FreeCalypso > hg > fc-tourmaline
view src/ui/mfw/mfw_ss.c @ 169:adae850f9857
mmiSimToolkit.c: formatting fixes
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Sun, 17 Jan 2021 23:43:19 +0000 |
parents | 67bfe9f274f6 |
children | 92abb46dc1ba |
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/* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) $Workfile:: mfw_ss.c $| | $Author:: Vo $Revision:: 1 $| | CREATED: 25.1.99 $Modtime:: 24.03.00 9:48 $| | STATE : code | +--------------------------------------------------------------------+ MODULE : MFW_SS PURPOSE : This modul contains the functions for supplementary management. $History:: mfw_ss.c $ Feb 27, 2007 ER: OMAPS00113891 x0pleela Description:[ACI] MTC related call forwarded SS notification not differentiable on BAT/ATI level Solution: In function ss_cvtCssuCodes(), new enum CSSU_CODE_IncCallForwarded from ACI is handled and typecasted to MFW_SS_MT_CALL_FORWARDED for MMI to handle this event Aug 28, 2006 DR: OMAPS00083503 x0pleela Description: Result of ss_check_ss_string may be ignored Solution: rat_percentKSIR(): Removed the hardcoded dcs value "MFW_ASCII" and sending ss signal E_SS_USSD_REQ or E_SS_USSD_CNF based on user action required or not Jul 04, 2006 REF: OMAPS00079722 x0023848 Description: MS displays garbage instead of appropriate user indication when network release with problem code "unrecognized operation" or a cause "facility rejected". Solution: Added a NULL Check for the result string of the USSD command that is being received. Jun 30, 2006 REF : OMAPS00083503 R.Prabakar Description : When USSD string is sent, MMI shows requesting screen forever Solution : Some cases in rAT_PlusCUSD weren't handled. They are handled now. Dec 16, 2005 REF: OMAPS00053316 x0018858 Description: E-Sample 2.58 compiler code crashes when accessing the Voicemail service in the Messages Solution: Added a NULL Check for the USSD pointer that is being received. Jul 05, 2005 REF: CRR 22565 a0876501 Description: IMEI display on handset through atd*#06# was swapped. Solution: Byte swapping corrected for IMEI decoding. Mar 30, 2005 REF: CRR 29986 xpradipg Description: Optimisation 1: Removal of unused variables and dynamically allocate/ deallocate mbndata Solution: unused variables are removed Apr 06 2005 REF: CRR 29989 xpradipg Description: Optimisation 3: replace the static global data with dynamic allocation / deallocation Solution: The static global variables are dynamically allocated and deallocated Aug 16, 2004 REF: CRR 24323 Deepa M.D Bug:Clenup of sprintf used for tracing Fix:Replace the char buf[]; sprintf (buf, "...", ...); TRACE_EVENT (buf); statements by TRACE_EVENT_PX Jul 15, 2004 REF: CRR 13873 xkundadu Description: Make an incoming call, the end user pressing 0+send will pick up the call. Instead, 0+send should reject the incoming call. Solution: Added the handling of 0/1/2 SEND for a waiting call. Modified the ss_decode() function in the mfw_ss.c file to search the sequential table in the case of waiting call also. Made changes in mfw_cm.c file also * * ***************** Version 24 ***************** * User: Vo Date: 24.03.00 Time: 10:18 * Updated in $/GSM/Condat/MS/SRC/MFW * Bug fix: result of IMEI * New: notice PIN type of SS string for PIN change/PIN unblock * * ***************** Version 23 ***************** * User: Vo Date: 10.01.00 Time: 16:09 * Updated in $/GSM/Condat/MS/SRC/MFW * new function ss_exit() * * ***************** Version 22 ***************** * User: Vo Date: 10.01.00 Time: 13:32 * Updated in $/GSM/Condat/MS/SRC/MFW * * ***************** Version 21 ***************** * User: Ak Date: 10.01.00 Time: 13:14 * Updated in $/GSM/Condat/MS/SRC/MFW * * ***************** Version 20 ***************** * User: Ak Date: 21.10.99 Time: 11:56 * Updated in $/GSM/Condat/MS/SRC/MFW * Why: Improvement * What: Passing of network basic service codes instead of GSM 2.30 * codes for SS control string results and invocations * * ***************** Version 19 ***************** * User: Ak Date: 29.09.99 Time: 8:37 * Updated in $/GSM/DEV/MS/SRC/MFW * Why: bug fix * What: strcpy do not check a NULL pointer argument, corrected * * ***************** Version 18 ***************** * User: Ak Date: 28.09.99 Time: 14:16 * Updated in $/GSM/DEV/MS/SRC/MFW * Why: bug fix * What: strcpy do not check a NULL pointer argument, corrected * * ***************** Version 17 ***************** * User: Es Date: 16.09.99 Time: 17:25 * Updated in $/GSM/DEV/MS/SRC/MFW * include SENSEI patch 13/09/99 * two minor fixes * * ***************** Version 16 ***************** * User: Vo Date: 12.09.99 Time: 14:16 * Updated in $/GSM/DEV/MS/SRC/MFW * New: USSD handle * * ***************** Version 15 ***************** * User: Vo Date: 30.08.99 Time: 12:08 * Updated in $/GSM/DEV/MS/SRC/MFW * SS string for PIN unblock * * ***************** Version 14 ***************** * User: Vo Date: 9.08.99 Time: 16:53 * Updated in $/GSM/DEV/MS/SRC/MFW * SS result from network * present IMEI * different handling of network password and PIN1/PIN2 password * * ***************** Version 13 ***************** * User: Vo Date: 21.07.99 Time: 14:44 * Updated in $/GSM/DEV/MS/SRC/MFW * * ***************** Version 12 ***************** * User: Vo Date: 16.07.99 Time: 10:39 * Updated in $/GSM/DEV/MS/SRC/MFW * * ***************** Version 11 ***************** * User: Vo Date: 9.07.99 Time: 14:56 * Updated in $/GSM/DEV/MS/SRC/MFW * * ***************** Version 1 ***************** * User: Vo Date: 10.02.99 Time: 12:41 * Created in $/GSM/DEV/MS/SRC/MFW */ #define ENTITY_MFW #include <string.h> #include <stdio.h> #include <stdlib.h> #if defined (NEW_FRAME) #include "typedefs.h" #include "vsi.h" #include "custom.h" #include "gsm.h" #else #include "STDDEFS.H" #include "custom.h" #include "gsm.h" #include "vsi.h" #endif #include "message.h" #include "prim.h" #include "aci_cmh.h" #include "cus_aci.h" #include "ksd.h" #include "prim.h" #ifndef PCM_2_FFS #include "pcm.h" #else #include "prim.h" #include "Gsm.h" #endif #include "psa.h" #include "psa_sim.h" #include "mfw_mfw.h" #include "mfw_nm.h" #include "mfw_sim.h" #include "mfw_sima.h" #include "mfw_nmi.h" #include "mfw_simi.h" #include "mfw_nma.h" #include "mfw_phb.h" #include "mfw_cm.h" #include "mfw_cmi.h" #include "mfw_ss.h" #include "mfw_ssi.h" #include "mfw_win.h" #include "mfw_phbi.h" #include <string.h> /*************** Variables ******************************************/ // Mar 30, 2005 REF: CRR 29986 xpradipg // remove unused variables #ifndef FF_MMI_OPTIM static T_MFW_SS_SUPORT ss_suport; #endif // Apr 06 2005 REF: CRR 29989 xpradipg // This scope of the variable lies within a function hence it is made as local #ifndef FF_MMI_OPTIM static T_MFW_SS_NOTIFY notify; #endif // Apr 06 2005 REF: CRR 29989 xpradipg // The below static globals are dynamically allocated in rAT_PercentKSIR where // the data is populated for the supplementary services response and // deallocated once the ss_signal function is executed where in the contents // are copied onto another variable #ifdef FF_MMI_OPTIM T_MFW_SS_CF_CNF *cf_cnf = NULL; T_MFW_SS_CB_CNF *cb_cnf = NULL; T_MFW_SS_CLI_CNF *cli_cnf = NULL; T_MFW_SS_CW_CNF *cw_cnf = NULL; T_MFW_SS_PW_CNF *pw_cnf = NULL; T_MFW_IMEI *imei_info = NULL; #else static T_MFW_SS_CF_CNF cf_cnf; static T_MFW_SS_CB_CNF cb_cnf; static T_MFW_SS_CLI_CNF cli_cnf; static T_MFW_SS_CW_CNF cw_cnf; static T_MFW_SS_PW_CNF pw_cnf; static T_MFW_SS_RES ss_res; static T_MFW_IMEI imei_info; #endif static T_MFW_SS_USSD ussd_info; // Mar 30, 2005 REF: CRR 29986 xpradipg // remove unused variables #ifndef FF_MMI_OPTIM static U8 clip_status; static U8 colp_status; static U8 clir_status; static U8 clir_prefix; static U8 colr_status; #endif static U8 clck_flag; static U8 pwd_flag; /* 1 for change PIN */ #define CF_LST_SIZE (sizeof(T_MFW_FEATURE) *MFW_MAX_FEAT_NR) #define CB_LST_SIZE (sizeof(T_MFW_TELECOM) *MFW_MAX_TELE_NR) #define CW_LST_SIZE (sizeof(T_MFW_SRV_GROUP)*MFW_MAX_SRV_NR) #define MAX_LST_BUF (MAXIMUM(MAXIMUM(CF_LST_SIZE,\ CB_LST_SIZE),\ CW_LST_SIZE)) #define LANG_RESET "*#0" /*mc, SPR 1111 beginning of language reset pseudo-SS string*/ #define TTY_NEXTCALL_ON "*55#" /* SPR#1352 - SH - Pseudo-SS string to switch on TTY on next call */ #define TTY_NEXTCALL_OFF "#55#" /* SPR#1352 - SH - Pseudo-SS string to switch off TTY on next call */ static ULONG ssLstBuf[MAX_LST_BUF/sizeof(ULONG)]; EXTERN MfwHdr * current_mfw_elem; // July 09, 2005 REF : MMI-22565 - a0876501 extern UBYTE cmhSS_getCdFromImei (T_ACI_IMEI* imei); /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE: MFW_SS | | STATE : code ROUTINE: ss_mfw_init | +--------------------------------------------------------------------+ PURPOSE : */ void ss_mfw_init(void) { // Mar 30, 2005 REF: CRR 29986 xpradipg // remove reundant code since the values