0x7F; /* set bit 8 to 0 */ cmhPHB_getMfwTagNt(pData + 2, alphaLen, cphs_data->numList->entry[cphs_data->numList->count].alpha.data, &cphs_data->numList->entry[cphs_data->numList->count].alpha.len); pData += alphaLen + 2; if (*pData NEQ 0xFF) { cphs_data->numList->entry[cphs_data->numList->count].entryStat = cphs_data->numList->entry[cphs_data->numList->count].entryStat | 0x80; } cphs_data->numList->count++; } recNr++; /* Read the next record */ Cphs_req_info_num_read(recNr, dataLen); } } } /* +------------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : Cphs_req_info_num_read | +------------------------------------------------------------------------+ PURPOSE : Read customer service profile */ void Cphs_req_info_num_read(UBYTE rcd_num, UBYTE dataLen) { TRACE_FUNCTION ("Cphs_req_info_num_read()"); if (rcd_num > cphs_data->maxRec) { if (cphs_data->InfoNumberListCB != NULL) (cphs_data->InfoNumberListCB)(cphs_data->numList, (T_CPHS_INFO_NUM_ENTRY*) NULL); return; } else { if (cphs_data->cphsPrevRead EQ SIM_CPHS_INFN) { if (Cphs_read_sim_rcd(SIM_CPHS_INFN, rcd_num, dataLen)) { cphs_data->cphsPrevRead = SIM_CPHS_INFN; } } else { if (cphs_data->cphsPrevRead EQ SIM_CPHS_INFN2) { if (!Cphs_read_sim_rcd(SIM_CPHS_INFN2, rcd_num, dataLen)) if (cphs_data->InfoNumberListCB != NULL) (cphs_data->InfoNumberListCB)(cphs_data->numList, (T_CPHS_INFO_NUM_ENTRY*) NULL); else { cphs_data->cphsPrevRead = SIM_CPHS_INFN2; } } } } } /* +----------------------------------------------------------------------+ | MODULE: CPHS standalone module | | STATE : code ROUTINE: Cphs_build_mbn_data | +----------------------------------------------------------------------+ PURPOSE : Build mailbox number data in SIM format. */ void Cphs_build_mbn_data(UBYTE *data, UBYTE len) { UBYTE alphaLen; UBYTE numLen; UBYTE *pNumber; UBYTE i, j; TRACE_FUNCTION ("Cphs_build_mbn_data()"); memset(data, MFW_INVALID_SIM_DATA, len); /* alpha data */ if (len <= CPHS_MIN_MBN_SIZE) alphaLen = 0; else alphaLen = len - CPHS_MIN_MBN_SIZE; i = MINIMUM (alphaLen, cphs_data->vcEntry->alpha.len); for ( j = 0; j < i; j++ ) data[j] = cphs_data->vcEntry->alpha.data[j]; data += alphaLen; /* number data and TON/NPI data */ if ( cphs_data->vcEntry->number[0] EQ '+' ) { cphs_data->vcEntry->ton = TON_International; pNumber = &cphs_data->vcEntry->number[1]; } else pNumber = &cphs_data->vcEntry->number[0]; cmhPHB_getAdrBcd ( data + 2, &numLen, PHB_MAX_LEN, (CHAR *)pNumber ); *data = numLen + 1; *(data + 1) = ((( cphs_data->vcEntry -> ton << 4 ) & 0xF0 ) + ( cphs_data->vcEntry -> npi & 0x0F )) | 0x80; data += 12; /* capability/configuration identifier data and EXT identifier data */ *data = 0xFF; *(data + 1) = 0xFF; } /* +--------------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : Cphs_read_eeprom_mailbox | +--------------------------------------------------------------------------+ PURPOSE : Read mailbox number from EEPROM */ void Cphs_read_eeprom_mailbox(void) { U8 version; #ifdef PCM_2_FFS EF_MBN mbn; #else T_PSPDF_MBN