FreeCalypso > hg > fc-tourmaline
view src/g23m-aci/aci/psa_satf.c @ 75:8697f358f505
backlight rework: Condat light driver accepts levels
The present change is another intermediate step on the path toward
new FreeCalypso backlight handling. At this intermediate step the
Condat light driver accepts 0-255 backlight levels driven by MFW,
and puts them out on PWL on Luna development boards. At the same
time on C139 it is now possible to turn on the display backlight
with or without the keypad bl - the lsb of the 0-255 backlight level
controls the keypad bl.
MFW presently drives only 0 and 255 backlight levels, thus there is
no visible behavioral change yet - but the plan for subsequent stages
of this backlight rework is to add a dimmed backlight state
(no keypad bl on C139) during active calls.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Sat, 24 Oct 2020 20:44:04 +0000 |
parents | fa8dc04885d8 |
children |
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/* +----------------------------------------------------------------------------- | Project : GSM-PS (6147) | Modul : PSA_SATF +----------------------------------------------------------------------------- | Copyright 2002 Texas Instruments Berlin, AG | All rights reserved. | | This file is confidential and a trade secret of Texas | Instruments Berlin, AG | The receipt of or possession of this file does not convey | any rights to reproduce or disclose its contents or to | manufacture, use, or sell anything it may describe, in | whole, or in part, without the specific written consent of | Texas Instruments Berlin, AG. +----------------------------------------------------------------------------- | Purpose : This module defines the functions for the protocol | stack adapter for the SIM application toolkit. +----------------------------------------------------------------------------- */ #ifdef SIM_TOOLKIT #ifndef PSA_SATF_C #define PSA_SATF_C #endif #include "aci_all.h" /*==== INCLUDES ===================================================*/ #include "aci_cmh.h" #include "aci_mem.h" #ifdef GPRS #include "gaci_cmh.h" #endif #ifdef FAX_AND_DATA #include "aci_fd.h" #endif /* of #ifdef FAX_AND_DATA */ #include "aci.h" #include "psa.h" #include "psa_cc.h" #include "psa_sat.h" #include "psa_util.h" #include "cmh.h" #include "cmh_sat.h" #include "psa_mm.h" #include "psa_ss.h" #include "psa_sim.h" #include "cmh_cc.h" #include "ksd.h" /*==== CONSTANTS ==================================================*/ #define ITM_WDT (14) /* item width in chars */ #define HDR_WDT (10) /* header width in chars */ /*==== TYPES ======================================================*/ /*==== EXPORT =====================================================*/ /*==== VARIABLES ==================================================*/ LOCAL UBYTE ssResPrms[MAXIMUM( sizeof(BUF_res_params_sat), MAXIMUM(sizeof(BUF_rej_params_sat), sizeof(BUF_err_params_sat)))]; /*==== FUNCTIONS ==================================================*/ LOCAL void psaSAT_getTonNpi(CHAR *inSeq, BOOL call_active, UBYTE *ton, UBYTE *npi); /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : SAT | | ROUTINE : psaSAT_BuildEnvCC | +-------------------------------------------------------------------+ PURPOSE : Build envelope call control command. */ GLOBAL void psaSAT_BuildEnvCC ( SHORT cId, T_CLPTY_PRM *ss_cldPty, T_sat_ussd *ussd, T_MNCC_bcconf *ccp1, T_MNCC_bcconf *ccp2) { T_CC_CALL_TBL *pCtbNtry = ccShrdPrm.ctb[cId]; UBYTE ton; UBYTE npi; /* *------------------------------------------------------------------- * build envelope call control command *------------------------------------------------------------------- */ { MCAST( env, ENV_CMD ); memset( env, 0, sizeof( T_ENV_CMD )); env->v_cc_cmd = TRUE; /* device identities */ env->cc_cmd.v_dev_ids = TRUE; env->cc_cmd.dev_ids.src_dev = DEV_SRC_ME; env->cc_cmd.dev_ids.dest_dev = DEV_DST_SIM; if( cId NEQ NO_ENTRY ) { /* address */ env->cc_cmd.v_addr = TRUE; if( (pCtbNtry->SATinv & SAT_REDIAL_ECCBE) AND (rdlPrm.rdlState) ) { memcpy(&env->cc_cmd.addr, &satRdlCCEnv.addr, sizeof(T_addr)); } else { /* address */ env->cc_cmd.addr.v_noa = TRUE; env->cc_cmd.addr.noa = pCtbNtry->cldPty.ton; env->cc_cmd.addr.v_npi = TRUE; env->cc_cmd.addr.npi = pCtbNtry->cldPty.npi; env->cc_cmd.addr.c_bcdDigit = pCtbNtry->cldPty.c_called_num; memcpy( env->cc_cmd.addr.bcdDigit, pCtbNtry->cldPty.called_num, pCtbNtry->cldPty.c_called_num ); } #ifdef SIM_TOOLKIT if ( !rdlPrm.rdlState ) { memcpy(&satRdlCCEnv.addr, &env->cc_cmd.addr, sizeof(T_addr)); } #endif /* capability configuration parameters 1*/ if( ccp1 ) { env->cc_cmd.v_cap_cnf_parms = TRUE; env->cc_cmd.cap_cnf_parms.l_cap_cnf_parms = ccp1->bc_len<<3; memcpy( env->cc_cmd.cap_cnf_parms.b_cap_cnf_parms, ccp1->bc, ccp1->bc_len ); } /* capability configuration parameters 2*/ if( ccp2 ) { env->cc_cmd.v_cap_cnf_parms_2 = TRUE; env->cc_cmd.cap_cnf_parms_2.l_cap_cnf_parms_2 = ccp2->bc_len<<3; memcpy( env->cc_cmd.cap_cnf_parms_2.b_cap_cnf_parms_2, ccp2->bc, ccp2->bc_len ); } /* If ccp is present in the setUpCall */ if ((satShrdPrm.capParm.cntxt EQ CTX_SAT_SETUP) AND satShrdPrm.stk_ccp.l_cap_cnf_parms ) { env->cc_cmd.v_cap_cnf_parms = TRUE; /* Storing the ccp if ECCBE is enabled */ if( (ccShrdPrm.ctb[cId]->SATinv & SAT_REDIAL_ECCBE) AND (rdlPrm.rdlState) ) { memcpy(&env->cc_cmd.cap_cnf_parms, &satRdlCCEnv.ccp, sizeof(BUF_cap_cnf_parms)); } else { env->cc_cmd.cap_cnf_parms.l_cap_cnf_parms = satShrdPrm.stk_ccp.l_cap_cnf_parms; memcpy( env->cc_cmd.cap_cnf_parms.b_cap_cnf_parms, &satShrdPrm.stk_ccp.b_cap_cnf_parms, satShrdPrm.stk_ccp.l_cap_cnf_parms ); } #ifdef SIM_TOOLKIT if ( !rdlPrm.rdlState ) { memcpy( &satRdlCCEnv.ccp, &env->cc_cmd.cap_cnf_parms, sizeof(BUF_cap_cnf_parms)); } #endif } /* subaddress */ if( pCtbNtry->cldPtySub.c_subaddr ) { env->cc_cmd.v_subaddr = TRUE; if( (pCtbNtry->SATinv & SAT_REDIAL_ECCBE) AND (rdlPrm.rdlState) ) { memcpy( &env->cc_cmd.subaddr, &satRdlCCEnv.sub_addr, sizeof(T_subaddr) ); } else { env->cc_cmd.subaddr.v_tos = TRUE; env->cc_cmd.subaddr.tos = pCtbNtry->cldPtySub.tos; env->cc_cmd.subaddr.v_oei = TRUE; env->cc_cmd.subaddr.oei = pCtbNtry->cldPtySub.odd_even; env->cc_cmd.subaddr.c_subadr_str = pCtbNtry->cldPtySub.c_subaddr; memcpy( env->cc_cmd.subaddr.subadr_str, pCtbNtry->cldPtySub.subaddr, pCtbNtry->cldPtySub.c_subaddr ); } #ifdef SIM_TOOLKIT if ( !rdlPrm.rdlState ) { memcpy( &satRdlCCEnv.sub_addr, &env->cc_cmd.subaddr, sizeof(T_subaddr)); } #endif } } else if( ss_cldPty NEQ NULL ) { /* SS string */ env->cc_cmd.v_ss_string = TRUE; psaSAT_getTonNpi(ss_cldPty->num, FALSE, &ton, &npi); env->cc_cmd.ss_string.v_noa = TRUE; env->cc_cmd.ss_string.noa = ton; env->cc_cmd.ss_string.v_npi = TRUE; env->cc_cmd.ss_string.npi = npi; env->cc_cmd.ss_string.c_ss_ctrl_string = (UBYTE)utl_dialStr2BCD (ss_cldPty->num, /*ssStr,*/ env->cc_cmd.ss_string.ss_ctrl_string, MAX_SS_STRING_LEN); } else if( ussd NEQ NULL ) { /* USSD string */ env->cc_cmd.v_ussd_string = TRUE; env->cc_cmd.ussd_string.dcs = ussd->dcs; env->cc_cmd.ussd_string.c_ussd_str = MINIMUM (ussd->c_ussd_str, MAX_SAT_USSD_LEN); memcpy( env->cc_cmd.ussd_string.ussd_str, ussd->ussd_str, env->cc_cmd.ussd_string.c_ussd_str); } /* location information */ /* code MCC */ env->cc_cmd.cc_smc_loc_info.mnc_mcc |= ((mmShrdPrm.usedPLMN.mcc[1]<<4) + mmShrdPrm.usedPLMN.mcc[0]) <<16; env->cc_cmd.cc_smc_loc_info.mnc_mcc |= ((mmShrdPrm.usedPLMN.mnc[2]<<4) + mmShrdPrm.usedPLMN.mcc[2]) << 8; /* code MNC */ env->cc_cmd.cc_smc_loc_info.mnc_mcc |= (mmShrdPrm.usedPLMN.mnc[1]<<4)+mmShrdPrm.usedPLMN.mnc[0]; /* code LAC */ env->cc_cmd.cc_smc_loc_info.lac = mmShrdPrm.lac; /* code CID */ env->cc_cmd.cc_smc_loc_info.cid = mmShrdPrm.cid; env->cc_cmd.v_cc_smc_loc_info = TRUE; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : psa_sat | | STATE : code ROUTINE : psaSAT_getTonNpi | +--------------------------------------------------------------------+ PURPOSE : Get TON and NPI. The SS string in inSeq will be decoded to check if it contains a phone number. If SS String contains a number, its TON and NPI will be returned. Otherwise TON and NPI will be set to FF as required in GSM 11.14/GSM 11.11. */ LOCAL void psaSAT_getTonNpi(CHAR *inSeq, BOOL call_active, UBYTE *ton, UBYTE *npi) { T_KSD_SEQGRP grp; CHAR *rest; T_KSD_SEQPARAM para; CHAR seq[MAX_DIAL_LEN]; *ton = MNCC_TON_NOT_PRES; *npi = MNCC_NPI_NOT_PRES; strcpy(seq, inSeq); /* decode sequence */ ksd_decode(seq, call_active, &grp, &rest, ¶); /* analyse TON and NPI */ switch( grp ) { case SEQGRP_CF: if ( (para.cf.num NEQ NULL) AND (para.cf.num[0] NEQ 0) ) { *ton = para.cf.ton; *npi = para.cf.npi; } break; case SEQGRP_DIAL: if ( ( para.dial.number NEQ NULL ) AND ( para.dial.number[0] EQ 0 ) ) { if ( para.dial.number[0] EQ '+' ) { *ton = TON_International; } else { *ton = TON_Unknown; } *npi = NPI_IsdnTelephony; } break; #ifdef SMI case SEQGRP_SET_ABBR_DIAL: if ( (para.abbrDial.number NEQ NULL) AND ( para.abbrDial.number[0] EQ 0 ) ) { if ( para.abbrDial.number[0] EQ '+' ) { *ton = TON_International; } else { *ton = TON_Unknown; } *npi = NPI_IsdnTelephony; } break; #endif /* SMI */ default: /* Sequence group does not contain number. TON and NPI still set to FF */ break; } } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : SAT | | ROUTINE : psaSAT_BuildEnvCB | +-------------------------------------------------------------------+ PURPOSE : Build envelope cell broadcast data download command. */ GLOBAL void psaSAT_BuildEnvCB ( UBYTE *cbMsg, SHORT cbLen ) { /* *------------------------------------------------------------------- * build envelope cell broadcast data download command *------------------------------------------------------------------- */ { MCAST( env, ENV_CMD ); memset( env, 0, sizeof( T_ENV_CMD )); env->v_cbd_cmd = TRUE; /* device identities */ env->cbd_cmd.v_dev_ids = TRUE; env->cbd_cmd.dev_ids.src_dev = DEV_SRC_NTW; env->cbd_cmd.dev_ids.dest_dev = DEV_DST_SIM; /* CB message */ env->cbd_cmd.v_cb_page = TRUE; env->cbd_cmd.cb_page.l_cb_page = cbLen<<3; env->cbd_cmd.cb_page.o_cb_page = 0; memcpy( env->cbd_cmd.cb_page.b_cb_page, cbMsg, cbLen ); } } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : SAT | | ROUTINE : psaSAT_BuildEnvMoSmCntr | +-------------------------------------------------------------------+ PURPOSE : Build envelope cell broadcast data download command. */ GLOBAL void psaSAT_BuildEnvMoSmCntr ( T_rp_addr sc_addr, T_tp_da dest_addr ) { /* *------------------------------------------------------------------- * build envelope *------------------------------------------------------------------- */ { MCAST( env, ENV_CMD ); memset( env, 0, sizeof( T_ENV_CMD )); env->v_smc_cmd = TRUE; /* device identities */ env->smc_cmd.v_dev_ids = TRUE; env->smc_cmd.dev_ids.src_dev = DEV_DST_ME; env->smc_cmd.dev_ids.dest_dev = DEV_DST_SIM; /* short message address */ env->smc_cmd.v_sm_addr = TRUE; env->smc_cmd.sm_addr.v_noa = TRUE; env->smc_cmd.sm_addr.noa = sc_addr.ton; env->smc_cmd.sm_addr.v_npi = TRUE; env->smc_cmd.sm_addr.npi = sc_addr.npi; env->smc_cmd.sm_addr.c_bcdDigit = sc_addr.c_num; memcpy(&(env->smc_cmd.sm_addr.bcdDigit[0]), &(sc_addr.num[0]), sc_addr.c_num /*MAX_SMS_DIGIT_LEN*/); /* address 2 */ env->smc_cmd.v_sm_addr_2 = TRUE; env->smc_cmd.sm_addr_2.v_noa = TRUE; env->smc_cmd.sm_addr_2.noa = dest_addr.ton; env->smc_cmd.sm_addr_2.v_npi = TRUE; env->smc_cmd.sm_addr_2.npi = dest_addr.npi; env->smc_cmd.sm_addr_2.c_bcdDigit = dest_addr.c_num; memcpy(&(env->smc_cmd.sm_addr_2.bcdDigit[0]), &(dest_addr.num[0]), dest_addr.c_num /*MAX_SMS_DIGIT_LEN*/); /* location information */ /* code MCC */ env->smc_cmd.cc_smc_loc_info.mnc_mcc |= ((mmShrdPrm.usedPLMN.mcc[1]<<4) + mmShrdPrm.usedPLMN.mcc[0]) <<16; env->smc_cmd.cc_smc_loc_info.mnc_mcc |= ((mmShrdPrm.usedPLMN.mnc[2]<<4) + mmShrdPrm.usedPLMN.mcc[2]) << 8; /* code MNC */ env->smc_cmd.cc_smc_loc_info.mnc_mcc |= (mmShrdPrm.usedPLMN.mnc[1]<<4)+mmShrdPrm.usedPLMN.mnc[0]; /* code LAC */ env->smc_cmd.cc_smc_loc_info.lac = mmShrdPrm.lac; /* code CID */ env->smc_cmd.cc_smc_loc_info.cid = mmShrdPrm.cid; env->smc_cmd.v_cc_smc_loc_info = TRUE; } } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : SAT | | ROUTINE : psaSAT_BuildEnvEventDwn | +-------------------------------------------------------------------+ PURPOSE : Build envelope event download command. */ GLOBAL BOOL psaSAT_BuildEnvEventDwn ( UBYTE event, SHORT callId, T_CC_INITIATER actionSrc ) { T_CC_CALL_TBL * pCtbNtry; /* holds pointer to call table entry */ BOOL MT_flag; UBYTE trans_id = 0xFF; UBYTE ti_flag = 0xFF; /* lint: initialization warning */ TRACE_FUNCTION("psaSAT_BuildEnvEventDwn()"); pCtbNtry = ccShrdPrm.ctb[callId]; /* *------------------------------------------------------------------- * build envelope *------------------------------------------------------------------- */ { MCAST( env, ENV_CMD ); memset( env, 0, sizeof( T_ENV_CMD )); env->v_evd_cmd = TRUE; /* event */ env->evd_cmd.v_ev_list = TRUE; env->evd_cmd.ev_list.c_event = 1; env->evd_cmd.ev_list.event[0] = event; /* device identities */ env->evd_cmd.v_dev_ids = TRUE; env->evd_cmd.dev_ids.dest_dev = DEV_DST_SIM; switch( actionSrc ) { case( NEAR_END ): env->evd_cmd.dev_ids.src_dev = DEV_SRC_ME; break; case( FAR_END ): env->evd_cmd.dev_ids.src_dev = DEV_SRC_NTW; break; default: env->evd_cmd.v_dev_ids = FALSE; } if ( event EQ EVENT_MT_CALL OR event EQ EVENT_CALL_CONN OR event EQ EVENT_CALL_DISC ) { /* process ti identifier */ env->evd_cmd.v_ti_list = TRUE; env->evd_cmd.ti_list.c_ti_oct = 1; MT_flag = pCtbNtry -> ti & 0x08; /* TRUE if MS terminated transaction */ trans_id = ( pCtbNtry -> ti) & 0x07; /* see GSM 04.07 ?1.2.3.1.3 */ } switch( event ) { case( EVENT_MT_CALL ): /* ti identifier */ /* MNCC_SETUP_IND means message sent from the side that originated the TI */ env->evd_cmd.ti_list.ti_oct[0].ti = /*lint -e(644) */ trans_id; /* address */ if (pCtbNtry->clgPty.c_num NEQ 0) { env->evd_cmd.v_addr = TRUE; env->evd_cmd.addr.v_noa = TRUE; env->evd_cmd.addr.noa = pCtbNtry->clgPty.ton; env->evd_cmd.addr.v_npi = TRUE; env->evd_cmd.addr.npi = pCtbNtry->clgPty.npi; env->evd_cmd.addr.c_bcdDigit = pCtbNtry->clgPty.c_num; memcpy(&(env->evd_cmd.addr.bcdDigit[0]), &(pCtbNtry->clgPty.num[0]), pCtbNtry->clgPty.c_num); } /* called party subaddress */ if (pCtbNtry->clgPtySub.c_subaddr NEQ 0) { env->evd_cmd.v_subaddr = TRUE; env->evd_cmd.subaddr.v_tos = TRUE; env->evd_cmd.subaddr.tos = pCtbNtry -> clgPtySub.tos; env->evd_cmd.subaddr.v_oei = TRUE; env->evd_cmd.subaddr.oei = pCtbNtry -> clgPtySub.odd_even; env->evd_cmd.subaddr.c_subadr_str = pCtbNtry->clgPtySub.c_subaddr; memcpy(&(env->evd_cmd.subaddr.subadr_str[0]), &(pCtbNtry->clgPtySub.subaddr[0]), pCtbNtry->clgPtySub.c_subaddr); } break; case( EVENT_CALL_CONN ): /* ti identifier */ /* MNCC_SETUP_CNF context with MO Call or: MNCC_SETUP_RES context with MT Call means: message sent to the side that originates the TI */ ti_flag = 0x08; env->evd_cmd.ti_list.ti_oct[0].ti = trans_id | ti_flag; break; case( EVENT_CALL_DISC ): /* ti identifier */ /* means: message sent to the side that originates the TI */ switch (actionSrc) { case( NEAR_END ): /* MNCC_REJ_IND / MNCC_DISC_REQ / MNCC_REL_REQ */ if ( /*lint -e(644) */ MT_flag ) ti_flag = 0x08; else ti_flag = 0x00; break; case( FAR_END ): /* MNCC_DISC_IND / MNCC_REL_IND / MNCC_REL_REQ */ if ( MT_flag ) ti_flag = 0x00; else ti_flag = 0x08; break; } env->evd_cmd.ti_list.ti_oct[0].ti = trans_id | ti_flag; /* Cause */ env->evd_cmd.v_cause = TRUE; if (pCtbNtry -> numRawCauseBytes EQ 0) { if (GET_CAUSE_VALUE(pCtbNtry -> rejCs) NEQ NOT_PRESENT_8BIT) /* radio-link failure */ { env->evd_cmd.cause.c_cs = 0; } else { if (GET_CAUSE_VALUE(pCtbNtry -> nrmCs) NEQ NOT_PRESENT_8BIT) { env->evd_cmd.cause.c_cs = 2; /*Location is user : 0 and coding standard defined for the GSM PLMNS : 3 */ env->evd_cmd.cause.cs[0] =0xE0; env->evd_cmd.cause.cs[1] = GET_CAUSE_VALUE(pCtbNtry -> nrmCs) |0x80 ; } else { env->evd_cmd.v_cause = FALSE; } } } else { env->evd_cmd.cause.c_cs = pCtbNtry -> numRawCauseBytes; memcpy( env->evd_cmd.cause.cs, pCtbNtry -> rawCauseBytes, pCtbNtry -> numRawCauseBytes ); } break; case( EVENT_LOC_STATUS ): env->evd_cmd.v_loc_state = TRUE; switch( satShrdPrm.locInfo.regStatus ) { case( NO_VLD_RS ): env->evd_cmd.v_loc_state = FALSE; break; case( RS_NO_SRV ): env->evd_cmd.loc_state = 0x02; break; case( RS_LMTD_SRV ): env->evd_cmd.loc_state = 0x01; break; case( RS_FULL_SRV ): env->evd_cmd.loc_state = 0x00; /*--------------------------------------------------- only in this case would location info be included ----------------------------------------------------*/ /* location information */ /* code MCC */ env->evd_cmd.cc_smc_loc_info.mnc_mcc |= ((satShrdPrm.locInfo.currPLMN.mcc[1]<<4) + satShrdPrm.locInfo.currPLMN.mcc[0]) <<16; env->evd_cmd.cc_smc_loc_info.mnc_mcc |= ((satShrdPrm.locInfo.currPLMN.mnc[2]<<4) + satShrdPrm.locInfo.currPLMN.mcc[2]) << 8; /* code MNC */ env->evd_cmd.cc_smc_loc_info.mnc_mcc |= (satShrdPrm.locInfo.currPLMN.mnc[1]<<4)+satShrdPrm.locInfo.currPLMN.mnc[0]; /* code LAC */ env->evd_cmd.cc_smc_loc_info.lac = satShrdPrm.locInfo.lac; /* code CID */ env->evd_cmd.cc_smc_loc_info.cid = satShrdPrm.locInfo.cid; env->evd_cmd.v_cc_smc_loc_info = TRUE; break; } break; #ifdef FF_SAT_E case( EVENT_CHAN_STAT ): env->evd_cmd.v_chan_stat = TRUE; env->evd_cmd.chan_stat.chan_id = CHANNEL_ID_1; env->evd_cmd.chan_stat.chan_stat_link = LINK_NO_ESTABL; env->evd_cmd.chan_stat.chan_stat_inf2 = LINK_DROPPED; break; #endif /* FF_SAT_E */ default: env->v_evd_cmd = FALSE; TRACE_EVENT("wrong event id for SAT event download"); break; } /* *------------------------------------------------------------------- * check if a call control request is already in progress *------------------------------------------------------------------- */ if( satShrdPrm.SIMCCParm.busy EQ TRUE ) { /* event has to be queued */ T_SAT_QUEUE *p_queue; if (satShrdPrm.event.c_queued >= MAX_EVENT_QUEUED - 1 ) { TRACE_EVENT("Too many events have been queued: failed to queue this new event"); return FALSE; } p_queue = &satShrdPrm.event.queued[satShrdPrm.event.c_queued - 1]; p_queue->owner = (T_OWN)satShrdPrm.owner; if (p_queue->stk_cmd NEQ NULL) { MFREE (p_queue->stk_cmd); /* Should not happen */ } ACI_MALLOC (p_queue->stk_cmd, sizeof (T_stk_cmd)); if (psaSAT_STKBuildCmd (p_queue->stk_cmd) < 0) { ACI_MFREE (p_queue->stk_cmd); p_queue->stk_cmd = NULL; TRACE_ERROR ("problem encoding SAT cmd"); return