assigned here are never referenced #ifndef PCM_2_FFS #ifndef FF_MMI_OPTIM EF_MSCAP mscap; EF_MSSUP mssup; EF_MSSET msset; UBYTE version; /* Read the Mobile Capabilities from EEPROM */ if (pcm_ReadFile((UBYTE *)EF_MSCAP_ID, SIZE_EF_MSCAP, (UBYTE *)&mscap, &version) EQ PCM_OK) { ss_suport.speech = (UBYTE)FldGet(mscap.chnMode,spchSupV1); ss_suport.data = (UBYTE)FldGet(mscap.datCap1,datSup); ss_suport.asyn = (UBYTE)FldGet(mscap.datCap1,AsySup); ss_suport.syn = (UBYTE)FldGet(mscap.datCap1,NTSynSup); } if (pcm_ReadFile((UBYTE *)EF_MSSUP_ID, SIZE_EF_MSSUP, (UBYTE *)&mssup, &version) EQ PCM_OK) { ss_suport.aoc = (UBYTE)FldGet(mssup.feat1,AoC); ss_suport.dtmf = (UBYTE)FldGet(mssup.feat1,DTMF); ss_suport.cf = (UBYTE)FldGet(mssup.feat1,CF); ss_suport.cb = (UBYTE)FldGet(mssup.feat1,CB); ss_suport.ussd = (UBYTE)FldGet(mssup.feat1,USSD); ss_suport.etc = (UBYTE)FldGet(mssup.feat1,ETC); } if (pcm_ReadFile((UBYTE *)EF_MSSET_ID, SIZE_EF_MSSET, (UBYTE *)&msset, &version) EQ PCM_OK) { ss_suport.clire = (UBYTE)FldGet(msset.misc,clir); ss_suport.clipr = (UBYTE)FldGet(msset.misc,clip); } #endif #endif pwd_flag = 0; } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE: MFW_SS | | STATE : code ROUTINE: ss_exit | +--------------------------------------------------------------------+ PURPOSE : */ void ss_exit(void) { TRACE_FUNCTION("ss_exit()"); } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE: MFW_SS | | STATE : code ROUTINE: ss_create | +--------------------------------------------------------------------+ PURPOSE : create event for supplementary management */ T_MFW_HND ss_create(T_MFW_HND hWin, T_MFW_EVENT event, T_MFW_CB cbfunc) { T_MFW_HDR *hdr; T_MFW_SS *ss_para; MfwHdr * insert_status =0; TRACE_FUNCTION("ss_create()"); hdr = (T_MFW_HDR *) mfwAlloc(sizeof (T_MFW_HDR)); ss_para = (T_MFW_SS *) mfwAlloc(sizeof (T_MFW_SS)); if (!hdr OR !ss_para) { TRACE_ERROR("ERROR: ss_create() Mem Alloc Failed."); if(hdr) mfwFree((U8*)hdr,sizeof(MfwHdr)); if(ss_para) mfwFree((U8*)ss_para,sizeof(T_MFW_SS)); return FALSE; } /* * initialisation of the handler */ ss_para->emask = event; ss_para->handler = cbfunc; hdr->data = ss_para; /* store parameter in node */ hdr->type = MFW_TYP_SS; /* store type of event handler */ /* * installation of the handler */ insert_status = mfwInsert((T_MFW_HDR *)hWin, hdr); if(!insert_status) { TRACE_ERROR("ERROR: ss_create() Failed to Install Handler. "); mfwFree((U8*)hdr,sizeof(MfwHdr)); mfwFree((U8*)ss_para,sizeof(T_MFW_SS)); return 0; } return insert_status; } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE: MFW_SS | | STATE : code ROUTINE: ss_delete | +--------------------------------------------------------------------+ PURPOSE : delete a event for supplementary management */ T_MFW_RES ss_delete(T_MFW_HND h) { TRACE_FUNCTION("ss_delete()"); if (!h OR !((T_MFW_HDR *)h)->data) return MFW_RES_ILL_HND; if (!mfwRemove((T_MFW_HDR *)h)) return MFW_RES_ILL_HND; mfwFree((U8 *)(((T_MFW_HDR *) h)->data),sizeof(T_MFW_SS)); mfwFree((U8 *)h,sizeof(T_MFW_HDR)); return MFW_RES_OK; } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE: MFW_SS | | STATE : code ROUTINE: ss_sign_exec | +--------------------------------------------------------------------+ PURPOSE : Send a signal if SS management handler. */ BOOL ss_sign_exec (T_MFW_HDR * cur_elem, T_MFW_EVENT event, T_MFW_SS_PARA * para) { TRACE_FUNCTION ("ss_sign_exec()"); while (cur_elem) { /* * event handler is available */ if (cur_elem->type EQ MFW_TYP_SS) { T_MFW_SS * ss_data; /* * handler is SS management handler */ ss_data = (T_MFW_SS *)cur_elem->data; if (ss_data->emask & event) { /* * event is expected by the call back function */ ss_data->event = event; switch (event) { case E_SS_NOTIFY: memcpy (&ss_data->para.notify, para, sizeof (T_MFW_SS_NOTIFY)); break; case E_SS_CF_CNF: case E_SS_CF_ICN_UPD: memcpy (&ss_data->para.cf_cnf, para, sizeof (T_MFW_SS_CF_CNF)); break; case E_SS_CB_CNF: memcpy (&ss_data->para.cb_cnf, para, sizeof (T_MFW_SS_CB_CNF)); break; case E_SS_CW_CNF: memcpy (&ss_data->para.cw_cnf, para, sizeof (T_MFW_SS_CW_CNF)); break; case E_SS_CLI_CNF: memcpy (&ss_data->para.cli_cnf, para, sizeof (T_MFW_SS_CLI_CNF)); break; case E_SS_RES: memcpy (&ss_data->para.ss_res, para, sizeof (T_MFW_SS_RES)); break; case E_SS_GET_PW: memcpy (&ss_data->para.pw_cnf, para, sizeof (T_MFW_SS_PW_CNF)); break; case E_SS_IMEI: memcpy (&ss_data->para.imei_info, para, sizeof (T_MFW_IMEI)); break; case E_SS_USSD_REQ: memcpy (&ss_data->para.ussd_info, para, sizeof (T_MFW_SS_USSD)); break; case E_SS_USSD_CNF: memcpy (&ss_data->para.ussd_info, para, sizeof (T_MFW_SS_USSD)); break; } /* * if call back defined, call it */ if (ss_data->handler) { // PATCH LE 06.06.00 // store current mfw elem current_mfw_elem = cur_elem; // END PATCH LE 06.06.00 if ((*(ss_data->handler)) (ss_data->event, (void *)&ss_data->para)) return TRUE; } } } cur_elem = cur_elem->next; } return FALSE; } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE: MFW_SS | | STATE : code ROUTINE: ss_signal | +--------------------------------------------------------------------+ PURPOSE : send a event signal. */ void ss_signal(T_MFW_EVENT event, void * para) { UBYTE temp; TRACE_FUNCTION ("ss_signal()"); temp = dspl_Enable(0); if (mfwSignallingMethod EQ 0) { /* * focus is on a window */ if (mfwFocus) /* * send event to sim management * handler if available */ if (ss_sign_exec (mfwFocus, event, para)) { dspl_Enable(temp); return; } /* * acutal focussed window is not available * or has no network management registration * handler, then search all nodes from the root. */ if (mfwRoot) ss_sign_exec (mfwRoot, event, para); } else { MfwHdr * h = 0; /* * Focus set, then start here */ if (mfwFocus) h = mfwFocus; /* * Focus not set, then start root */ if (!h) h = mfwRoot; /* * No elements available, return */ while (h) { /* * Signal consumed, then return */ if (ss_sign_exec (h, event, para)) { dspl_Enable(temp); return; } /* * All windows tried inclusive root */ if (h == mfwRoot) { dspl_Enable(temp); return; } /* * get parent window */ h = mfwParent(mfwParent(h)); if(h) h = ((MfwWin * )(h->data))->elems; } ss_sign_exec (mfwRoot, event, para); } dspl_Enable(temp); } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE: MFW_SS | | STATE : code ROUTINE: ss_check_ss_string | +--------------------------------------------------------------------+ PURPOSE : Check SS string */ T_MFW_SS_RETURN ss_check_ss_string(UBYTE *string) { T_MFW_SS_RETURN ss_group; T_KSD_SEQGRP grp; CHAR *rest; T_KSD_SEQPARAM para; SHORT id; int string_length; UBYTE call_active=FALSE; TRACE_FUNCTION("ss_check_ss_string"); #define MFW_MAX_DIAL_SHORT_STRING_LEN 2 /* check the type of destination address */ if ((cm_search_callId(CAL_STAT_Held, &id) == CM_OK) OR (cm_search_callId(CAL_STAT_Active, &id) == CM_OK)) { call_active = TRUE; ksd_decode((CHAR *)string, TRUE, &grp, &rest, ¶); } else ksd_decode((CHAR *)string, FALSE, &grp, &rest, ¶); /* check short string */ string_length = strlen((char*)string); TRACE_EVENT_P2("ksd_decode(""%s"") returns -> %d",(char*)string,grp); switch (grp) { case (SEQGRP_DIAL): /*JVJ CQ 6242 */ if (string_length<=MFW_MAX_DIAL_SHORT_STRING_LEN) { /* If the call is active, the short string will be USSD in all the cases not described in ETSI 2.30*/ if (call_active) grp = SEQGRP_USSD; /* If the call is not active, the short strings 1x will be DIAL, the rest USSD*/ else if ((string_length EQ 1)||(*(string) NEQ '1')) grp = SEQGRP_USSD; } break; case (SEQGRP_SUP_CLIR): /* JGG/JVJ - CQ 6537 */ case (SEQGRP_INV_CLIR): if (strlen(rest)!