mbn; #endif T_ACI_TOA numTp; int i; USHORT max_rcd; TRACE_FUNCTION("Cphs_read_eeprom_mailbox()"); for (i=0; i<MAX_CPHS_ENTRY; i++) { //switching from PCM to FFS #ifdef PCM_2_FFS if (ffs_fread("/Mailbox_no", &mbn, sizeof(mbn)) EQ EFFS_OK) #else if (FFS_fread("/Mailbox_no", &mbn, sizeof(mbn)) EQ EFFS_OK) #endif { if (mbn.len) { cphs_data->mbNum.entries[cphs_data->mbNum.count].index = i+1; cmhPHB_getAdrStr ( (char *)cphs_data->mbNum.entries[cphs_data->mbNum.count].number, PHB_MAX_LEN - 1, mbn.mbNum, mbn.len ); cmhPHB_getMfwTagNt ( mbn.alphId, 10, cphs_data->mbNum.entries[cphs_data->mbNum.count].alpha.data, &cphs_data->mbNum.entries[cphs_data->mbNum.count].alpha.len ); cmhPHB_toaDmrg ( mbn.numTp, &numTp ); cphs_data->mbNum.entries[cphs_data->mbNum.count].ton = cvtTon(numTp.ton); cphs_data->mbNum.entries[cphs_data->mbNum.count].npi = cvtNpi(numTp.npi); cphs_data->mbNum.entries[cphs_data->mbNum.count].service = i; cphs_data->mbNum.count++; } } } } /* +---------------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : Cphs_write_eeprom_mailbox | +---------------------------------------------------------------------------+ PURPOSE : Write mailbox number in EEPROM */ void Cphs_write_eeprom_mailbox(T_CPHS_MAILBOX_NUM_ENTRY *entry) { T_ACI_PB_TEXT text; UBYTE len; #ifdef PCM_2_FFS EF_MBN mbn; #else T_PSPDF_MBN mbn; #endif T_ACI_TOA type; UBYTE *pNumber; UBYTE result; UBYTE outLen; TRACE_FUNCTION("Cphs_write_eeprom_mailbox"); len = MINIMUM ( MAX_PCM_MAILBOX_LEN, entry->alpha.len); text.len = len; memcpy(text.data, entry->alpha.data, len); text.cs = CS_Sim; cmhPHB_getMfwTagSim ( &text, mbn.alphId, &outLen, MAX_PCM_MAILBOX_LEN ); if ( entry->number[0] EQ '+') { type.ton = TON_International; pNumber = &entry->number[1]; } else { type.ton = entry->ton; pNumber = &entry->number[0]; } type.npi = entry->npi; //MC- switching from PCM to FFS cmhPHB_toaMrg ( &type, &mbn.numTp ); cmhPHB_getAdrBcd ((UBYTE*) mbn.mbNum, &mbn.len, MAX_PCM_MAILBOX_LEN, (CHAR *)pNumber ); mbn.len++; //if (pcm_WriteRecord((UBYTE *)EF_MBN_ID, (USHORT)entry->index, // SIZE_EF_MBN, (UBYTE *)&mbn) EQ PCM_OK) // if (flash_write() EQ EFFS_OK) #ifdef PCM_2_FFS if (ffs_fwrite("/Mailbox_no", &mbn, sizeof(mbn)) EQ EFFS_OK) #else if (FFS_fwrite("/Mailbox_no", &mbn, sizeof(mbn)) EQ EFFS_OK) #endif cphs_data->mbNum.result = SIMOP_WRITE_OK; else cphs_data->mbNum.result = SIMOP_WRITE_ERR; } /* +----------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : Cphs_select_info_num | +----------------------------------------------------------------------+ PURPOSE : read a information number entry */ void Cphs_select_info_num (UBYTE index) { TRACE_FUNCTION ("Cphs_select_info_num()"); /* check CPHS service table */ if (cphs_data->cphsStatus EQ CPHS_NOT_PRESENT) return ; /* Read a information number entry. When this reading failed, send event with "read error" parameter to MMI */ cphs_data->simStatus = SIMOP_READ_OK; cphs_data->startIdx = index; // By now we know if 6F19 or EA01 are present for reading info. num entries from // So lets use this knowledge. if (cphs_data->cphsPrevRead EQ SIM_CPHS_INFN) { if (!Cphs_read_sim_rcd(SIM_CPHS_INFN, 1, 0)) { cphs_data->infoEntry->result = SIMOP_READ_ERR; //cphs_sign_exec(E_CPHS_GET_INFO_NUM, &infoEntry); (cphs_data->InfoNumberCB)((T_CPHS_INFO_NUM_LIST*) NULL, cphs_data->infoEntry); } else { cphs_data->cphsPrevRead = SIM_CPHS_INFN; } } else { if (cphs_data->cphsPrevRead EQ SIM_CPHS_INFN2) { if (!Cphs_read_sim_rcd(SIM_CPHS_INFN2, 1, 0)) { cphs_data->infoEntry->result = SIMOP_READ_ERR; //cphs_sign_exec(E_CPHS_GET_INFO_NUM, &infoEntry); (cphs_data->InfoNumberCB)((T_CPHS_INFO_NUM_LIST*)NULL, cphs_data->infoEntry); } else { cphs_data->cphsPrevRead = SIM_CPHS_INFN2; } } } } /* +-----------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : Cphs_read_ons | +-----------------------------------------------------------------------+ PURPOSE : Read operator name short form */ void Cphs_read_ons(SHORT errCode, UBYTE *data, UBYTE dataLen) { UBYTE *ptr; TRACE_FUNCTION ("Cphs_read_ons()"); ptr = data; #ifdef FF_2TO1_PS if ( errCode NEQ CAUSE_SIM_NO_ERROR OR #else if ( errCode NEQ SIM_NO_ERROR OR #endif ptr EQ NULL OR // dataLen < MFW_CPHS_ONS_SIZE ) dataLen <= 0 ) /* PATCH VO 22.01.01: not check a certain length */ { cphs_data->opName.long_name.len = 0; } else { cmhPHB_getMfwTagNt(ptr, (UBYTE)MINIMUM(LONG_NAME, dataLen), cphs_data->opName.long_name.data, &cphs_data->opName.long_name.len); //cphs_data->opName.long_name.dcs = MFW_DCS_SIM; /* Read operator name shortform */ if ((cphs_data->cphsPhase NEQ 2) OR (Cphs_ssc(CHPS_NAME_SHORT, cphs_data->cphsServTab) NEQ ALLOCATED_AND_ACTIVATED) OR !Cphs_read_sim_dat(SIM_CPHS_ONSHF, NOT_PRESENT_8BIT, CPHS_ONSF_SIZE) ) { cphs_data->opName.short_name.len = 0; } } } /* +-----------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : Cphs_read_onsf | +-----------------------------------------------------------------------+ PURPOSE : Read operator name short form */ void Cphs_read_onsf(SHORT errCode, UBYTE *data, UBYTE dataLen) { UBYTE *ptr; TRACE_FUNCTION ("Cphs_read_onsf()"); ptr = data; #ifdef FF_2TO1_PS if ( errCode NEQ CAUSE_SIM_NO_ERROR OR #else if ( errCode NEQ SIM_NO_ERROR OR #endif ptr EQ NULL OR dataLen < CPHS_ONSF_SIZE ) { cphs_data->opName.short_name.len = 0; } else { cmhPHB_getMfwTagNt(ptr, CPHS_ONSF_SIZE, cphs_data->opName.short_name.data, &cphs_data->opName.short_name.len); //cphs_data->opName.shortName.dcs = MFW_DCS_SIM; } //cphs_sign_exec(E_CPHS_OP_NAME, &opName); } /* +-----------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : cvtTon | +-----------------------------------------------------------------------+ PURPOSE : Convert Type of Number */ T_CPHS_PHB_TON cvtTon(T_ACI_TOA_TON ton) { switch (ton) { case TON_NotPresent: case TON_Unknown: return CPHS_TON_UNKNOWN; case TON_International: return CPHS_TON_INTERNATIONAL; case TON_National: return CPHS_TON_NATIONAL; case TON_NetSpecific: return CPHS_TON_NET_SPECIFIC; case TON_DedAccess: return CPHS_TON_DED_ACCESS; case TON_Alphanumeric: return