=0) { T_MFW_SS_RETURN rest_ss_group; /*check to make sure that the number is a real dial string */ rest_ss_group = ss_check_ss_string((UBYTE*)rest); if (rest_ss_group EQ MFW_SS_DIAL) /*If rest is a dial string, then the whole string is dial */ ss_group = MFW_SS_DIAL; else ss_group = MFW_SS_UNKNOWN; TRACE_EVENT_P2("ss_check_ss_string(""%s"") returns -> %d",(char*)string,ss_group); return ss_group; } break; default: break; } ss_group = ss_check_group(grp, para); TRACE_EVENT_P2("ss_check_ss_string(""%s"") returns -> %d",(char*)string,ss_group); return ss_group; } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE: MFW_SS | | STATE : code ROUTINE: ss_decode | +--------------------------------------------------------------------+ PURPOSE : Decode SS string */ T_MFW_SS_RETURN ss_decode(UBYTE *string, CHAR **rt, T_KSD_SEQPARAM *p) { T_KSD_SEQGRP grp; CHAR *rest; T_KSD_SEQPARAM para; SHORT id; BOOL bRetVal; TRACE_FUNCTION("ss_decode()"); // Added the checking of wait call to solve the bug MMI-SPR 13873. // If the call is a waiting also pass TRUE as the second parameter to the // function ksd_decode() to decode the entered number. In ksd_decode only if // the second parameter is TRUE the sequential table is searched to find out // the group where the user entered string belongs to. if ((cm_search_callId(CAL_STAT_Held, &id) == CM_OK) OR (cm_search_callId(CAL_STAT_Active, &id) == CM_OK) OR (cm_search_callId(CAL_STAT_Wait, &id) == CM_OK)) { bRetVal = ksd_decode((CHAR *)string, TRUE, &grp, &rest, ¶); if (!bRetVal) *rest = 0; } else { bRetVal = ksd_decode((CHAR *)string, FALSE, &grp, &rest, ¶); if (!bRetVal) *rest = 0; } if (!bRetVal) return MFW_SS_FAIL; *rt = rest; if (grp == SEQGRP_UNKNOWN) return MFW_SS_UNKNOWN; memcpy(p, ¶, sizeof(T_KSD_SEQPARAM)); return(ss_check_group(grp, para)); } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE: MFW_SS | | STATE : code ROUTINE: ss_check_group | +--------------------------------------------------------------------+ PURPOSE : returns the group of SS string */ T_MFW_SS_RETURN ss_check_group(T_KSD_SEQGRP grp, T_KSD_SEQPARAM para) { TRACE_EVENT_P1("ss_check_group: grp=%d", grp); switch (grp) { case SEQGRP_DIAL: /*SPR#1352 - SH - Check for TTY On Next Call psuedo-ss strings*/ if (!strncmp((char*)para.ussd.ussd, TTY_NEXTCALL_ON, strlen(TTY_NEXTCALL_ON))) return MFW_SS_TTY_NEXTCALL_ON; if (!strncmp((char*)para.ussd.ussd, TTY_NEXTCALL_OFF, strlen(TTY_NEXTCALL_OFF))) return MFW_SS_TTY_NEXTCALL_OFF; /*SH end*/ return MFW_SS_DIAL; case SEQGRP_DIAL_IDX: return MFW_SS_DIAL_IDX; case SEQGRP_DTMF: return MFW_SS_DTMF; case SEQGRP_USSD: /*MC, SPR 1111 check for LANGUAGE reset code*/ if (!strncmp((char*)para.ussd.ussd, LANG_RESET, strlen(LANG_RESET)) && para.ussd.ussd[6]=='#') return MFW_SS_LANG_RESET; /*MC end*/ return MFW_SS_USSD; case SEQGRP_ACT_SIM_LOCK: /* lock SIM card */ case SEQGRP_DEACT_SIM_LOCK: /* unlock SIM card */ case SEQGRP_INTRGT_SIM_LOCK: return MFW_SS_SIM_LOCK; case SEQGRP_CHANGE_REGISTER: case SEQGRP_SET_REGISTER: case SEQGRP_START_REGISTER: return MFW_SS_REG_PW; case SEQGRP_CF: return MFW_SS_CF; case SEQGRP_CB: /* barring services */ return MFW_SS_CB; case SEQGRP_SUP_CLIR: case SEQGRP_INV_CLIR: return MFW_SS_CLIR; case SEQGRP_SUP_CLIP: case SEQGRP_INV_CLIP: return MFW_SS_CLIP; case SEQGRP_SUP_COLR: case SEQGRP_INV_COLR: return MFW_SS_COLR; case SEQGRP_SUP_COLP: case SEQGRP_INV_COLP: return MFW_SS_COLP; case SEQGRP_CL: switch (para.cl.ssCd) { case KSD_SS_CLIP: return MFW_SS_CLIP; case KSD_SS_CLIR: return MFW_SS_CLIR; case KSD_SS_COLP: return MFW_SS_COLP; case KSD_SS_COLR: return MFW_SS_COLR; } return MFW_SS_UNKNOWN; case SEQGRP_PWD: switch(para.pwd.ssCd) { /* case KSD_SS_CCBS: CCBS has nothing to do with PWD! */ case KSD_SS_ALL_CBSS: case KSD_SS_BOC: case KSD_SS_BAOC: case KSD_SS_BOIC: case KSD_SS_BOICXH: case KSD_SS_BIC: case KSD_SS_BAIC: case KSD_SS_BICRM: /*NM 190602*/ case KSD_SS_ALL_SERV: return MFW_SS_REG_PW; case KSD_SS_PIN1: case KSD_SS_PIN2: return MFW_SS_SIM_REG_PW; } return MFW_SS_UNKNOWN; case SEQGRP_UBLK: return MFW_SS_SIM_UNBLCK_PIN; case SEQGRP_CW: return MFW_SS_WAIT; case SEQGRP_CCBS: return MFW_SS_CCBS; case SEQGRP_PRSNT_IMEI: return MFW_SS_MMI; case SEQGRP_CHLD: /*MC 11.04.02 */ if (para.chld.mode == CHLD_MOD_Ect) return MFW_SS_ECT; else if (para.chld.mode == CHLD_MOD_Ccbs) return MFW_SS_CCBS; else /*MC*/ return MFW_SS_HOLD; case SEQGRP_UNKNOWN: return MFW_SS_UNKNOWN; default: return MFW_SS_UNKNOWN; } } /* +-------------------------------------------------------------------+ | PROJECT : MMI-Framework (8417) MODULE : MFW_SS | | STATE : code ROUTINE : ss_execute_transaction | +-------------------------------------------------------------------+ PURPOSE : Start a SS transaction */ T_MFW_SS_RETURN ss_execute_transaction(UBYTE *ss_string, UBYTE ussd_mand) { T_ACI_RETURN res; TRACE_FUNCTION("ss_execute_transaction()"); res = sAT_Dn(CMD_SRC_LCL, (CHAR *)ss_string, D_CLIR_OVRD_Default, D_CUG_CTRL_NotPresent, D_TOC_Data); /*a0393213 compiler warnings removal - enum constants are used instead of int in parameters*/ if( (res != AT_EXCT) AND (res != AT_CMPL)) { TRACE_EVENT("sAT_D error"); return MFW_SS_FAIL; } return ss_check_ss_string(ss_string); } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE: MFW_SS | | STATE : code ROUTINE: ss_cvtCssuCodes | +--------------------------------------------------------------------+ PURPOSE : This function is used to convert the CSSU mode used by ACI to the CSSU mode used by MFW. */ T_MFW_SS_NOTIFY_CODES ss_cvtCssuCodes(T_ACI_CSSU_CODE code) { switch (code) { case CSSU_CODE_ForwardedCall: return MFW_SS_MT_FORWARDED; case CSSU_CODE_CUGCall: return MFW_SS_MT_CUG_CALL; case CSSU_CODE_Multiparty: return MFW_SS_NOTIFY_MULTIPARTY; case CSSU_CODE_HeldCallRel: return MFW_SS_NOTIFY_holdRELEASED; case CSSU_CODE_FwrdCheckSS: return MFW_SS_NOTIFY_checkSS; case CSSU_CODE_ECTAlert: return MFW_SS_NOTIFY_ectALERT; case CSSU_CODE_ECTConnect: return MFW_SS_NOTIFY_ectCONNECT; case CSSU_CODE_DeflectedCall: return MFW_SS_MT_DEFLECTED; //x0pleela 22 Feb, 2007 ER: OMAPS00113891 /* Adding the following new enum to differentiate the indications b/n the subscriber who forwarded the call (CSSU_CODE_IncCallForwarded) and to whom the call was forwarded(CSSU_CODE_ForwardedCall) */ case CSSU_CODE_IncCallForwarded: return MFW_SS_MT_CALL_FORWARDED; default: return MFW_SS_NOTIFY_UNKNOWN; } } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE: MFW_SS | | STATE : code ROUTINE: ss_cvtCssiCodes | +--------------------------------------------------------------------+ PURPOSE : This function is used to convert the CSSI mode used by ACI to the CSSI mode used by MFW. */ T_MFW_SS_NOTIFY_CODES ss_cvtCssiCodes(T_ACI_CSSI_CODE code) { switch (code) { case CSSI_CODE_CFUActive: return MFW_SS_MO_unconFORWARD; case CSSI_CODE_SomeCCFActive: return MFW_SS_MO_conFORWARD; case CSSI_CODE_ForwardedCall: return MFW_SS_MO_FORWARDED; case CSSI_CODE_CallWaiting: return MFW_SS_MO_WAITING; case CSSI_CODE_CUGCall: return MFW_SS_MO_CUG_CALL; case CSSI_CODE_OutCallsBarred: return MFW_SS_MO_moBARRED; case CSSI_CODE_IncCallsBarred: return MFW_SS_MO_mtBARRED; case CSSI_CODE_CLIRSupRej: return MFW_SS_MO_CLIR; case CSSI_CODE_DeflectedCall: return MFW_SS_MO_DEFLECTED; default: return MFW_SS_NOTIFY_UNKNOWN; } } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE: MFW_SS | | STATE : code ROUTINE: ss_notify | +--------------------------------------------------------------------+ PURPOSE : Change of SS status from the network. */ void ss_notify(T_MFW_SS_NOTIFY_CODES code, SHORT index, UBYTE *number, UBYTE *subaddr) { // Apr 06 2005 REF: CRR 29989 xpradipg // defined the variable locally since the scope lies within this function #ifdef FF_MMI_OPTIM T_MFW_SS_NOTIFY notify; #endif memset(¬ify, 0, sizeof(T_MFW_SS_NOTIFY)); notify.code = code; if(number) strcpy((char *)notify.number, (char *)number); if (subaddr) strcpy((char *)notify.subaddr, (char *)subaddr); //PATCH TB 1309: Wrong codes tested if ((code == MFW_SS_MO_CUG_CALL) OR (code == MFW_SS_MT_CUG_CALL)) notify.index = (UBYTE)index; /* END PATCH TB */ { /***************************Go-lite Optimization changes Start***********************/ //Aug 16, 2004 REF: CRR 24323 Deepa M.D TRACE_EVENT_P1 ("SS notify code = %d", notify.code); /***************************Go-lite Optimization changes end***********************/ } ss_signal(E_SS_NOTIFY, ¬ify); } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE : MFW_SS | | STATE : code ROUTINE : ss_cvtOCode | +--------------------------------------------------------------------+ PURPOSE : Convert operation codes */ T_MFW ss_cvtOCode(T_ACI_KSD_OP code) { switch (code) { case KSD_OP_IRGT: return SS_INTERROGATION; case KSD_OP_REG: return SS_REGISTRATION; case KSD_OP_ERS: return SS_ERASURE; case KSD_OP_ACT: return SS_ACTIVATION; case KSD_OP_DEACT: return SS_DEACTIVATION; default: return SS_CODES_UNKNOWN; } } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE : MFW_SS | | STATE : code ROUTINE : ss_cvtSCodes | +--------------------------------------------------------------------+ PURPOSE : This function is used to convert the SS code used by ACI to the SS code used by MFW. */ T_MFW ss_cvtSCode(T_ACI_KSD_SS code) { switch (code) { case KSD_SS_CLIP: return SS_CLIP; case KSD_SS_CLIR: return SS_CLIR; case KSD_SS_COLP: return SS_COLP; case KSD_SS_COLR: return SS_COLR; case KSD_SS_CW: return SS_CW; case KSD_SS_BAIC: return SS_CB_BAIC; case KSD_SS_BAOC: return SS_CB_BAOC; case KSD_SS_ALL_CBSS: return SS_CB_ALL; case KSD_SS_BICRM: return SS_CB_BAICroam; case KSD_SS_BIC: return SS_CB_ALL_BAIC; case KSD_SS_BOICXH: return SS_CB_BAOICexH; case KSD_SS_BOIC: return SS_CB_BAOIC; case KSD_SS_BOC: return SS_CB_ALL_BAOC; case KSD_SS_CFB: return SS_CF_CFB; case KSD_SS_CFNRC: return SS_CF_CFNR; case KSD_SS_CFNRY: return SS_CF_CFNRy; case KSD_SS_CFU: return SS_CF_CFU; case KSD_SS_ALL_CFWSS: return SS_CF_ALL_COND; case KSD_SS_ALL_FWSS: return SS_CF_ALL; case KSD_SS_CCBS: return SS_CCBS; case KSD_SS_PIN1: return SS_PIN1; case KSD_SS_PIN2: return SS_PIN2; default: return