CPHS_TON_ALPHA_NUMERIC; case TON_Abbreviated: return CPHS_TON_ABBREVIATED; case TON_Extended: return CPHS_TON_EXTENDED; default: return ton; } } /* +-----------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : cphs_read_mbn | +-----------------------------------------------------------------------+ PURPOSE : Read mailbox number into runtime variables */ void Cphs_read_mbn(SHORT table_id) { UBYTE* pData; /* points to data buffer */ UBYTE alphaLen; UBYTE dataLen; UBYTE recNr; T_ACI_TOA type; TRACE_FUNCTION ("Cphs_read_mbn()"); pData = simShrdPrm.atb[table_id].exchData; dataLen = simShrdPrm.atb[table_id].dataLen; recNr = simShrdPrm.atb[table_id].recNr; #ifdef FF_2TO1_PS if ( simShrdPrm.atb[table_id].errCode NEQ CAUSE_SIM_NO_ERROR OR #else if ( simShrdPrm.atb[table_id].errCode NEQ SIM_NO_ERROR OR #endif pData EQ NULL OR dataLen < CPHS_MIN_MBN_SIZE ) {//MC FFS ? /* if (recNr <= 1) { Cphs_read_eeprom_mailbox(); return; } else cphs_sign_exec(E_CPHS_GET_VC_NUM, &mbNum);*/ TRACE_EVENT("MB read error"); return; } else /* no read error */ { if (recNr EQ 1) { cphs_data->maxRec = simShrdPrm.atb[table_id].recMax; } alphaLen = dataLen - CPHS_MIN_MBN_SIZE; /* Copy/encode data */ if (*(pData + alphaLen + 2) NEQ 0xFF) { cphs_data->mbNum.entries[cphs_data->mbNum.count].index = recNr; cmhPHB_getMfwTagNt(pData, alphaLen, cphs_data->mbNum.entries[cphs_data->mbNum.count].alpha.data, &cphs_data->mbNum.entries[cphs_data->mbNum.count].alpha.len); pData += alphaLen; cmhPHB_getAdrStr ( (CHAR *)cphs_data->mbNum.entries[cphs_data->mbNum.count].number, PHB_MAX_LEN - 1, pData + 2, *pData ); cmhPHB_toaDmrg ( *( pData + 1 ), &type ); cphs_data->mbNum.entries[cphs_data->mbNum.count].ton = cvtTon(type.ton); cphs_data->mbNum.entries[cphs_data->mbNum.count].npi = cvtNpi(type.npi); pData += 12; if ( *pData NEQ 0xFF ) { /* read bearer capability EF */ /* return; */ } cphs_data->mbNum.count++; cphs_data->mbNum.result = SIMOP_READ_OK; } recNr++; if (recNr > cphs_data->maxRec) { TRACE_FUNCTION("got CPHS Mailbox nos"); Cphs_operator_name();//get next CPHS item return; } if (recNr <= cphs_data->maxRec) { /* Read the next entry */ Cphs_read_sim_rcd(SIM_CPHS_MBXN, recNr, dataLen); } } } /* +-----------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : Cphs_read_mbs | +-----------------------------------------------------------------------+ PURPOSE : Read voice message waiting flag */ void Cphs_read_mbs(SHORT errCode, UBYTE *data, UBYTE dataLen) { UBYTE *ptr; int i; /* PATCH VO 22.01.01 */ char debug[50]; TRACE_FUNCTION ("Cphs_read_mbs()"); ptr = data; #ifdef FF_2TO1_PS if ( errCode NEQ CAUSE_SIM_NO_ERROR OR #else if ( errCode NEQ SIM_NO_ERROR OR #endif ptr EQ NULL OR //dataLen < MFW_CPHS_MBS_SIZE ) dataLen <= 0 ) /* PATCH VO 22.01.01: not check a certain length */ { cphs_data->mbStatus.result = SIMOP_READ_ERR; } else { sprintf(debug, "Retrieved mailbox status: %x%x",ptr[0],ptr[1]); TRACE_EVENT(debug); memset(&cphs_data->mbStatus, CPHS_FLAG_NOT_PRESENT, sizeof(cphs_data->mbStatus)); cphs_data->mbStatus.result = SIMOP_READ_OK; for (i=0; i<dataLen; i++) { switch (i) { case 0: cphs_data->mbStatus.line1 = ptr[i] & 0x0F/*0x01*/; cphs_data->mbStatus.line2 = ( ptr[i] >> 4 ) & 0x0F/*0x01*/; break; case 1: cphs_data->mbStatus.fax = ptr[i] & 0x0F/*0x01*/; cphs_data->mbStatus.data = ( ptr[i] >> 4 ) & 0x0F/*0x01*/; break; default: break; } } /* PATCH VO 22.01.01 END */ //Not sure about this //memcpy(cphs_data->mbsData, ptr, CPHS_MBS_SIZE); } } /* +-----------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : Cphs_read_cff | +-----------------------------------------------------------------------+ PURPOSE : Read call forwarding flag */ void Cphs_read_cff(SHORT errCode, UBYTE *data, UBYTE dataLen) { UBYTE *ptr; int i; /* PATCH VO 22.01.01 */ char debug[50]; TRACE_EVENT ("Cphs_read_cff()"); ptr = data; #ifdef FF_2TO1_PS if ( errCode NEQ CAUSE_SIM_NO_ERROR OR #else if ( errCode NEQ SIM_NO_ERROR OR #endif ptr EQ NULL OR //dataLen < MFW_CPHS_CFF_SIZE ) dataLen <= 0 ) /* PATCH VO 22.01.01: not check a certain length */ { cphs_data->dvStatus.result = SIMOP_READ_ERR; } else { sprintf(debug, "Retrieved divert status: %x%x",ptr[0],ptr[1]); TRACE_EVENT(debug); memset(&cphs_data->dvStatus, CPHS_FLAG_NOT_PRESENT, sizeof(cphs_data->dvStatus)); cphs_data->dvStatus.result = SIMOP_READ_OK; for (i=0; i<dataLen; i++) { switch (i) { case 0: cphs_data->dvStatus.line1 = ptr[i] & /*0x0F*/0x01; cphs_data->dvStatus.line2 = ( ptr[i] >> 4 ) & /*0x0F*/0x01; break; case 1: cphs_data->dvStatus.fax = ptr[i] & /*0x0F*/0x01; cphs_data->dvStatus.data = ( ptr[i] >> 4 ) & /*0x0F*/0x01; break; default: break; } } /* PATCH VO 22.01.01 END */ //not sure about this bit //memcpy(cphs_data->dvData, ptr, CPHS_CFF_SIZE); } } /* +-----------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : Cphs_read_csp | +-----------------------------------------------------------------------+ PURPOSE : Read customer service profile */ void Cphs_read_csp(SHORT errCode, UBYTE *data, UBYTE dataLen) { UBYTE *ptr; UBYTE flag; int i; TRACE_FUNCTION ("Cphs_read_csp()"); ptr = data; #ifdef FF_2TO1_PS if ( errCode NEQ CAUSE_SIM_NO_ERROR OR #else if ( errCode NEQ SIM_NO_ERROR OR #endif ptr EQ NULL OR // dataLen < MFW_CPHS_CSP_SIZE ) dataLen <= 0 ) /* PATCH VO 22.01.01: not check a certain length */ { if (cphs_data->simStatus EQ SIMOP_READ_OK) /* Used for read information numbers */ { cphs_data->simStatus = SIMOP_UNKNOWN; //cphs_sign_exec(E_CPHS_GET_INFO_LIST, &numList); } else { cphs_data->csProfile.result = SIMOP_READ_ERR; memset(cphs_data->csProfile.csp, 0, sizeof(cphs_data->csProfile.csp)); //cphs_sign_exec(E_CPHS_GET_CSP, &csProfile); if (cphs_data->RefreshCB != NULL) (cphs_data->RefreshCB)(NULL, NULL); } } else { if (cphs_data->simStatus EQ SIMOP_READ_OK) /* Used for read information numbers */ { cphs_data->simStatus = SIMOP_UNKNOWN; /* check the service group code */ flag = 0; //for (i = 0; i < MFW_CPHS_CSP_SIZE; i += 2) for (i = 0; i < dataLen; i += 2) /* PATCH VO 22.01.01: use the actual length in the SIM card */ { if (ptr[i] EQ 