SS_CODES_UNKNOWN; } } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE : MFW_SS | | STATE : code ROUTINE : ss_cvtCLStatus | +--------------------------------------------------------------------+ PURPOSE : This function is used to convert the CL status used by ACI to the CL status used by MFW. */ T_MFW ss_cvtCLStatus(T_ACI_KSD_CLIR_OP stat) { switch (stat) { case KSD_CO_PERMANENT: return MFW_CL_PERM; case KSD_CO_TEMPORARY: return MFW_CL_TEMP_DEF_REST; case KSD_CO_ALLOWED: return MFW_CL_TEMP_DEF_ALLOWED; default: return MFW_CL_UNKNOWN; } } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE : MFW_SS | | STATE : code ROUTINE : ss_cvtCLOvrd | +--------------------------------------------------------------------+ PURPOSE : This function is used to convert the override status of CLIR used by ACI to the override status of CLIR used by MFW. */ T_MFW ss_cvtCLOvrd(T_ACI_KSD_OVRD_CTG ovrd) { switch (ovrd) { case KSD_OVR_CAT_ENABLED: return MFW_OV_ENABLED; case KSD_OVR_CAT_DISABLED: return MFW_OV_DISABLED; default: return MFW_OV_UNKNOWN; } } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE : MFW_SS | | STATE : code ROUTINE : ss_cvtErrCode | +--------------------------------------------------------------------+ PURPOSE : This function is used to convert the error code used by ACI to the error code used by MFW. */ T_MFW ss_cvtErrCode(T_ACI_KSD_ERR err) { switch (err) { case KSD_NO_ERROR: return MFW_SS_NO_ERROR; case KSD_ERR_UNKNOWN_SUBSCRIBER: return MFW_SS_ERR_UNKNOWN_SUBSCRIBER; case KSD_ERR_ILLEGAL_SUBSCRIBER: return MFW_SS_ERR_ILLEGAL_SUBSCRIBER; case KSD_ERR_BEARER_SVC_NOT_PROV: return MFW_SS_ERR_BEARER_SVC_NOT_PROV; case KSD_ERR_TELE_SVC_NOT_PROV: return MFW_SS_ERR_TELE_SVC_NOT_PROV; case KSD_ERR_ILLEGAL_EQUIPMENT: return MFW_SS_ERR_ILLEGAL_EQUIPMENT; case KSD_ERR_CALL_BARRED: return MFW_SS_ERR_CALL_BARRED; case KSD_ERR_ILLEGAL_SS_OPERATION: return MFW_SS_ERR_ILLEGAL_SS_OPERATION; case KSD_ERR_SS_ERR_STATUS: return MFW_SS_ERR_SS_ERR_STATUS; case KSD_ERR_SS_NOT_AVAIL: return MFW_SS_ERR_SS_NOT_AVAIL; case KSD_ERR_SS_SUBS_VIOLATION: return MFW_SS_ERR_SS_SUBS_VIOLATION; case KSD_ERR_SS_INCOMP: return MFW_SS_ERR_SS_INCOMP; case KSD_ERR_FAC_NOT_SUPPORTED: return MFW_SS_ERR_FAC_NOT_SUPPORTED; case KSD_ERR_ABSENT_SUBS: return MFW_SS_ERR_ABSENT_SUBS; case KSD_ERR_SYSTEM_FAIL: return MFW_SS_ERR_SYSTEM_FAIL; case KSD_ERR_DATA_MISSING: return MFW_SS_ERR_DATA_MISSING; case KSD_ERR_UNEXPECT_DATA: return MFW_SS_ERR_UNEXPECT_DATA; case KSD_ERR_PWD_REG_FAIL: return MFW_SS_ERR_PWD_REG_FAIL; case KSD_ERR_NEG_PWD_CHECK: return MFW_SS_ERR_NEG_PWD_CHECK; case KSD_ERR_NUM_PWD_VIOLATION: return MFW_SS_ERR_NUM_PWD_VIOLATION; case KSD_ERR_UNKNOWN_ALPHA: return MFW_SS_ERR_UNKNOWN_ALPHA; case KSD_ERR_USSD_BUSY: return MFW_SS_ERR_USSD_BUSY; case KSD_ERR_MAX_NUM_MPTY_EXCEED: return MFW_SS_ERR_MAX_NUM_MPTY_EXCEED; case KSD_ERR_RESOURCE_NOT_AVAIL: return MFW_SS_ERR_RESOURCE_NOT_AVAIL; case KSD_GEN_PROB_UNRECOG_CMP: return MFW_SS_GEN_PROB_UNRECOG_CMP; case KSD_GEN_PROB_MISTYPED_CMP: return MFW_SS_GEN_PROB_MISTYPED_CMP; case KSD_GEN_PROB_BAD_STRUCT_CMP: return MFW_SS_GEN_PROB_BAD_STRUCT_CMP; case KSD_INV_PROB_DUPL_INV_ID: return MFW_SS_INV_PROB_DUPL_INV_ID; case KSD_INV_PROB_UNRECOG_OP: return MFW_SS_INV_PROB_UNRECOG_OP; case KSD_INV_PROB_MISTYPED_PAR: return MFW_SS_INV_PROB_MISTYPED_PAR; case KSD_INV_PROB_RESOURCE_LIM: return MFW_SS_INV_PROB_RESOURCE_LIM; case KSD_INV_PROB_INIT_RELEASE: return MFW_SS_INV_PROB_INIT_RELEASE; case KSD_INV_PROB_UNRECOG_LNK_ID: return MFW_SS_INV_PROB_UNRECOG_LNK_ID; case KSD_INV_PROB_LNK_RES_UNEXP: return MFW_SS_INV_PROB_LNK_RES_UNEXP; case KSD_INV_PROB_UNEXP_LNK_OP: return MFW_SS_INV_PROB_UNEXP_LNK_OP; case KSD_RES_PROB_UNRECOG_INV_ID: return MFW_SS_RES_PROB_UNRECOG_INV_ID; case KSD_RES_PROB_RET_RES_UNEXP: return MFW_SS_RES_PROB_RET_RES_UNEXP; case KSD_RES_PROB_MISTYPED_PAR: return MFW_SS_RES_PROB_MISTYPED_PAR; case KSD_ERR_PROB_UNRECOG_INV_ID: return MFW_SS_ERR_PROB_UNRECOG_INV_ID; case KSD_ERR_PROB_RET_ERR_UNEXP: return MFW_SS_ERR_PROB_RET_ERR_UNEXP; case KSD_ERR_PROB_UNRECOG_ERR: return MFW_SS_ERR_PROB_UNRECOG_ERR; case KSD_ERR_PROB_UNEXP_ERR: return MFW_SS_ERR_PROB_UNEXP_ERR; case KSD_ERR_PROB_MISTYPED_PAR: return MFW_SS_ERR_PROB_MISTYPED_PAR; case KSD_ERR_FATAL_INV_RESULT: return MFW_SS_ERR_FATAL_INV_RESULT; case KSD_ERR_FATAL_CCD_DEC: return MFW_SS_ERR_FATAL_CCD_DEC; case KSD_ERR_FATAL_SS_ENT: return MFW_SS_ERR_FATAL_SS_ENT; default: return MFW_SS_ERR_UNKNOWN; } } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE : MFW_SS | | STATE : code ROUTINE : ss_decode_imei | +--------------------------------------------------------------------+ PURPOSE : convert imei (packed bcd to ASCII) */ void ss_decode_imei(T_ACI_KSIR *ksStat) { // Apr 06 2005 REF: CRR 29989 xpradipg #ifdef FF_MMI_OPTIM memset(imei_info, 0, sizeof(T_MFW_IMEI)); #ifdef NEPTUNE_BOARD /* OMAPS00059546 : BCD conversion has been Added for NEPTUNE Board */ imei_info.imei_number[0] = ( ksStat->ir.rKSIMEI.tac1 ) & 0x0F | 0x30; imei_info.imei_number[1] = ( ksStat->ir.rKSIMEI.tac1 & 0xF0 ) >> 4 | 0x30; imei_info.imei_number[2] = ( ksStat->ir.rKSIMEI.tac2 ) & 0x0F | 0x30; imei_info.imei_number[3] = ( ksStat->ir.rKSIMEI.tac2 & 0xF0 ) >> 4 | 0x30; imei_info.imei_number[4] = ( ksStat->ir.rKSIMEI.tac3 ) & 0x0F | 0x30; imei_info.imei_number[5] = ( ksStat->ir.rKSIMEI.tac3 & 0xF0 ) >> 4 | 0x30; imei_info.imei_number[6] = ( ksStat->ir.rKSIMEI.fac ) & 0x0F | 0x30; imei_info.imei_number[7] = ( ksStat->ir.rKSIMEI.fac & 0xF0 ) >> 4 | 0x30; imei_info.imei_number[8] = ( ksStat->ir.rKSIMEI.snr1 ) & 0x0F | 0x30; imei_info.imei_number[9] = ( ksStat->ir.rKSIMEI.snr1 & 0xF0 ) >> 4 | 0x30; imei_info.imei_number[10] = ( ksStat->ir.rKSIMEI.snr2 ) & 0x0F | 0x30; imei_info.imei_number[11] = ( ksStat->ir.rKSIMEI.snr2 & 0xF0 ) >> 4 | 0x30; imei_info.imei_number[12] = ( ksStat->ir.rKSIMEI.snr3 ) & 0x0F | 0x30; imei_info.imei_number[13] = ( ksStat->ir.rKSIMEI.snr3 & 0xF0 ) >> 4 | 0x30; imei_info.imei_number[14] = ( ksStat->ir.rKSIMEI.cd & 0x0F ) | 0x30; imei_info.imei_number[15] = ( ksStat->ir.rKSIMEI.svn ) & 0x0F | 0x30; imei_info.imei_number[16] = ( ksStat->ir.rKSIMEI.svn & 0xF0 ) >> 4 | 0x30; imei_info.imei_number[17] = '\0'; #else imei_info->imei_number[0] = ( ksStat->ir.rKSIMEI.tac1 & 0xF0 ) >> 4 | 0x30; imei_info->imei_number[1] = ( ksStat->ir.rKSIMEI.tac1 ) & 0x0F | 0x30; imei_info->imei_number[2] = ( ksStat->ir.rKSIMEI.tac2 & 0xF0 ) >> 4 | 0x30; imei_info->imei_number[3] = ( ksStat->ir.rKSIMEI.tac2 ) & 0x0F | 0x30; imei_info->imei_number[4] = ( ksStat->ir.rKSIMEI.tac3 & 0xF0 ) >> 4 | 0x30; imei_info->imei_number[5] = ( ksStat->ir.rKSIMEI.tac3 ) & 0x0F | 0x30; imei_info->imei_number[6] = ( ksStat->ir.rKSIMEI.fac & 0xF0 ) >> 4 | 0x30; imei_info->imei_number[7] = ( ksStat->ir.rKSIMEI.fac ) & 0x0F | 0x30; imei_info->imei_number[8] = ( ksStat->ir.rKSIMEI.snr1 & 0xF0 ) >> 4 | 0x30; imei_info->imei_number[9] = ( ksStat->ir.rKSIMEI.snr1 ) & 0x0F | 0x30; imei_info->imei_number[10] = ( ksStat->ir.rKSIMEI.snr2 & 0xF0 ) >> 4 | 0x30; imei_info->imei_number[11] = ( ksStat->ir.rKSIMEI.snr2 ) & 0x0F | 0x30; imei_info->imei_number[12] = ( ksStat->ir.rKSIMEI.snr3 & 0xF0 ) >> 4 | 0x30; imei_info->imei_number[13] = ( ksStat->ir.rKSIMEI.snr3 ) & 0x0F | 0x30; //a0876501 - Check byte comes before the Software version during display. imei_info->imei_number[14] = ( ksStat->ir.rKSIMEI.cd & 0x0F ) | 0x30; imei_info->imei_number[15] = ( ksStat->ir.rKSIMEI.svn & 0xF0 ) >> 4 | 0x30; imei_info->imei_number[16] = ( ksStat->ir.rKSIMEI.svn ) & 0x0F | 0x30; imei_info->imei_number[17] = '\0'; #endif #else memset(&imei_info, 0, sizeof(imei_info)); #ifdef NEPTUNE_BOARD /* OMAPS00059546 : BCD to conversion has been changed */ imei_info.imei_number[0] = ( ksStat->ir.rKSIMEI.tac1 ) & 0x0F | 0x30; imei_info.imei_number[1] = ( ksStat->ir.rKSIMEI.tac1 & 0xF0 ) >> 4 | 0x30; imei_info.imei_number[2] = ( ksStat->ir.rKSIMEI.tac2 ) & 0x0F | 0x30; imei_info.imei_number[3] = ( ksStat->ir.rKSIMEI.tac2 & 0xF0 ) >> 4 | 0x30; imei_info.imei_number[4] = ( ksStat->ir.rKSIMEI.tac3 ) & 0x0F | 0x30; imei_info.imei_number[5] = ( ksStat->ir.rKSIMEI.tac3 & 0xF0 ) >> 4 | 0x30; imei_info.imei_number[6] = ( ksStat->ir.rKSIMEI.fac ) & 0x0F | 0x30; imei_info.imei_number[7] = ( ksStat->ir.rKSIMEI.fac & 0xF0 ) >> 4 | 0x30; imei_info.imei_number[8] = ( ksStat->ir.rKSIMEI.snr1 ) & 0x0F | 0x30; imei_info.imei_number[9] = ( ksStat->ir.rKSIMEI.snr1 & 0xF0 ) >> 4 | 0x30; imei_info.imei_number[10] = ( ksStat->ir.rKSIMEI.snr2 ) & 0x0F | 0x30; imei_info.imei_number[11] = ( ksStat->ir.rKSIMEI.snr2 & 0xF0 ) >> 4 | 0x30; imei_info.imei_number[12] = ( ksStat->ir.rKSIMEI.snr3 ) & 0x0F | 0x30; imei_info.imei_number[13] = ( ksStat->ir.rKSIMEI.snr3 & 0xF0 ) >> 4 | 0x30; imei_info.imei_number[14] = ( ksStat->ir.rKSIMEI.cd & 0x0F ) | 0x30; imei_info.imei_number[15] = ( ksStat->ir.rKSIMEI.svn ) & 0x0F | 