0xD5 AND ptr[i+1] EQ 0xFF) flag = 1; } if (!flag) { // cphs_sign_exec(E_CPHS_GET_INFO_LIST, &numList); return; } /* Read the first information numbers record */ if (!Cphs_read_sim_rcd(SIM_CPHS_INFN, 1, 0)) { //cphs_sign_exec(E_CPHS_GET_INFO_LIST, &numList); TRACE_EVENT("Can't read info num rcd"); return; } else cphs_data->cphsPrevRead = SIM_CPHS_INFN; } else { cphs_data->csProfile.result = SIMOP_READ_OK; TRACE_EVENT("CPHS valid CSP"); //memcpy(cphs_data->csProfile.csp, ptr, sizeof(cphs_data->csProfile.csp)); for (i=0; i<(dataLen/2); i++) { cphs_data->csProfile.csp[i].group_code = ptr[2*i]; cphs_data->csProfile.csp[i].services =ptr[2*i + 1]; } if (cphs_data->RefreshCB != NULL) (cphs_data->RefreshCB)(NULL, NULL); // cphs_sign_exec(E_CPHS_GET_CSP, &cphs_data->csProfile); } } } void Cphs_read_information(SHORT errCode, UBYTE *data, UBYTE dataLen) { UBYTE *ptr; UBYTE len; TRACE_FUNCTION ("Cphs_read_information()"); ptr = data; len = dataLen; memset(cphs_data->cphsServTab, 0, sizeof(cphs_data->cphsServTab)); /* PATCH VO 22.01.01 END */ #ifdef FF_2TO1_PS if ( errCode NEQ CAUSE_SIM_NO_ERROR OR #else if ( errCode NEQ SIM_NO_ERROR OR #endif ptr EQ NULL OR //dataLen < MFW_CPHS_INFO_SIZE) dataLen <= 0) /* PATCH VO 22.01.01: not check a certain length */ { cphs_data->cphsStatus = CPHS_NOT_PRESENT; //cphs_sign_exec(E_CPHS_IND, &cphsStatus); } else { cphs_data->cphsPhase = *ptr; len--; if (len > 0) { ptr++; memcpy (cphs_data->cphsServTab, ptr, MINIMUM(len, CPHS_SERVICE_TABLE)); } /* PATCH VO 22.01.01 END */ cphs_data->cphsStatus = CPHS_IS_OK; TRACE_EVENT("CPHS supported"); //cphs_sign_exec(E_CPHS_IND, &cphsStatus); } } #ifdef FRED //commented this func out because of build problems #ifdef SIM_TOOLKIT /* +---------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : Cphs_update_info_cnf | +---------------------------------------------------------------------+ PURPOSE : call back for SIM file read */ void Cphs_update_info_cnf (SHORT errCode, UBYTE *data, UBYTE dataLen) { UBYTE *ptr; TRACE_FUNCTION ("Cphs_update_info_cnf()"); cphs_data->cphsUpdate = FALSE; /* reset flag */ ptr = data; #ifdef FF_2TO1_PS if ( errCode NEQ CAUSE_SIM_NO_ERROR OR #else if ( errCode NEQ SIM_NO_ERROR OR #endif ptr EQ NULL OR dataLen < CPHS_INFO_SIZE) { satUpdateFiles(TRUE, SIM_CPHS_CINF); } else { cphs_data->cphsPhase = *ptr; ptr++; memcpy (cphs_data->cphsServTab, ptr, CPHS_SERVICE_TABLE*sizeof(UBYTE)); cphs_data->cphsStatus = CPHS_IS_OK; satUpdateFiles ( TRUE, SIM_CPHS_CINF ); } } #endif #endif BOOL Cphs_write_sim_dat(USHORT data_id, UBYTE *data, UBYTE length) { T_ACI_RETURN res; TRACE_FUNCTION ("Cphs_write_sim_dat()"); res = cmhSIM_WriteTranspEF (CMD_SRC_NONE, AT_CMD_NONE, data_id, 0, length, data, Cphs_write_sim_dat_cb); if (res NEQ AT_EXCT) return FALSE; return TRUE; } /* +----------------------------------------------------------------------+ | MODULE: CPHS standalone module | | STATE : code ROUTINE: Cphs_write_sim_dat_cb | +----------------------------------------------------------------------+ PURPOSE : callback of SIM card writing. */ void Cphs_write_sim_dat_cb(SHORT table_id) { UBYTE result; char debug[30]; TRACE_FUNCTION ("sim_write_sim_dat_cb()"); sprintf(debug, "SIM Error code!!!