0x30; imei_info.imei_number[16] = ( ksStat->ir.rKSIMEI.svn & 0xF0 ) >> 4 | 0x30; imei_info.imei_number[17] = '\0'; #else // Jul 05 2005 REF: CRR 22565 a0876501 // Fixed the issue of byte swapping. imei_info.imei_number[0] = ( ksStat->ir.rKSIMEI.tac1 & 0xF0 ) >> 4 | 0x30; imei_info.imei_number[1] = ( ksStat->ir.rKSIMEI.tac1 ) & 0x0F | 0x30; imei_info.imei_number[2] = ( ksStat->ir.rKSIMEI.tac2 & 0xF0 ) >> 4 | 0x30; imei_info.imei_number[3] = ( ksStat->ir.rKSIMEI.tac2 ) & 0x0F | 0x30; imei_info.imei_number[4] = ( ksStat->ir.rKSIMEI.tac3 & 0xF0 ) >> 4 | 0x30; imei_info.imei_number[5] = ( ksStat->ir.rKSIMEI.tac3 ) & 0x0F | 0x30; imei_info.imei_number[6] = ( ksStat->ir.rKSIMEI.fac & 0xF0 ) >> 4 | 0x30; imei_info.imei_number[7] = ( ksStat->ir.rKSIMEI.fac ) & 0x0F | 0x30; imei_info.imei_number[8] = ( ksStat->ir.rKSIMEI.snr1 & 0xF0 ) >> 4 | 0x30; imei_info.imei_number[9] = ( ksStat->ir.rKSIMEI.snr1 ) & 0x0F | 0x30; imei_info.imei_number[10] = ( ksStat->ir.rKSIMEI.snr2 & 0xF0 ) >> 4 | 0x30; imei_info.imei_number[11] = ( ksStat->ir.rKSIMEI.snr2 ) & 0x0F | 0x30; imei_info.imei_number[12] = ( ksStat->ir.rKSIMEI.snr3 & 0xF0 ) >> 4 | 0x30; imei_info.imei_number[13] = ( ksStat->ir.rKSIMEI.snr3 ) & 0x0F | 0x30; //a0876501 - Check byte comes before the Software version during display. imei_info.imei_number[14] = ( ksStat->ir.rKSIMEI.cd & 0x0F ) | 0x30; imei_info.imei_number[15] = ( ksStat->ir.rKSIMEI.svn & 0xF0 ) >> 4 | 0x30; imei_info.imei_number[16] = ( ksStat->ir.rKSIMEI.svn ) & 0x0F | 0x30; imei_info.imei_number[17] = '\0'; #endif TRACE_EVENT_P8("ss_decode_imei IMEI: TAC %1c%1c%1c%1c%1c%1c%1c%1c", imei_info.imei_number[0], imei_info.imei_number[1], imei_info.imei_number[2], imei_info.imei_number[3], imei_info.imei_number[4], imei_info.imei_number[5], imei_info.imei_number[6], imei_info.imei_number[7]); TRACE_EVENT_P6("ss_decode_imei IMEI: SNR %1c%1c%1c%1c%1c%1c", imei_info.imei_number[8], imei_info.imei_number[9], imei_info.imei_number[10], imei_info.imei_number[11], imei_info.imei_number[12], imei_info.imei_number[13]); TRACE_EVENT_P4("ss_decode_imei IMEI: SV CD %1c%1c%1c%1c", imei_info.imei_number[14], imei_info.imei_number[15], imei_info.imei_number[16],imei_info.imei_number[17]); #endif } #ifdef NEPTUNE_BOARD /* ===========================================================*/ /** * mfw_getSumOf2Digits () is called when getting IMEI request from the used * * @param UBYTE digits - Byte to be added * * @return UBYTE - Sum of two digits * * @see */ /* =========================================================== */ LOCAL UBYTE mfw_getSumOf2Digits ( UBYTE idigits ) { UBYTE iDval; TRACE_FUNCTION( "mfw_getSumOf2Digits" ); /* compute odd labeled digit */ iDval = 2 * ( idigits & 0x0F ); iDval = iDval - ( iDval < 10 ? 0 : 9 ); /* return sum of even labeled digit and already processed odd labeled digit */ return iDval + ( ( idigits >> 4 ) & 0x0F ); } #endif /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE : MFW_SS | | STATE : code ROUTINE : mfw_getCdByteFromImei | +--------------------------------------------------------------------+ PURPOSE : Get CD byte from IMEI. */ UBYTE getCdByteFromImei(UBYTE *imei) { T_ACI_IMEI aci_imei; #ifdef NEPTUNE_BOARD UBYTE iSum = 0; /* sum of step 2 */ UBYTE iCd; /* Luhn Check Digit */ #endif TRACE_FUNCTION( "getCdByteFromImei" ); // For calculating the Cd byte, copy the buffer contents. aci_imei.tac1 = imei[0]; aci_imei.tac2 = imei[1]; aci_imei.tac3 = imei[2]; aci_imei.fac = imei[3]; aci_imei.snr1 = imei[4]; aci_imei.snr2 = imei[5]; aci_imei.snr3 = imei[6]; aci_imei.svn = imei[7]; #ifndef NEPTUNE_BOARD return(cmhSS_getCdFromImei(&aci_imei)); #else /* OMAPS00059546 : Calculating the CD bytes for IMEI */ iSum += mfw_getSumOf2Digits ( aci_imei.tac1 ); iSum += mfw_getSumOf2Digits ( aci_imei.tac2 ); iSum += mfw_getSumOf2Digits ( aci_imei.tac3 ); iSum += mfw_getSumOf2Digits ( aci_imei.fac ); iSum += mfw_getSumOf2Digits ( aci_imei.snr1 ); iSum += mfw_getSumOf2Digits ( aci_imei.snr2 ); iSum += mfw_getSumOf2Digits ( aci_imei.snr3 ); iCd = 10 - ( iSum % 10 ); iCd = ( iCd EQ 10 ? 0 : iCd ); return ( iCd ); #endif } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE: MFW_SS | | STATE : code ROUTINE: rAT_PercentKSIR | +--------------------------------------------------------------------+ PURPOSE : Network response for key sequences */ void rAT_PercentKSIR ( T_ACI_KSIR *ksStat) { UBYTE idx; T_MFW_TELECOM *p_tele; T_MFW_FEATURE *p_feat; T_MFW_SRV_GROUP *p_srv; TRACE_FUNCTION("rAT_PercentKSIR()"); TRACE_EVENT_P1("ksStat->ksdCmd %d", ksStat->ksdCmd); switch (ksStat->ksdCmd) { case KSD_CMD_CB: TRACE_EVENT("KSD_CMD_CB"); TRACE_EVENT_P1("ksStat->ir.rKSCB.ssCd %d", ksStat->ir.rKSCB.ssCd); TRACE_EVENT_P1("ksStat->ir.rKSCB.opCd %d", ksStat->ir.rKSCB.opCd); TRACE_EVENT_P1("ksStat->ir.rKSCB.ssErr %d", ksStat->ir.rKSCB.ssErr); TRACE_EVENT_P1("ksStat->ir.rKSCB.c_cbInfoLst %d", ksStat->ir.rKSCB.c_cbInfoLst); if (ksStat->ir.rKSCB.c_cbInfoLst) { int i; for (i = 0; i < ksStat->ir.rKSCB.c_cbInfoLst; i++) { TRACE_EVENT_P2("ksStat->ir.rKSCB.cbInfoLst[%d].bsTp %d", i, ksStat->ir.rKSCB.cbInfoLst[i].bsTp); TRACE_EVENT_P2("ksStat->ir.rKSCB.cbInfoLst[%d].bsCd %d", i, ksStat->ir.rKSCB.cbInfoLst[i].bsCd); TRACE_EVENT_P2("ksStat->ir.rKSCB.cbInfoLst[%d].ssSt %d", i, ksStat->ir.rKSCB.cbInfoLst[i].ssSt); } } p_tele = (T_MFW_TELECOM *) ssLstBuf; // Apr 06 2005 REF: CRR 29989 xpradipg #ifdef FF_MMI_OPTIM cb_cnf = (T_MFW_SS_CB_CNF*)mfwAlloc(sizeof(T_MFW_SS_CB_CNF)); if(NULL != cb_cnf) { TRACE_EVENT_P2("Mem Aloc for cb_cnf = %x Size = %d",cb_cnf,sizeof(T_MFW_SS_CB_CNF)); cb_cnf->ss_code = (T_MFW_SS_CODES)ss_cvtSCode((T_ACI_KSD_SS)ksStat->ir.rKSCB.ssCd); /*a0393213 compiler warnings removal - explicit type castingl*/ cb_cnf->ss_category = (T_MFW_SS_CATEGORY)ss_cvtOCode((T_ACI_KSD_OP)ksStat->ir.rKSCB.opCd); /*a0393213 compiler warnings remova - explicit type castingl*/ cb_cnf->ss_error =(T_MFW_SS_ERROR) ss_cvtErrCode((T_ACI_KSD_ERR)ksStat->ir.rKSCB.ssErr); /*a0393213 compiler warnings removal - explicit type casting*/ cb_cnf->ss_telecom_list = p_tele; } else return; #else cb_cnf.ss_code = (T_MFW_SS_CODES) ss_cvtSCode((T_ACI_KSD_SS)ksStat->ir.rKSCB.ssCd); cb_cnf.ss_category = (T_MFW_SS_CATEGORY)ss_cvtOCode((T_ACI_KSD_OP)ksStat->ir.rKSCB.opCd); cb_cnf.ss_error = (T_MFW_SS_ERROR)ss_cvtErrCode((T_ACI_KSD_ERR)ksStat->ir.rKSCB.ssErr); cb_cnf.ss_telecom_list = p_tele; #endif for( idx = 0; idx < ksStat->ir.rKSCB.c_cbInfoLst AND idx < MFW_MAX_TELE_NR; idx++, p_tele++ ) { p_tele->ss_telecom_type = ksStat->ir.rKSCB. cbInfoLst[idx].bsTp; p_tele->ss_telecom_service = ksStat->ir.rKSCB. cbInfoLst[idx].bsCd; p_tele->ss_status = ksStat->ir.rKSCB. cbInfoLst[idx].ssSt; } // Apr 06 2005 REF: CRR 29989 xpradipg #ifdef FF_MMI_OPTIM if(NULL != cb_cnf) cb_cnf->ss_telecom_count = idx; #else cb_cnf.ss_telecom_count = idx; #endif break; case KSD_CMD_CF: TRACE_EVENT("KSD_CMD_CF"); TRACE_EVENT_P1("ksStat->ir.rKSCF.ssCd %d", ksStat->ir.rKSCF.ssCd); TRACE_EVENT_P1("ksStat->ir.rKSCF.opCd %d", ksStat->ir.rKSCF.opCd); TRACE_EVENT_P1("ksStat->ir.rKSCF.ssErr %d", ksStat->ir.rKSCF.ssErr); TRACE_EVENT_P1("ksStat->ir.rKSCF.c_cfFeatLst %d", ksStat->ir.rKSCF.c_cfFeatLst); if (ksStat->ir.rKSCF.c_cfFeatLst) { int i; for (i = 0; i < ksStat->ir.rKSCF.c_cfFeatLst; i++) { TRACE_EVENT_P2("ksStat->ir.rKSCF.cfFeatLst[%d].bsTp %d", i, ksStat->ir.rKSCF.cfFeatLst[i].bsTp); TRACE_EVENT_P2("ksStat->ir.rKSCF.cfFeatLst[%d].bsCd %d", i, ksStat->ir.rKSCF.cfFeatLst[i].bsCd); TRACE_EVENT_P2("ksStat->ir.rKSCF.cfFeatLst[%d].ssSt %d", i, ksStat->ir.rKSCF.cfFeatLst[i].ssSt); TRACE_EVENT_P2("ksStat->ir.rKSCF.cfFeatLst[%d].num %s", i, ksStat->ir.rKSCF.cfFeatLst[i].num); TRACE_EVENT_P2("ksStat->ir.rKSCF.cfFeatLst[%d].ton 0x%02X", i, ksStat->ir.rKSCF.cfFeatLst[i].ton); TRACE_EVENT_P2("ksStat->ir.rKSCF.cfFeatLst[%d].npi 0x%02X", i, ksStat->ir.rKSCF.cfFeatLst[i].npi); TRACE_EVENT_P2("ksStat->ir.rKSCF.cfFeatLst[%d].sub %s", i, ksStat->ir.rKSCF.cfFeatLst[i].sub); TRACE_EVENT_P2("ksStat->ir.rKSCF.cfFeatLst[%d].tos 0x%02X", i, ksStat->ir.rKSCF.cfFeatLst[i].tos); TRACE_EVENT_P2("ksStat->ir.rKSCF.cfFeatLst[%d].oe 0x%02X", i, ksStat->ir.rKSCF.cfFeatLst[i].oe); TRACE_EVENT_P2("ksStat->ir.rKSCF.cfFeatLst[%d].time 0x%02X", i, ksStat->ir.rKSCF.cfFeatLst[i].time); } } p_feat = (T_MFW_FEATURE *) ssLstBuf; // Apr 06 2005 REF: CRR 29989 xpradipg #ifdef FF_MMI_OPTIM cf_cnf = (T_MFW_SS_CF_CNF*)mfwAlloc(sizeof(T_MFW_SS_CF_CNF)); if(NULL != cf_cnf) { TRACE_EVENT_P2("Mem Loc = %x, allocates size = %d",cf_cnf,sizeof(T_MFW_SS_CF_CNF)); cf_cnf->ss_code = (T_MFW_SS_CODES)ss_cvtSCode((T_ACI_KSD_SS)ksStat->ir.rKSCF.ssCd); cf_cnf->ss_category = (T_MFW_SS_CATEGORY)ss_cvtOCode((T_ACI_KSD_OP)ksStat->ir.rKSCF.opCd); cf_cnf->ss_error = (T_MFW_SS_ERROR)ss_cvtErrCode((T_ACI_KSD_ERR)ksStat->ir.rKSCF.ssErr); cf_cnf->ss_feature_list = p_feat; } #else cf_cnf.ss_code = (T_MFW_SS_CODES)ss_cvtSCode((T_ACI_KSD_SS)ksStat->ir.rKSCF.ssCd); cf_cnf.ss_category = (T_MFW_SS_CATEGORY)ss_cvtOCode((T_ACI_KSD_OP)ksStat->ir.rKSCF.opCd); cf_cnf.ss_error = (T_MFW_SS_ERROR)ss_cvtErrCode((T_ACI_KSD_ERR)ksStat->ir.rKSCF.ssErr); cf_cnf.ss_feature_list = p_feat; #endif for( idx = 0; idx < ksStat->ir.rKSCF.c_cfFeatLst AND idx < MFW_MAX_FEAT_NR; idx++, p_feat++ ) { p_feat->ss_telecom_type = ksStat->ir.rKSCF. cfFeatLst[idx].bsTp; p_feat->ss_telecom_service = ksStat->ir.rKSCF. cfFeatLst[idx].bsCd; p_feat->ss_status = ksStat->ir.rKSCF.cfFeatLst[idx].ssSt; p_feat->ss_numbering_type = (UBYTE)phb_cvtTon((T_ACI_TOA_TON)ksStat->ir.rKSCF. cfFeatLst[idx].ton); /*a0393213 compiler warnings removal - explicit type casting done*/ p_feat->ss_numbering_plan = (UBYTE)phb_cvtNpi((T_ACI_TOA_NPI)ksStat->ir.rKSCF. cfFeatLst[idx].npi); /*a0393213 compiler warnings removal - explicit type casting done*/ strncpy((char *)p_feat->ss_forwarded_to_number, (char *)ksStat->ir.rKSCF.cfFeatLst[idx].num, MFW_SS_NUM_LEN); strncpy((char *)p_feat->ss_forwarded_to_subaddress, (char *)ksStat->ir.rKSCF.cfFeatLst[idx].sub, MFW_SS_SUBADR_LEN); p_feat->ss_no_reply_condition_time = ksStat->ir.rKSCF. cfFeatLst[idx].time; } // Apr 06 2005 REF: CRR 29989 xpradipg #ifdef FF_MMI_OPTIM if(NULL != cf_cnf) cf_cnf->ss_feature_count = idx; #else cf_cnf.ss_feature_count = idx; #endif TRACE_EVENT("rat_percentksir->KSD_CMD_CF"); if (ksStat->srcId != CMD_SRC_LCL) // Apr 06 2005 REF: CRR 29989 xpradipg #ifdef FF_MMI_OPTIM { ss_signal(E_SS_CF_ICN_UPD,cf_cnf); } #else ss_signal(E_SS_CF_ICN_UPD, &cf_cnf); #endif break; case KSD_CMD_CL: TRACE_EVENT("KSD_CMD_CL"); TRACE_EVENT_P1("ksStat->ir.rKSCL.ssCd %d", ksStat->ir.rKSCL.ssCd); TRACE_EVENT_P1("ksStat->ir.rKSCL.opCd %d", ksStat->ir.rKSCL.opCd); TRACE_EVENT_P1("ksStat->ir.rKSCL.ssErr %d", ksStat->ir.rKSCL.ssErr); TRACE_EVENT_P1("ksStat->ir.rKSCL.ssSt %d", ksStat->ir.rKSCL.ssSt); TRACE_EVENT_P1("ksStat->ir.rKSCL.mode %d", ksStat->ir.rKSCL.mode); TRACE_EVENT_P1("ksStat->ir.rKSCL.clirOpt %d", ksStat->ir.rKSCL.clirOpt); TRACE_EVENT_P1("ksStat->ir.rKSCL.ovrdCtg %d", ksStat->ir.rKSCL.ovrdCtg); // Apr 06 2005 REF: CRR 29989 xpradipg #ifdef FF_MMI_OPTIM cli_cnf = (T_MFW_SS_CLI_CNF*)mfwAlloc(sizeof(T_MFW_SS_CLI_CNF)); if(NULL != cli_cnf) { cli_cnf->ss_code = (T_MFW_SS_CODES)ss_cvtSCode((T_ACI_KSD_SS)ksStat->ir.rKSCL.ssCd); /*a0393213 compiler warning removal - explicit typecasting done*/ cli_cnf->ss_category = (T_MFW_SS_CATEGORY)ss_cvtOCode((T_ACI_KSD_OP)ksStat->ir.rKSCL.opCd);/*a0393213 compiler warning removal - explicit typecasting done*/ cli_cnf->ss_error = (T_MFW_SS_ERROR)ss_cvtErrCode((T_ACI_KSD_ERR)ksStat->ir.rKSCL.ssErr);/*a0393213 compiler warning removal - explicit typecasting done*/ cli_cnf->ss_status = ksStat->ir.rKSCL.ssSt; cli_cnf->ss_clir_option = (T_MFW_CL_STATUS)ss_cvtCLStatus((T_ACI_KSD_CLIR_OP)ksStat->ir.rKSCL.clirOpt);/*a0393213 compiler warning removal - explicit typecasting done*/ cli_cnf->ss_ovrd_ctgry = (T_MFW_OV_CTGRY)ss_cvtCLOvrd((T_ACI_KSD_OVRD_CTG)ksStat->ir.rKSCL.ovrdCtg);/*a0393213 compiler warning removal - explicit typecasting done*/ } #else cli_cnf.ss_code = (T_MFW_SS_CODES)ss_cvtSCode((T_ACI_KSD_SS)ksStat->ir.rKSCL.ssCd); cli_cnf.ss_category = (T_MFW_SS_CATEGORY)ss_cvtOCode((T_ACI_KSD_OP)ksStat->ir.rKSCL.opCd); cli_cnf.ss_error = (T_MFW_SS_ERROR)ss_cvtErrCode((T_ACI_KSD_ERR)ksStat->ir.rKSCL.ssErr); cli_cnf.ss_status = ksStat->ir.rKSCL.ssSt; cli_cnf.ss_clir_option = (T_MFW_CL_STATUS)ss_cvtCLStatus((T_ACI_KSD_CLIR_OP)ksStat->ir.rKSCL.clirOpt);/*a0393213 compiler warning removal - explicit typecasting done*/ cli_cnf.ss_ovrd_ctgry = (T_MFW_OV_CTGRY)ss_cvtCLOvrd((T_ACI_KSD_OVRD_CTG)ksStat->ir.rKSCL.ovrdCtg); #endif break; case KSD_CMD_CW: TRACE_EVENT("KSD_CMD_CW"); TRACE_EVENT_P1("ksStat->ir.rKSCW.ssCd %d", ksStat->ir.rKSCW.ssCd); TRACE_EVENT_P1("ksStat->ir.rKSCW.opCd %d", ksStat->ir.rKSCW.opCd); TRACE_EVENT_P1("ksStat->ir.rKSCW.ssErr %d", ksStat->ir.rKSCW.ssErr); TRACE_EVENT_P1("ksStat->ir.rKSCW.ssSt %d", ksStat->ir.rKSCW.ssSt); TRACE_EVENT_P1("ksStat->ir.rKSCW.c_cwBSGLst %d", ksStat->ir.rKSCW.c_cwBSGLst); if (ksStat->ir.rKSCW.c_cwBSGLst) { int i; for (i = 0; i < ksStat->ir.rKSCW.c_cwBSGLst; i++) { TRACE_EVENT_P2("ksStat->ir.rKSCW.cwBSGLst[%d].bsTp %d", i, ksStat->ir.rKSCW.cwBSGLst[i].bsTp); TRACE_EVENT_P2("ksStat->ir.rKSCW.cwBSGLst[%d].bsCd %d", i, ksStat->ir.rKSCW.cwBSGLst[i].bsCd); } } p_srv = (T_MFW_SRV_GROUP *) ssLstBuf; // Apr 06 2005 REF: CRR 29989 xpradipg #ifdef FF_MMI_OPTIM cw_cnf = (T_MFW_SS_CW_CNF*)mfwAlloc(sizeof(T_MFW_SS_CW_CNF)); if(cw_cnf != NULL) { cw_cnf->ss_code =(T_MFW_SS_CODES) ss_cvtSCode((T_ACI_KSD_SS)ksStat->ir.rKSCW.ssCd);/*a0393213 compiler warning removal - explicit typecasting done*/ cw_cnf->ss_category = (T_MFW_SS_CATEGORY)ss_cvtOCode((T_ACI_KSD_OP)ksStat->ir.rKSCW.opCd);/*a0393213 compiler warning removal - explicit typecasting done*/ cw_cnf->ss_error = (T_MFW_SS_ERROR)ss_cvtErrCode((T_ACI_KSD_ERR)ksStat->ir.rKSCW.ssErr);/*a0393213 compiler warning removal - explicit typecasting done*/ cw_cnf->ss_status = ksStat->ir.rKSCW.ssSt; cw_cnf->ss_service_list = p_srv; } #else cw_cnf.ss_code = (T_MFW_SS_CODES)ss_cvtSCode((T_ACI_KSD_SS)ksStat->ir.rKSCW.ssCd); cw_cnf.ss_category = (T_MFW_SS_CATEGORY)ss_cvtOCode((T_ACI_KSD_OP)ksStat->ir.rKSCW.opCd); cw_cnf.ss_error = (T_MFW_SS_ERROR)ss_cvtErrCode((T_ACI_KSD_ERR)ksStat->ir.rKSCW.ssErr); cw_cnf.ss_status = ksStat->ir.rKSCW.ssSt; cw_cnf.ss_service_list = p_srv; #endif for( idx = 0; idx < ksStat->ir.rKSCW.c_cwBSGLst AND idx < MFW_MAX_SRV_NR; idx++, p_srv++ ) { p_srv->ss_telecom_type = ksStat->ir.rKSCW. cwBSGLst[idx].bsTp; p_srv->ss_telecom_service = ksStat->ir.rKSCW. cwBSGLst[idx].bsCd; } // Apr 06 2005 REF: CRR 29989 xpradipg #ifdef FF_MMI_OPTIM if(NULL != cw_cnf) cw_cnf->ss_service_count = idx; #else cw_cnf.ss_service_count = idx; #endif break; case KSD_CMD_PWD: TRACE_EVENT("KSD_CMD_PWD"); TRACE_EVENT_P1("ksStat->ir.rKSPW.ssCd %d", ksStat->ir.rKSPW.ssCd); TRACE_EVENT_P1("ksStat->ir.rKSPW.opCd %d", ksStat->ir.rKSPW.opCd); TRACE_EVENT_P1("ksStat->ir.rKSPW.ssErr %d", ksStat->ir.rKSPW.ssErr); TRACE_EVENT_P1("ksStat->ir.rKSPW.newPwd %s", ksStat->ir.rKSPW.newPwd); // Apr 06 2005 REF: CRR 29989 xpradipg #ifdef FF_MMI_OPTIM pw_cnf = (T_MFW_SS_PW_CNF*)mfwAlloc(sizeof(T_MFW_SS_PW_CNF)); if( NULL != pw_cnf) { pw_cnf->ss_code = (T_MFW_SS_CODES)ss_cvtSCode((T_ACI_KSD_SS)ksStat->ir.rKSPW.ssCd);/*a0393213 compiler warning removal - explicit typecasting done*/ pw_cnf->ss_category = (T_MFW_SS_CATEGORY)ss_cvtOCode((T_ACI_KSD_OP)ksStat->ir.rKSPW.opCd);/*a0393213 compiler warning removal - explicit typecasting done*/ pw_cnf->ss_error = (T_MFW_SS_ERROR)ss_cvtErrCode((T_ACI_KSD_ERR)ksStat->ir.rKSPW.ssErr);/*a0393213 compiler warning removal - explicit typecasting done*/ strncpy( (char *)pw_cnf->ss_new_pwd, (char *)ksStat->ir.rKSPW.newPwd, MFW_SS_PWD_LEN); } #else pw_cnf.ss_code = (T_MFW_SS_CODES)ss_cvtSCode((T_ACI_KSD_SS)ksStat->ir.rKSPW.ssCd); pw_cnf.ss_category = (T_MFW_SS_CATEGORY)ss_cvtOCode((T_ACI_KSD_OP)ksStat->ir.rKSPW.opCd); pw_cnf.ss_error = (T_MFW_SS_ERROR)ss_cvtErrCode((T_ACI_KSD_ERR)ksStat->ir.rKSPW.ssErr); strncpy( (char *)pw_cnf.ss_new_pwd, (char *)ksStat->ir.rKSPW.newPwd, MFW_SS_PWD_LEN); #endif break; case KSD_CMD_IMEI: TRACE_EVENT("KSD_CMD_IMEI"); TRACE_EVENT_P1("ksStat->ir.rKSIMEI.tac1 %d", ksStat->ir.rKSIMEI.tac1); TRACE_EVENT_P1("ksStat->ir.rKSIMEI.tac2 %d", ksStat->ir.rKSIMEI.tac2); TRACE_EVENT_P1("ksStat->ir.rKSIMEI.tac3 %d", ksStat->ir.rKSIMEI.tac3); TRACE_EVENT_P1("ksStat->ir.rKSIMEI.fac %d", ksStat->ir.rKSIMEI.fac); TRACE_EVENT_P1("ksStat->ir.rKSIMEI.snr1 %d", ksStat->ir.rKSIMEI.snr1); TRACE_EVENT_P1("ksStat->ir.rKSIMEI.snr2 %d", ksStat->ir.rKSIMEI.snr2); TRACE_EVENT_P1("ksStat->ir.rKSIMEI.snr3 %d", ksStat->ir.rKSIMEI.snr3); TRACE_EVENT_P1("ksStat->ir.rKSIMEI.svn %d", ksStat->ir.rKSIMEI.svn); TRACE_EVENT_P1("ksStat->ir.rKSIMEI.cd %d", ksStat->ir.rKSIMEI.cd); // Apr 06 2005 REF: CRR 29989 xpradipg #ifdef FF_MMI_OPTIM imei_info = (T_MFW_IMEI*)mfwAlloc(sizeof(T_MFW_IMEI)); if( NULL != imei_info) { #endif ss_decode_imei(ksStat); // Apr 06 2005 REF: CRR 29989 xpradipg #ifdef FF_MMI_OPTIM imei_info->error = MFW_SS_NO_ERROR; ss_signal(E_SS_IMEI, imei_info); } #else imei_info.error = MFW_SS_NO_ERROR; ss_signal(E_SS_IMEI, &imei_info); #endif break; case KSD_CMD_USSD: TRACE_EVENT("KSD_CMD_USSD"); TRACE_EVENT_P1("ksStat->ir.rKSUS.dcs 0x%02X", ksStat->ir.rKSUS.dcs); TRACE_EVENT_P1("ksStat->ir.rKSUS.mode %d", ksStat->ir.rKSUS.mode); TRACE_EVENT_P1("ksStat->ir.rKSUS.ssErr %d", ksStat->ir.rKSUS.ssErr); memset(&ussd_info, 0, sizeof(ussd_info)); /* OMAPS00079722 - Null Check has been added */ if( ksStat->ir.rKSUS.ussd != NULL ) { TRACE_EVENT_P1("ksStat->ir.rKSUS.ussd %s", ksStat->ir.rKSUS.ussd); ussd_info.len = strlen((char *)ksStat->ir.rKSUS.ussd); strcpy((char*)ussd_info.ussd, (char *)ksStat->ir.rKSUS.ussd); } //x0pleela 28 Aug, 2006 DR: OMAPS00083503 //Removed the hardcoded dcs value "MFW_ASCII" ussd_info.dcs = (T_MFW_DCS)(ksStat->ir.rKSUS.dcs); ussd_info.error = ss_cvtErrCode((T_ACI_KSD_ERR)ksStat->ir.rKSUS.ssErr); //x0pleela 28 Aug, 2006 DR: OMAPS00083503 //sending ss signal E_SS_USSD_REQ or E_SS_USSD_CNF based on user action required or not if (ksStat->ir.rKSUS.mode == CUSD_MOD_YesActReq) ss_signal(E_SS_USSD_REQ, &ussd_info); if (ksStat->ir.rKSUS.mode == CUSD_MOD_NoActReq || ksStat->ir.rKSUS.mode==CUSD_MOD_TerminatedByNetwork || ksStat->ir.rKSUS.mode == CUSD_MOD_OperationNotSupported || ksStat->ir.rKSUS.mode ==CUSD_MOD_NetworkTimeout) ss_signal(E_SS_USSD_CNF, &ussd_info); break; default: TRACE_EVENT("default"); break; } } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE: MFW_SS | | STATE : code ROUTINE: ss_command_info | +--------------------------------------------------------------------+ PURPOSE : Notify for send a SS string from ACI */ void ss_command_info(T_ACI_CLOG* cmd) { // Apr 06 2005 REF: CRR 29989 xpradipg // the variable is made local since the scope lies within this function #ifdef FF_MMI_OPTIM T_MFW_SS_RES ss_res; #endif TRACE_FUNCTION("ss_command_info()"); if (cmd->cmdPrm.sCFUN.srcId != CMD_SRC_LCL) return; switch ((int)(cmd->atCmd)) /*a0393213 - typecasting done to avoid lint warning*/ { case KSD_CMD_CB: ss_res.type = ss_cvtSCode((T_ACI_KSD_SS)cmd->cmdPrm.sKSCB.ssCd); ss_res.category = ss_cvtOCode((T_ACI_KSD_OP)cmd->cmdPrm.sKSCB.opCd); if( cmd->cmdPrm.sKSCB.pwd ) strncpy(ss_res.ppn, (char *)cmd->cmdPrm.sKSCB.pwd, MAX_PWD_LEN); else ss_res.ppn[0] = 0; ss_res.pwd[0] = 0; ss_res.bs = cmd->cmdPrm.sKSCB.bsCd; ss_res.time = 0; ss_signal(E_SS_RES, &ss_res); break; case KSD_CMD_CF: ss_res.type = ss_cvtSCode((T_ACI_KSD_SS)cmd->cmdPrm.sKSCF.ssCd); ss_res.category = ss_cvtOCode((T_ACI_KSD_OP)cmd->cmdPrm.sKSCF.opCd); ss_res.ppn[0] = 0; ss_res.pwd[0] = 0; ss_res.bs = cmd->cmdPrm.sKSCF.bsCd; ss_res.time = cmd->cmdPrm.sKSCF.time; ss_signal(E_SS_RES, &ss_res); break; case KSD_CMD_CW: ss_res.type = SS_CW; ss_res.category = ss_cvtOCode((T_ACI_KSD_OP)cmd->cmdPrm.sKSCW.opCd); ss_res.ppn[0] = 0; ss_res.pwd[0] = 0; ss_res.bs = cmd->cmdPrm.sKSCW.bsCd; ss_res.time = 0; ss_signal(E_SS_RES, &ss_res); break; case KSD_CMD_PWD: switch(cmd->cmdPrm.sKSPW.ssCd) { case KSD_SS_CCBS: case KSD_SS_ALL_CBSS: case KSD_SS_BOC: case KSD_SS_BAOC: case KSD_SS_BOIC: case KSD_SS_BOICXH: case KSD_SS_BIC: case KSD_SS_BAIC: case KSD_SS_BICRM: /*NM 190602*/ case KSD_SS_ALL_SERV : ss_res.type = ss_cvtSCode((T_ACI_KSD_SS)cmd->cmdPrm.sKSPW.ssCd); ss_res.category = SS_REGISTRATION; if( cmd->cmdPrm.sKSPW.oldPwd ) strncpy(ss_res.ppn, (char *)cmd->cmdPrm.sKSPW.oldPwd, MAX_PWD_LEN); else ss_res.ppn[0] = 0; if( cmd->cmdPrm.sKSPW.newPwd ) strncpy(ss_res.pwd, (char *)cmd->cmdPrm.sKSPW.newPwd, MAX_PWD_LEN); else ss_res.pwd[0] = 0; ss_res.bs = 0; ss_res.time = 0; ss_signal(E_SS_RES, &ss_res); break; case KSD_SS_PIN1: pwd_flag = 1; sim_pin_ident(MFW_SIM_PIN1); break; case KSD_SS_PIN2: pwd_flag = 1; sim_pin_ident(MFW_SIM_PIN2); break; } break; case KSD_CMD_UBLK: switch(cmd->cmdPrm.sKSPW.ssCd) { case KSD_SS_PIN1: pwd_flag = 1; sim_pin_ident(MFW_SIM_PUK1); break; case KSD_SS_PIN2: pwd_flag = 1; sim_pin_ident(MFW_SIM_PUK2); break; } break; case KSD_CMD_CL: ss_res.type = ss_cvtSCode((T_ACI_KSD_SS)cmd->cmdPrm.sKSCL.ssCd); ss_res.category = ss_cvtOCode((T_ACI_KSD_OP)cmd->cmdPrm.sKSCL.opCd); ss_res.ppn[0] = 0; ss_res.pwd[0] = 0; ss_res.bs = 0; ss_res.time = 0; ss_signal(E_SS_RES, &ss_res); break; case KSD_CMD_USSD: memset(&ussd_info, 0, sizeof(ussd_info)); if( cmd->cmdPrm.sKSUS.ussd ) { ussd_info.len = strlen((char *)cmd->cmdPrm.sKSUS.ussd); strcpy((char*)ussd_info.ussd, (char *)cmd->cmdPrm.sKSUS.ussd); } else ussd_info.ussd[0] = 0; ussd_info.dcs = MFW_ASCII; //PATCH TB 1509 ss_res.type = SS_USSD; ss_res.category = SS_CTG_UNKNOWN; ss_res.ppn[0] = 0; ss_res.pwd[0] = 0; ss_res.bs = 0; ss_res.time = 0; ss_signal(E_SS_RES, &ss_res); //END PATCH TB break; case AT_CMD_CUSD: memset(&ussd_info, 0, sizeof(ussd_info)); ussd_info.len = cmd->cmdPrm.sCUSD.str->len; memcpy((char*)ussd_info.ussd, cmd->cmdPrm.sCUSD.str->data, cmd->cmdPrm.sCUSD.str->len); ussd_info.dcs = (T_MFW_DCS)cmd->cmdPrm.sCUSD.dcs; /* SPR#CQ3204 -JVJ - USSD call back sent to MMI */ ss_res.type = SS_USSD; ss_res.category = SS_CTG_UNKNOWN; ss_res.ppn[0] = 0; ss_res.pwd[0] = 0; ss_res.bs = 0; ss_res.time = 0; ss_signal(E_SS_RES, &ss_res); /* SPR#CQ3204 -JVJ */ break; default: break; } } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE: MFW_SS | | STATE : code ROUTINE: ss_ok_string | +--------------------------------------------------------------------+ PURPOSE : Send of SS string is successful. */ void ss_ok_string(T_ACI_AT_CMD cmdId) { TRACE_FUNCTION("ss_ok_string()"); switch ((int)cmdId) { case KSD_CMD_CB: // Apr 06 2005 REF: CRR 29989 xpradipg // free the allocated memory once the ss_signal() execution is done #ifdef FF_MMI_OPTIM TRACE_EVENT("KSD_CMD_CB"); if(cb_cnf) { ss_signal(E_SS_CB_CNF, cb_cnf); mfwFree((U8*)cb_cnf, sizeof(T_MFW_SS_CB_CNF)); } #else ss_signal(E_SS_CB_CNF, &cb_cnf); #endif break; case KSD_CMD_CF: // Apr 06 2005 REF: CRR 29989 xpradipg #ifdef FF_MMI_OPTIM TRACE_EVENT("KSD_CMD_CF"); if(cf_cnf) { ss_signal(E_SS_CF_CNF, cf_cnf); mfwFree((U8*)cf_cnf, sizeof(T_MFW_SS_CF_CNF)); } #else ss_signal(E_SS_CF_CNF, &cf_cnf); #endif break; case KSD_CMD_CW: // Apr 06 2005 REF: CRR 29989 xpradipg #ifdef FF_MMI_OPTIM TRACE_EVENT("KSD_CMD_CW"); if(cw_cnf) { ss_signal(E_SS_CW_CNF, cw_cnf); mfwFree((U8*)cw_cnf, sizeof(T_MFW_SS_CW_CNF)); } #else ss_signal(E_SS_CW_CNF, &cw_cnf); #endif break; case KSD_CMD_PWD: // Apr 06 2005 REF: CRR 29989 xpradipg #ifdef FF_MMI_OPTIM TRACE_EVENT("KSD_CMD_PW"); if(pw_cnf) { if (!pwd_flag) ss_signal(E_SS_GET_PW, pw_cnf); mfwFree((U8*)pw_cnf,sizeof(T_MFW_SS_PW_CNF)); } #else if (!pwd_flag) ss_signal(E_SS_GET_PW, &pw_cnf); #endif if (pwd_flag == 1) { pwd_flag = 0; sim_ok_cpinc(); } break; case KSD_CMD_UBLK: sim_ss_unblock(SIM_UBLK_OK, CME_ERR_NotPresent); break; case KSD_CMD_CL: // Apr 06 2005 REF: CRR 29989 xpradipg #ifdef FF_MMI_OPTIM TRACE_EVENT("KSD_CMD_CLI"); if(cli_cnf) { ss_signal(E_SS_CLI_CNF,(void*) cli_cnf); mfwFree((U8*)cli_cnf, sizeof(T_MFW_SS_CLI_CNF)); } #else ss_signal(E_SS_CLI_CNF,&cli_cnf); #endif break; case KSD_CMD_IMEI: // Apr 06 2005 REF: CRR 29989 xpradipg #ifdef FF_MMI_OPTIM if( imei_info) { imei_info->error = MFW_SS_NO_ERROR; ss_signal(E_SS_IMEI, imei_info); mfwFree((U8*)imei_info,sizeof(T_MFW_IMEI)); } #else imei_info.error = MFW_SS_NO_ERROR; ss_signal(E_SS_IMEI, &imei_info); #endif break; default: break; } } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE: MFW_SS | | STATE : code ROUTINE: ss_error_string | +--------------------------------------------------------------------+ PURPOSE : Send of SS string is failed. */ void ss_error_string(T_ACI_AT_CMD cmdId, T_ACI_CME_ERR reason) { TRACE_FUNCTION("ss_error_string()"); switch ((int)cmdId) { case KSD_CMD_CB: // Apr 06 2005 REF: CRR 29989 xpradipg // deallocation occurs either in ok/ error since the response is always is // either one of them #ifdef FF_MMI_OPTIM TRACE_EVENT("KSD_CMD_CB"); if(cb_cnf) { ss_signal(E_SS_CB_CNF, cb_cnf); mfwFree((U8*)cb_cnf,sizeof(T_MFW_SS_CB_CNF)); } #else ss_signal(E_SS_CB_CNF, &cb_cnf); #endif break; case KSD_CMD_CF: // Apr 06 2005 REF: CRR 29989 xpradipg #ifdef FF_MMI_OPTIM TRACE_EVENT("KSD_CMD_CF"); if(cf_cnf) { ss_signal(E_SS_CF_CNF, cf_cnf); mfwFree((U8*)cf_cnf,sizeof(T_MFW_SS_CF_CNF)); TRACE_FUNCTION("memory freed for cf_cnf"); } #else ss_signal(E_SS_CF_CNF, &cf_cnf); #endif break; case KSD_CMD_CW: // Apr 06 2005 REF: CRR 29989 xpradipg #ifdef FF_MMI_OPTIM TRACE_EVENT("KSD_CMD_CW"); if(cw_cnf) { ss_signal(E_SS_CW_CNF, cw_cnf); mfwFree((U8*)E_SS_CW_CNF,sizeof(T_MFW_SS_CW_CNF)); } #else ss_signal(E_SS_CW_CNF, &cw_cnf); #endif break; case KSD_CMD_PWD: // Apr 06 2005 REF: CRR 29989 xpradipg #ifdef FF_MMI_OPTIM TRACE_EVENT("KSD_CMD_PW"); if(pw_cnf) { if (!pwd_flag) ss_signal(E_SS_GET_PW, pw_cnf); mfwFree((U8*)pw_cnf,sizeof(T_MFW_SS_PW_CNF)); } #else if (!pwd_flag) ss_signal(E_SS_GET_PW, &pw_cnf); #endif if (pwd_flag == 1) { pwd_flag = 0; sim_error_cpinc(); } break; case KSD_CMD_UBLK: sim_ss_unblock(SIM_UBLK_ERROR, reason); break; case KSD_CMD_CL: // Apr 06 2005 REF: CRR 29989 xpradipg #ifdef FF_MMI_OPTIM TRACE_EVENT("KSD_CMD_CLI"); if(cli_cnf) { ss_signal(E_SS_CLI_CNF, cli_cnf); mfwFree((U8*)cli_cnf,sizeof(T_MFW_SS_CLI_CNF)); } #else ss_signal(E_SS_CLI_CNF,&cli_cnf); #endif case KSD_CMD_IMEI: // Apr 06 2005 REF: CRR 29989 xpradipg #ifdef FF_MMI_OPTIM if( imei_info) { imei_info->error = MFW_SS_ERROR; ss_signal(E_SS_IMEI, imei_info); mfwFree((U8*)imei_info,sizeof(T_MFW_IMEI)); } #else imei_info.error = MFW_SS_ERROR; ss_signal(E_SS_IMEI, &imei_info); #endif break; default: break; } } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE: MFW_SS | | STATE : code ROUTINE: ss_set_clck | +--------------------------------------------------------------------+ PURPOSE : This function execute the facility lock command. */ /*a0393213 warnings removal - T_ACI_CLCK_FAC changed to T_ACI_FAC as a result of ACI enum change*/ T_MFW ss_set_clck(T_ACI_FAC fac, T_ACI_CLCK_MOD mode, CHAR *passwd, T_ACI_CLASS class_type, UBYTE modul) { TRACE_EVENT("ss_set_clck()"); clck_flag = modul; if (sAT_PlusCLCK(CMD_SRC_LCL, fac,mode, passwd, class_type) != AT_EXCT) return MFW_SS_FAIL; return MFW_SS_OK; } /* +--------------------------------------------------------------------+ | PROJECT : MMI-Framework (8417) MODULE : MFW_SS | | STATE : code ROUTINE : ss_ok_clck | +--------------------------------------------------------------------+ PURPOSE : The executing of the facility lock command is successful. */ void ss_ok_clck() { TRACE_FUNCTION("ss_ok_clck()"); switch (clck_flag) { case MFW_PHB: phb_ok_clck(); break; case MFW_SIM_CPIND: sim_ok_cpind(); break; case MFW_SIM_CPINE: sim_ok_cpine(); break; } clck_flag = MFW_MODUL_UNKNOWN; } /* +--------------------------------------------------------------------+ | PROJECT : MMI-Framework (8417) MODULE : MFW_SS | | STATE : code ROUTINE : ss_error_clck | +--------------------------------------------------------------------+ PURPOSE : The executing of the facility lock command is failed. */ void ss_error_clck() { TRACE_FUNCTION("ss_error_clck()"); switch (clck_flag) { case MFW_PHB: phb_error_clck(); break; case MFW_SIM_CPIND: sim_error_cpind(); break; case MFW_SIM_CPINE: sim_error_cpine(); break; } clck_flag = MFW_MODUL_UNKNOWN; } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE: MFW_DMY | | STATE : code ROUTINE: ss_send_ussd | +--------------------------------------------------------------------+ PURPOSE : Send USSD string. Note: ASCII is not allowed to use. */ T_MFW ss_send_ussd(T_MFW_SS_USSD *ussd_info) { T_ACI_USSD_DATA str; T_ACI_RETURN res; TRACE_FUNCTION("ss_send_ussd()"); if (!ussd_info->len OR !ussd_info->ussd) return MFW_SS_FAIL; if (ussd_info->dcs == MFW_ASCII) return MFW_SS_FAIL; if (ussd_info->len > MAX_USSD_LEN) { str.len = MAX_USSD_LEN; memcpy(str.data, ussd_info->ussd, MAX_USSD_LEN); } else { str.len = ussd_info->len; memcpy(str.data, ussd_info->ussd, ussd_info->len); } res = sAT_PlusCUSD(CMD_SRC_LCL, &str, (SHORT)ussd_info->dcs); if ((res != AT_EXCT) AND (res != AT_CMPL)) return MFW_SS_FAIL; return MFW_SS_OK; } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE: MFW_DMY | | STATE : code ROUTINE: rAT_PlusCUSD | +--------------------------------------------------------------------+ PURPOSE : Notify or response for USSD from ACI */ void rAT_PlusCUSD(T_ACI_CUSD_MOD m, T_ACI_USSD_DATA *ussd, SHORT dcs) { TRACE_FUNCTION("rAT_PlusCUSD()"); //Dec 16, 2005 OMAPS00053316 x0018858 //Added the NullCheck to ensure that we dont access the elements when the pointer is NULL. //Begin OMAPS00053316 if(ussd != NULL) { ussd_info.len = ussd->len; memcpy(ussd_info.ussd, ussd->data, sizeof(ussd_info.ussd)); } else { ussd_info.len = 0; memset(ussd_info.ussd, 0x00, sizeof(ussd_info.ussd)); } //End OMAPS00053316 ussd_info.dcs = (T_MFW_DCS)dcs; if (m==CUSD_MOD_TerminatedByNetwork || m== CUSD_MOD_OperationNotSupported || m==CUSD_MOD_NetworkTimeout) ussd_info.error = MFW_SS_ERROR; else ussd_info.error = MFW_SS_NO_ERROR; /* Jun 30, 2006 REF : OMAPS00083503 R.Prabakar Description : When USSD string is sent, MMI shows requesting screen forever Solution : Some cases in rAT_PlusCUSD weren't handled. They are handled now*/ if (m == CUSD_MOD_YesActReq) ss_signal(E_SS_USSD_REQ, &ussd_info); if (m == CUSD_MOD_NoActReq || m==CUSD_MOD_TerminatedByNetwork || m== CUSD_MOD_OperationNotSupported || m==CUSD_MOD_NetworkTimeout) ss_signal(E_SS_USSD_CNF, &ussd_info); } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE: MFW_DMY | | STATE : code ROUTINE: ss_ok_ussd | +--------------------------------------------------------------------+ PURPOSE : USSD process is successful. */ void ss_ok_ussd(T_ACI_AT_CMD cmdId) { TRACE_FUNCTION("ss_ok_ussd()"); if (cmdId == (T_ACI_AT_CMD)KSD_CMD_USSD) /*a0393213 typecast done to remove lint warning*/ { ussd_info.error = MFW_SS_NO_ERROR; ss_signal(E_SS_USSD_CNF, &ussd_info); } } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE: MFW_SS | | STATE : code ROUTINE: ss_error_ussd | +--------------------------------------------------------------------+ PURPOSE : USSD process is failed. */ void ss_error_ussd(T_ACI_AT_CMD cmdId, T_ACI_CME_ERR reason) { TRACE_FUNCTION("ss_error_ussd()"); // ussd_info.error = ss_cvtErrCode(reason); ss_signal(E_SS_USSD_CNF, &ussd_info); } /* +---------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE: MFW_SS | | STATE : code ROUTINE: ss_abort_transaction | +---------------------------------------------------------------------+ PURPOSE : Abort executing of SS transaction */ T_MFW ss_abort_transaction(void) { TRACE_FUNCTION("ss_abort_transaction()"); if (sAT_Abort(CMD_SRC_LCL, AT_CMD_CUSD) EQ AT_CMPL) return TRUE; else { if (sAT_Abort(CMD_SRC_LCL, AT_CMD_D) EQ AT_CMPL) return TRUE; } return FALSE; } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE: MFW_SS | | STATE : code ROUTINE: ss_set_cug | +--------------------------------------------------------------------+ PURPOSE : set parameter of close user group */ T_MFW_SS_RETURN ss_set_cug (T_MFW_SS_CUG_PARA *cug_param) { T_ACI_CCUG_MOD cug_mode = CCUG_MOD_NotPresent; T_ACI_CCUG_IDX cug_index = CCUG_IDX_NotPresent; T_ACI_CCUG_INFO cug_info = CCUG_INFO_NotPresent; TRACE_FUNCTION("ss_set_cug()"); /* check cug mode */ switch(cug_param->mode) { case MFW_SS_CUG_TMP_DISABLE: cug_mode = CCUG_MOD_DisableTmp; break; case MFW_SS_CUG_TMP_ENABLE: cug_mode = CCUG_MOD_EnableTmp; /* enable to control cug info */ break; default: /* ACI keep last valid value */ break; } /* check cug index */ switch(cug_param->index) { case MFW_SS_CUG_INDEX0: cug_index = CCUG_IDX_0; break; case MFW_SS_CUG_INDEX1: cug_index = CCUG_IDX_1; break; case MFW_SS_CUG_INDEX2: cug_index = CCUG_IDX_2; break; case MFW_SS_CUG_INDEX3: cug_index = CCUG_IDX_3; break; case MFW_SS_CUG_INDEX4: cug_index = CCUG_IDX_4; break; case MFW_SS_CUG_INDEX5: cug_index = CCUG_IDX_5; break; case MFW_SS_CUG_INDEX6: cug_index = CCUG_IDX_6; break; case MFW_SS_CUG_INDEX7: cug_index = CCUG_IDX_7; break; case MFW_SS_CUG_INDEX8: cug_index = CCUG_IDX_8; break; case MFW_SS_CUG_INDEX9: cug_index = CCUG_IDX_9; break; case MFW_SS_CUG_NO_INDEX: cug_index = CCUG_IDX_No; /* preferred CUG taken from subscriber data */ break; default: /* ACI keep last valid value */ break; } /* check cug info */ switch(cug_param->info) { case MFW_SS_CUG_SUPP_OA: cug_info = CCUG_INFO_SuppOa; /* suppress outgoing access */ break; case MFW_SS_CUG_SUPP_PREF: cug_info = CCUG_INFO_SuppPrefCug; /* suppress preferential closed user group */ break; case MFW_SS_CUG_SUPP_BOTH: cug_info = CCUG_INFO_SuppBoth; /* suppress outgoing access and preferential cug */ break; case MFW_SS_CUG_INFO_NO: /* no cug info */ cug_info = CCUG_INFO_No; break; default: /* ACI keep last valid value */ break; } if(sAT_PlusCCUG(CMD_SRC_LCL,cug_mode,cug_index,cug_info) EQ AT_CMPL) /* set in ACI cug parameters */ return MFW_SS_OK; else return MFW_SS_FAIL; } /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE: MFW_SS | | STATE : code ROUTINE: ss_get_cug | +--------------------------------------------------------------------+ PURPOSE : get parameter of close user group */ T_MFW_SS_RETURN ss_get_cug(T_MFW_SS_CUG_PARA *cug_param) { T_ACI_CCUG_MOD cug_mode; T_ACI_CCUG_IDX cug_index; T_ACI_CCUG_INFO cug_info; cug_param->mode = MFW_SS_CUG_MODE_Not_Present; cug_param->index = MFW_SS_CUG_INDEX_Not_Present; cug_param->info = MFW_SS_CUG_INFO_Not_Present; TRACE_FUNCTION("ss_get_cug()"); if(qAT_PlusCCUG(CMD_SRC_LCL,&cug_mode,&cug_index,&cug_info) NEQ AT_CMPL) /* get cug parameters of ACI */ return MFW_SS_FAIL; else { cug_param->mode = (T_MFW_SS_CUG_MODE)cug_mode; cug_param->index = (T_MFW_SS_CUG_INDEX)cug_index; cug_param->info = (T_MFW_SS_CUG_INFO)cug_info; return MFW_SS_OK; } } //PATCH TB 1309 /* +--------------------------------------------------------------------+ | PROJECT: MMI-Framework (8417) MODULE: MFW_SS | | STATE : code ROUTINE: ss_command_abort | +--------------------------------------------------------------------+ PURPOSE : */ T_MFW ss_command_abort(void) { TRACE_FUNCTION ("ss_command_abort()"); // Abort SS transaction. // Any SS AT_CMD will clear all SS (any) transaction(s) if (sAT_Abort(CMD_SRC_LCL, AT_CMD_CUSD) == AT_CMPL) return TRUE; else return FALSE; } //END PATCH TB //CQ-16432 start void ss_sat_passwdReqd(T_ACI_AT_CMD cmdId, T_ACI_CME_ERR err) { TRACE_FUNCTION("ss_sat_passwdReqd"); ss_signal(E_SS_SAT_CPWD,&cmdId); return; } //CQ-16432 end