%d", simShrdPrm.atb[table_id].errCode); TRACE_EVENT(debug); switch (simShrdPrm.atb[table_id].reqDataFld) { case SIM_CPHS_VMW: /* voice message waiting flag */ #ifdef FF_2TO1_PS if ( simShrdPrm.atb[table_id].errCode EQ CAUSE_SIM_NO_ERROR ) #else if ( simShrdPrm.atb[table_id].errCode EQ SIM_NO_ERROR ) #endif { cphs_data->mbStatus.result = SIMOP_WRITE_OK; } else { cphs_data->mbStatus.result = SIMOP_WRITE_ERR; } break; case SIM_CPHS_CFF: /* call forwarding flag */ #ifdef FF_2TO1_PS if ( simShrdPrm.atb[table_id].errCode EQ CAUSE_SIM_NO_ERROR ) #else if ( simShrdPrm.atb[table_id].errCode EQ SIM_NO_ERROR ) #endif { cphs_data->dvStatus.result = SIMOP_WRITE_OK; TRACE_EVENT("Divert Write successful"); } else { cphs_data->dvStatus.result = SIMOP_WRITE_ERR; TRACE_EVENT("Divert Write Failed"); } break; default: break; } simShrdPrm.atb[table_id].ntryUsdFlg = FALSE; } /* +-----------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : cphs_read_eeprom_als | +-----------------------------------------------------------------------+ PURPOSE : Read alternate line service information from EEPROM */ T_CPHS_RET Cphs_read_eeprom_als(T_CPHS_ALS_INFO* info) { char read_result; char debug[50]; #ifdef PCM_2_FFS read_result =ffs_fread("/AlsInfo", info, sizeof(T_CPHS_ALS_INFO)); #else read_result =FFS_fread("/AlsInfo", info, sizeof(T_CPHS_ALS_INFO)); #endif if (read_result == EFFS_OK) { info->result = SIMOP_READ_OK; return CPHS_IS_OK; } else { info->result = SIMOP_READ_ERR; sprintf(debug, "ALS info read error:%d", read_result); TRACE_EVENT(debug); return CPHS_SIM_READ_ERROR; } } /* +-----------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : cphs_write_eeprom_als | +-----------------------------------------------------------------------+ PURPOSE : Write selected alternate line/lock status in EEPROM */ T_CPHS_RET Cphs_write_eeprom_als(T_CPHS_ALS_INFO* info) { char write_result; T_ACI_ALS_MOD alsMode; T_CPHS_RET return_result; #ifdef PCM_2_FFS write_result =ffs_fwrite("/AlsInfo", info, sizeof(T_CPHS_ALS_INFO)); #else write_result =FFS_fwrite("/AlsInfo", info, sizeof(T_CPHS_ALS_INFO)); #endif if (write_result >= EFFS_OK) { info->result = SIMOP_WRITE_OK; return_result = CPHS_IS_OK; TRACE_EVENT("ALS info write OK"); } else { info->result = SIMOP_WRITE_ERR; return_result = CPHS_SIM_WRITE_ERROR; TRACE_EVENT("ALS info write error"); } if (cphs_data->alsStatus.line EQ CPHS_LINE_INDEX_LINE1) alsMode = ALS_MOD_SPEECH; if (cphs_data->alsStatus.line EQ CPHS_LINE_INDEX_LINE2) alsMode = ALS_MOD_AUX_SPEECH; sAT_PercentALS(CMD_SRC_LCL, alsMode); return return_result; } /* +-----------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : cphs_write_eeprom_als_desc | +-----------------------------------------------------------------------+ PURPOSE : Write ALS line description in EEPROM */ void Cphs_write_eeprom_als_desc(T_CPHS_ALS_LINE* line) { char write_result = -1; T_CPHS_ALS_LINE* desc; if (line->line EQ CPHS_LINE_INDEX_LINE1) { desc = &cphs_data->Line1_desc; #ifdef PCM_2_FFS write_result =ffs_fwrite("/AlsDesc1", &cphs_data->Line1_desc, sizeof(cphs_data->Line1_desc)); #else write_result =FFS_fwrite("/AlsDesc1", &cphs_data->Line1_desc, sizeof(cphs_data->Line1_desc)); #endif } if (line->line EQ CPHS_LINE_INDEX_LINE2) { desc = &cphs_data->Line2_desc; #ifdef PCM_2_FFS write_result =ffs_fwrite("/AlsDesc2", &cphs_data->Line2_desc, sizeof(cphs_data->Line1_desc)); #else write_result =FFS_fwrite("/AlsDesc2", &cphs_data->Line2_desc, sizeof(cphs_data->Line1_desc)); #endif } if (write_result >= EFFS_OK) desc->result = SIMOP_WRITE_OK; else desc->result = SIMOP_WRITE_ERR; } /* +-----------------------------------------------------------------------+ | MODULE : CPHS standalone module | | STATE : code ROUTINE : cphs_read_eeprom_als_desc | +-----------------------------------------------------------------------+ PURPOSE : read ALS line description from EEPROM */ void Cphs_read_eeprom_als_desc() { char read_result = -1; T_CPHS_ALS_LINE* desc; #ifdef PCM_2_FFS read_result =ffs_fread("/AlsDesc1", &cphs_data->Line1_desc, sizeof(cphs_data->Line1_desc)); #else read_result =FFS_fread("/AlsDesc1", &cphs_data->Line1_desc, sizeof(cphs_data->Line1_desc)); #endif if (read_result >= EFFS_OK) cphs_data->Line1_desc.result = SIMOP_READ_OK; else cphs_data->Line1_desc.result = SIMOP_READ_ERR; #ifdef PCM_2_FFS read_result =ffs_fread("/AlsDesc2", &cphs_data->Line2_desc, sizeof(cphs_data->Line1_desc)); #else read_result =FFS_fread("/AlsDesc2", &cphs_data->Line2_desc, sizeof(cphs_data->Line1_desc)); #endif if (read_result EQ EFFS_OK) cphs_data->Line2_desc.result = SIMOP_READ_OK; else cphs_data->Line2_desc.result = SIMOP_READ_ERR; } void Cphs_get_info_num (UBYTE level, UBYTE startIndex) { UBYTE res; TRACE_FUNCTION ("cphs_get_info_num()"); /* check CPHS service table */ if (cphs_data->cphsStatus EQ CPHS_NOT_PRESENT) return; if (level < 1 OR startIndex < 1 ) return; /* check CPHS service table for customer service profile */ /* res = Cphs_ssc(CPHS_CSP, cphs_data->cphsServTab); if ( res NEQ ALLOCATED_AND_ACTIVATED) return;*/ /* check CPHS service table for information numbers */ /* res = Cphs_ssc(CHPS_INFO_NUMBERS, cphs_data->cphsServTab); if ( res NEQ ALLOCATED_AND_ACTIVATED) return;*/ /* Read customer service profile to check whether information numbers are supported. */ cphs_data->numList->count = 0; cphs_data->idxLevel = level; cphs_data->startIdx = startIndex; cphs_data->simStatus = SIMOP_READ_OK; if (!Cphs_read_sim_dat(SIM_CPHS_CSP, NOT_PRESENT_8BIT, CPHS_CSP_SIZE)) { cphs_data->simStatus = SIMOP_UNKNOWN; TRACE_EVENT("FAiled in reading CSP for Info nums"); return; } return; } /* checks the lock status of the given lock type. On successfull check */ /* the status will be returned. If an error occured SIMLOCK_FAIL will */ T_SIMLOCK_RET simlock_checkLock ( T_SIMLOCK_TYPE type ) { return SIMLOCK_FAIL; }