FALSE; } satShrdPrm.event.c_queued++; } return TRUE; } } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : SAT | | ROUTINE : psaSAT_SendTrmResp | +-------------------------------------------------------------------+ PURPOSE : Send a terminal response for a previous SAT command. */ GLOBAL void psaSAT_InitTrmResp ( T_ACI_SAT_TERM_RESP *init_resp ) { init_resp->addLen = 0; init_resp->add = NULL; init_resp->add_content = 0; init_resp->resCC = NULL; init_resp->text = NULL; init_resp->at_resp = NULL; init_resp->at_resp_count = 0; #ifdef FF_SAT_E init_resp->chnStat = FALSE; init_resp->bearDesc = FALSE; init_resp->bufSize = FALSE; #endif /* FF_SAT_E */ memset (init_resp->dtt_buf, 0xFF, TIME_STAMP_LENGTH); memset (init_resp->lang, 0xFF, CLAN_CODE_LEN); } LOCAL void sat_build_cc_action_resp(UBYTE rspId, UBYTE addLen, UBYTE *add, UBYTE *resCC, T_TERM_RESP *res) { UBYTE byteLen; /* holds byte length */ UBYTE *p; /* byte pointer */ if( satShrdPrm.stkCnfPrim OR resCC ) { p = (resCC)? resCC : satShrdPrm.stkCnfPrim->stk_cmd.cmd; if( p[1] EQ 0x81 ) { byteLen = p[2]; p = &p[3]; } else { byteLen = p[1]; p = &p[2]; } res->v_cc_req_act = TRUE; res->cc_req_act.l_cc_req_act = byteLen<<3; memcpy( res->cc_req_act.b_cc_req_act, p, byteLen ); /* result 2 */ res->v_res_2 = TRUE; res->res_2.gen = res->res.gen; /* adjust first result according to second result (GSM 11.14 / 9.1) */ if( rspId <= 0x1F ) res->res.gen = RSLT_PERF_MDFY_SIM; else if( rspId >= 0x20 AND rspId <= 0x2F ) res->res.gen = RSLT_CC_SIM_TMP; else if( rspId >= 0x30 AND rspId <= 0x3F ) { res->res.gen = RSLT_CC_SIM_PRM; res->res.v_add = TRUE; res->res.add.l_add = 8; res->res.add.b_add[0] = ADD_CC_REQ_CHNG; } if( addLen ) { if( res->res.gen NEQ RSLT_CC_SIM_PRM ) res->res.v_add = FALSE; res->res_2.v_add = TRUE; res->res_2.add.l_add = addLen<<3; memcpy( res->res_2.add.b_add, add, addLen ); } /* free the primitive */ if( satShrdPrm.stkCnfPrim ) { PFREE( satShrdPrm.stkCnfPrim ); satShrdPrm.stkCnfPrim = NULL; } } } GLOBAL BOOL psaSAT_SendTrmResp ( UBYTE rspId, T_ACI_SAT_TERM_RESP *data_for_term_resp) { TRACE_FUNCTION("psaSAT_SendTrmResp()"); /* *------------------------------------------------------------------- * build terminal response *------------------------------------------------------------------- */ CCD_START; { MCAST( res, TERM_RESP ); memset( res, 0, sizeof( T_TERM_RESP )); /* init of data_for_term_resp */ /* return network error cause GSM 11.14 / 12.12.3 (it's mandatory) */ if( ( data_for_term_resp->add_content NEQ 0 ) OR ( rspId EQ RSLT_NTW_UNAB_PROC ) ) { data_for_term_resp->add = &(data_for_term_resp->add_content); data_for_term_resp->addLen = 1; } /* device identities */ res->v_cmd_details = TRUE; res->cmd_details.cmd_nr = satShrdPrm.cmdDet.cmdNr; res->cmd_details.cmd_typ = satShrdPrm.cmdDet.cmdType; res->cmd_details.cmd_qlf = satShrdPrm.cmdDet.cmdQlf; /* device identities */ res->v_dev_ids = TRUE; res->dev_ids.src_dev = DEV_SRC_ME; res->dev_ids.dest_dev = DEV_DST_SIM; /* result */ res->v_res = TRUE; res->res.gen = (rspId EQ RSLT_PERF_SUCCESS AND cmpFlg)? RSLT_PERF_PART_CMPR:rspId; if( data_for_term_resp->addLen ) { res->res.v_add = TRUE; res->res.add.l_add = data_for_term_resp->addLen<<3; memcpy( res->res.add.b_add, data_for_term_resp->add, data_for_term_resp->addLen ); } /* call control requested action */ sat_build_cc_action_resp( rspId, data_for_term_resp->addLen, data_for_term_resp->add, data_for_term_resp->resCC, res ); /* USSD related terminal response */ if( data_for_term_resp->text NEQ NULL ) { res->v_text = TRUE; res->text.dcs = data_for_term_resp->text->dcs; res->text.c_text_str = data_for_term_resp->text->c_text_str; memcpy( &(res->text.text_str), data_for_term_resp->text->text_str, data_for_term_resp->text->c_text_str); } /* Run AT related terminal response */ if( data_for_term_resp->at_resp NEQ NULL ) { res->v_at_resp = TRUE; memcpy( res->at_resp.text_str, data_for_term_resp->at_resp, data_for_term_resp->at_resp_count ); res->at_resp.c_text_str = (UBYTE)data_for_term_resp->at_resp_count; } /* Provide Local Information (date, time and time zone) related terminal response */ if( data_for_term_resp->dtt_buf[0] NEQ 0xFF) { res->v_dtt = TRUE; memcpy( res->dtt.text_str, data_for_term_resp->dtt_buf, TIME_STAMP_LENGTH ); res->dtt.c_text_str = (UBYTE)TIME_STAMP_LENGTH; } /* Provide Local Information (Language Setting) */ if( data_for_term_resp->lang[0] NEQ 0xFF) { res->v_lang = TRUE; memcpy( res->lang.lang_buf, data_for_term_resp->lang, CLAN_CODE_LEN ); res->lang.c_lang_buf = (UBYTE)CLAN_CODE_LEN; } #ifdef FF_SAT_E /* add channel status to terminal response */ if( data_for_term_resp->chnStat NEQ FALSE ) { /* restricted to only one channel for class e */ res->v_chan_stat = TRUE; res->c_chan_stat = 1; res->chan_stat[0].chan_id = CHANNEL_ID_1; res->chan_stat[0].chan_stat_inf2 = NO_FURTH_INFO; res->chan_stat[0].chan_stat_link = LINK_NO_ESTABL; if( satShrdPrm.chnTb.chnUsdFlg ) { switch( satShrdPrm.chnTb.lnkStat ) { case( SIM_LINK_CNCT ): res->chan_stat[0].chan_stat_link = LINK_ESTABL; break; case( SIM_LINK_DROP ): res->chan_stat[0].chan_stat_inf2 = LINK_DROPPED; break; default: /* already handled by pre-setting */ break; } } } /* add bearer description to terminal response */ if( data_for_term_resp->bearDesc NEQ FALSE AND satShrdPrm.opchPrm ) { if( satShrdPrm.opchType EQ B_CSD ) { res->v_bear_desc = TRUE; res->bear_desc.bear_type = BT_CSD; res->bear_desc.v_csd_bear_prm = TRUE; res->bear_desc.csd_bear_prm = ((T_SAT_CSD_PRM*)satShrdPrm.opchPrm)->csd_bear_prm; } if( satShrdPrm.opchType EQ B_GPRS ) { res->v_bear_desc = TRUE; res->bear_desc.bear_type = BT_GPRS; res->bear_desc.v_gprs_bear_prm = TRUE; res->bear_desc.gprs_bear_prm = ((T_SAT_GPRS_PRM*)satShrdPrm.opchPrm)->gprs_bear_prm; } } /* add buffer size to terminal response */ if( data_for_term_resp->bufSize NEQ FALSE ) { res->v_buffer_size = TRUE; res->buffer_size = satShrdPrm.buffer_size; } #endif /* FF_SAT_E */ cmpFlg = FALSE; } /* *------------------------------------------------------------------- * send terminal response *------------------------------------------------------------------- */ satShrdPrm.owner = OWN_SRC_INV; satShrdPrm.ownSAT = FALSE; memset( &satShrdPrm.stk_ccp, 0, sizeof(BUF_cap_cnf_parms)); #ifdef TI_PS_FF_AT_P_CMD_CUST if (satShrdPrm.cust1StkCmd != (void *)0) { ACI_MFREE(satShrdPrm.cust1StkCmd); /* Free the dynamically allocated Cust1 Stk Cmd memory */ satShrdPrm.cust1StkCmd = (void *)0; satShrdPrm.cust1StkCmdLen = 0; } #endif /* TI_PS_FF_AT_P_CMD_CUST */ if( psaSAT_STKResponse() < 0 ) /* STK command response */ { TRACE_EVENT( "FATAL RETURN SAT in send term resp" ); CCD_END; return( FALSE ); } CCD_END; return (TRUE); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SATF | | ROUTINE : psaSAT_dasmMECmd | +-------------------------------------------------------------------+ PURPOSE : disassemble ME proactive SIM command. */ GLOBAL BOOL psaSAT_dasmMECmd ( BUF_cmd_prms *cmdPrm ) { UBYTE ccdRet, err; T_ACI_SAT_TERM_RESP resp_data; BOOL aciOnlyEvents; /* holds information whether only ACI events are in SET UP EVENT LIST */ BOOL sendRes; /* holds temporaly return result whether to send response or not */ /* response message in the case of SET UP EVENT LIST, only ACI events */ static UBYTE TRSetEventOk [12] = { 0x81, /* command details tag */ 0x03, /* command details length */ 0x00, /* will be updated to current cmd num */ 0x05, /* command SETUP EVENT LIST */ 0x00, /* not used */ 0x82, /* device details tag */ 0x02, /* device details length */ 0x82, /* source ME */ 0x81, /* destination SIM */ 0x83, /* result tag */ 0x01, /* result length */ 0x00 /* result OK */ }; TRACE_FUNCTION("psaSAT_dasmMECmd"); psaSAT_InitTrmResp( &resp_data ); #ifdef TI_PS_FF_AT_P_CMD_CUST if ((satShrdPrm.cmdDet.cmdType NEQ SAT_CMD_EVENT_LIST) AND /* ACI has to process the event before */ (simShrdPrm.overall_cust_mode EQ (UBYTE)CUST_NORMAL_BEHAVIOUR)) /* and NOT Cust1 behaviour */ #else if (satShrdPrm.cmdDet.cmdType NEQ SAT_CMD_EVENT_LIST) #endif /* TI_PS_FF_AT_P_CMD_CUST */ cmhSAT_STKUsrNtfy(); if( cmdPrm EQ NULL ) /* no parameter */ { memset(&satShrdPrm.stkCmdPrm, 0, sizeof(satShrdPrm.stkCmdPrm)); } else { memcpy( &satShrdPrm.stkCmdPrm, cmdPrm, sizeof(satShrdPrm.stkCmdPrm)); ccdRet = ccd_decodeMsg (CCDENT_SAT, DOWNLINK, (T_MSGBUF *) &satShrdPrm.stkCmdPrm, (UBYTE *) _decodedMsg, satShrdPrm.cmdDet.cmdType ); /* check for CCD error */ if( ccdRet NEQ ccdOK ) { TRACE_EVENT_P1( "CCD Decoding Error: %d", ccdRet ); err = psaSAT_ccdErrChk(); if( err NEQ 0 ) { psaSAT_SendTrmResp( err, &resp_data ); return( FALSE ); } } } /* continue processing */ switch( satShrdPrm.cmdDet.cmdType ) { case( SAT_CMD_SETUP_CALL ): { MCAST( calCmd, SETUP_CALL ); return( cmhSAT_setupCall( calCmd )); } case( SAT_CMD_SEND_SS ): { MCAST( ssCmd, SEND_SS ); return( cmhSAT_sendSS( ssCmd )); } case( SAT_CMD_SEND_USSD ): { MCAST( ussdCmd, SEND_USSD ); return( cmhSAT_sendUSSD( ussdCmd )); } case( SAT_CMD_SEND_SMS ): { MCAST( smCmd, SEND_SM ); return( cmhSAT_sendSM( smCmd )); } case( SAT_CMD_SEND_DTMF ): { MCAST( dtmfCmd, SEND_DTMF ); return( cmhSAT_sendDTMF( dtmfCmd )); } case( SAT_CMD_EVENT_LIST ): { MCAST( setEvent, SETUP_EVENT ); if (cmhSAT_setupEvent_Test( setEvent, &aciOnlyEvents )) { /* ACI-SPR-18200: If there are no Events to be processed by MMI ACI bypasses the MMI functionality and returns TR by itself */ /* something went wrong, temp event list is empty --> TR(30) */ if ( satShrdPrm.event.temp_list EQ 0L ) { psaSAT_SendTrmResp( RSLT_PERF_SUCCESS, &resp_data ); return FALSE; } if ( aciOnlyEvents ) { /* prepare response to signal OK to SATK */ TRSetEventOk[2] = satShrdPrm.cmdDet.cmdNr; satShrdPrm.setPrm[satShrdPrm.owner].stkCmd = TRSetEventOk; satShrdPrm.setPrm[satShrdPrm.owner].stkCmdLen = 12; /* inform SIM about acknowledged event list */ sendRes = cmhSAT_CheckSetEventResp( ); if (sendRes) { if( psaSAT_STKResponse() < 0 ) /* respond to STK command */ { TRACE_EVENT( "FATAL RETURN - TR could not be send" ); } } } else /* signal MMI to process further events */ { cmhSAT_STKCmdInd(); } return TRUE; } else { if ( satShrdPrm.event.temp_list NEQ 0L ) { satShrdPrm.event.temp_list = 0L; /* reinitialize temp_event_list */ psaSAT_SendTrmResp( RSLT_ME_CAP, &resp_data ); } } } break; case( SAT_CMD_RUN_AT ): { MCAST( calCmd, RUN_AT ); return( cmhSAT_runAt( calCmd )); } case( SAT_CMD_LAUNCH_BROWSER ): { MCAST( launchBrowserCmd, LAUNCH_BROWSER ); return( cmhSAT_launchBrowser( launchBrowserCmd )); } case( SAT_CMD_PROV_LOC_INFO): { return( cmhSAT_provLocalInfo()); } #ifdef FF_SAT_E case( SAT_CMD_OPEN_CHANNEL ): { MCAST( opchCmd, OPEN_CHANNEL ); return( cmhSAT_OpenChannelReq( opchCmd )); } #endif /* FF_SAT_E */ } return( FALSE ); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SATF | | ROUTINE : psaSAT_SSResComp | +-------------------------------------------------------------------+ PURPOSE : SS result component handling. */ GLOBAL void psaSAT_SSResComp ( T_res_comp* resCmp ) { UBYTE addLen = 0; T_ACI_SAT_TERM_RESP resp_data; psaSAT_InitTrmResp( &resp_data ); /* Add the operation code and parameters to terminal response (reference: section 12.12.1 "Additional information for SEND SS" of 11.14) */ if( resCmp -> v_sequence AND resCmp -> sequence.v_op_code ) { ssResPrms[0] = resCmp -> sequence.op_code; if( resCmp -> sequence.params.l_params ) { addLen = resCmp -> sequence.params.l_params >> 3; memcpy( &ssResPrms[1], resCmp -> sequence.params.b_params, addLen); } ++addLen; } resp_data.add = ssResPrms; resp_data.addLen = addLen; psaSAT_SendTrmResp( RSLT_PERF_SUCCESS, &resp_data ); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SATF | | ROUTINE : psaSAT_SSErrComp | +-------------------------------------------------------------------+ PURPOSE : SS error result component handling. */ GLOBAL void psaSAT_SSErrComp ( T_fac_inf* errCmp, BOOL is_fac_ussd ) { UBYTE ccdRet; UBYTE addLen = 1; T_ACI_SAT_TERM_RESP resp_data; MCAST( com, COMP_SAT ); TRACE_FUNCTION("psaSAT_SSErrComp()"); psaSAT_InitTrmResp( &resp_data ); *ssResPrms = ADD_NO_CAUSE; memset( com, 0, sizeof( T_COMP_SAT )); ccdRet = ccd_decodeMsg (CCDENT_FAC, DOWNLINK, (T_MSGBUF *) errCmp, (UBYTE *) _decodedMsg, COMP_SAT); if( ccdRet NEQ ccdOK ) { TRACE_EVENT_P1("CCD Decoding Error: %d",ccdRet ); } else { if( com->err_comp_sat.err_desc_sat.err_params_sat. l_err_params_sat ) { addLen = com->err_comp_sat.err_desc_sat.err_params_sat. l_err_params_sat >> 3; memcpy( ssResPrms,com->err_comp_sat.err_desc_sat.err_params_sat. b_err_params_sat, addLen ); } } resp_data.add = ssResPrms; resp_data.addLen = addLen; if( is_fac_ussd ) { psaSAT_SendTrmResp( RSLT_USSD_ERR, &resp_data ); } else { psaSAT_SendTrmResp( RSLT_SS_ERR, &resp_data ); } } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SATF | | ROUTINE : psaSAT_SSRejComp | +-------------------------------------------------------------------+ PURPOSE : SS reject component handling. */ GLOBAL void psaSAT_SSRejComp ( UBYTE cRejectInfo ) { UBYTE addLen = 1; T_ACI_SAT_TERM_RESP resp_data; TRACE_FUNCTION("psaSAT_SSRejComp()"); psaSAT_InitTrmResp( &resp_data ); *ssResPrms = ADD_NO_CAUSE; resp_data.add = ssResPrms; resp_data.addLen = addLen; psaSAT_SendTrmResp( cRejectInfo, &resp_data ); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SATF | | ROUTINE : psaSAT_ss_end_ind | +-------------------------------------------------------------------+ PURPOSE : handles SAT responses to SAT after a SAT originated SS. */ GLOBAL T_ACI_RETURN psaSAT_ss_end_ind ( SHORT sId, T_COMPONENT *com, T_MNSS_END_IND *mnss_end_ind, BOOL is_fac_ussd ) { TRACE_FUNCTION("psaSAT_ss_end_ind()"); if( com->v_res_comp ) { if( is_fac_ussd EQ FALSE ) /* not for USSD !! */ { //TISH, patch for ASTec20762 //start psaSS_dasmResultCmp( sId, &com->res_comp ); //end psaSAT_SSResComp( &com->res_comp ); } else { psaSS_dasmResultCmp( sId, &com->res_comp ); } return( AT_EXCT ); } if( com->v_err_comp ) { ssShrdPrm.stb[sId].failType = SSF_SS_ERR; psaSAT_SSErrComp( &mnss_end_ind -> fac_inf, is_fac_ussd ); return( AT_FAIL ); } if( com->v_rej_comp ) { UBYTE cRejectInfo = RSLT_NTW_UNAB_PROC; /* check for protocol incompatibility for USSD */ if ( (is_fac_ussd) AND (com->rej_comp.v_inv_problem) ) { switch( com->rej_comp.inv_problem ) { case 0x01 : /* invoke problem code #1 */ { if (psaSS_asmUSSDProt1(sId)) { /* facility with Protocole 1 format has been sent: wait for answer */ return( AT_CMPL ); } cRejectInfo = RSLT_NTW_UNAB_PROC; break; } case 0x02 : /* invoke problem code #2 */ { cRejectInfo = RSLT_USSD_ERR; break; } default : { TRACE_EVENT_P1("psaSAT_ss_end_ind(): unknown invoke problem: %x", com->rej_comp.inv_problem ); break; } } ssShrdPrm.stb[sId].failType = SSF_INV_PRB; } /* check for protocol incompatibility for USSD */ if ((is_fac_ussd EQ FALSE) AND (com->rej_comp.v_gen_problem)) { ssShrdPrm.stb[sId].failType = SSF_GEN_PRB; /* for 27.22.4.11.1 Seq. 1.3 SEND SS */ if (com->rej_comp.gen_problem EQ GEN_PROB_UNRECOG_CMP) { cRejectInfo = RSLT_SS_ERR; } } psaSAT_SSRejComp( cRejectInfo ); return( AT_FAIL ); } return(AT_FAIL); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SATF | | ROUTINE : psaSAT_ccdErrChk | +-------------------------------------------------------------------+ PURPOSE : CCD error checking. The function returns a SAT result value unequal to 0 if the operation is must be terminated. Otherwise the condition is only a warning and the operation should be proceeded. */ GLOBAL UBYTE psaSAT_ccdErrChk ( void ) { USHORT parLst[MAX_ERR_PAR]; UBYTE ccdErr; UBYTE fstFlg = TRUE; TRACE_FUNCTION("psaSAT_ccdErrChk()"); /* *------------------------------------------------------------------- * handling of first error *------------------------------------------------------------------- */ do { memset (parLst,0, sizeof (parLst)); if( fstFlg ) { ccdErr = ccd_getFirstError (CCDENT_SAT, parLst); fstFlg = FALSE; } else ccdErr = ccd_getNextError (CCDENT_SAT, parLst); switch (ccdErr) { case( ERR_IE_NOT_EXPECTED ): /* unexpected element */ if( !((UBYTE)parLst[0] & 0x80) ) { cmpFlg = TRUE; break; } /* otherwise continue, no break */ /*lint -fallthrough*/ case( ERR_COMPREH_REQUIRED ): /* comprehension required */ return( RSLT_UNKN_DATA ); case( ERR_MAND_ELEM_MISS ): /* mandatory elements missing */ return( RSLT_ERR_REQ_VAL ); } } while( ccdErr NEQ ERR_NO_MORE_ERROR ); return( 0 ); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SAT | | ROUTINE : psaSAT_DumpCmd | +-------------------------------------------------------------------+ PURPOSE : Dump SAT command to debug output. */ GLOBAL void psaSAT_DumpCmd ( T_stk_cmd * cmd ) { #define SAT_TRC_LEN 32 CHAR strBuf[2*SAT_TRC_LEN+1]; /* holds string buffer */ ULONG idx, cnt, mcnt; /* buffer index */ CHAR *pDest; /* points to destination */ TRACE_FUNCTION("psaSAT_DumpCmd()"); /* *------------------------------------------------------------------- * format command *------------------------------------------------------------------- */ TRACE_EVENT( "SAT CMD SENT/RECEIVED:" ); mcnt = (ULONG)cmd->l_cmd >> 3; if( !mcnt ) { TRACE_EVENT_P1("an empty envelope. (%d)", (ULONG)cmd->l_cmd); return; } for( cnt = 0; cnt < mcnt; cnt += SAT_TRC_LEN ) { pDest = strBuf; for( idx = 0; idx < SAT_TRC_LEN AND (idx + cnt) < mcnt; idx++ ) { /* Implements Measure#32: Row 1277 */ pDest += sprintf( pDest, format_2X_str, (UBYTE)cmd->cmd[idx + cnt] ); } *pDest = 0x0; TRACE_EVENT_P1("%s", strBuf ); } } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SAT | | ROUTINE : psaSAT_FURegister | +-------------------------------------------------------------------+ PURPOSE : Register a handler for FILE UPDATE. */ GLOBAL BOOL psaSAT_FURegister ( T_SAT_FU_FUNC fu_func ) { int i; TRACE_FUNCTION("psaSAT_FURegister()"); for (i = 0; i < MAX_FU_OPS; i++) { if (satShrdPrm.fu_func[i] EQ fu_func) { TRACE_EVENT ("FU func already registered"); return TRUE; } if (satShrdPrm.fu_func[i] EQ NULL) { satShrdPrm.fu_func[i] = fu_func; return TRUE; } } return FALSE; } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SAT | | ROUTINE : psaSAT_FUConfirm | +-------------------------------------------------------------------+ PURPOSE : Confirm a handled FILE UPDATE. The parameter is the same with which the handler was called and refers to the entry of the callback table. */ GLOBAL void psaSAT_FUConfirm (int currFU, USHORT resFU) { BOOL fu_active; BOOL aci_sent_no_primitive; TRACE_EVENT_P2("psaSAT_FUConfirm(): currFU: %d, resFU: %d", currFU, resFU); if (resFU EQ SIM_FU_ERROR) /*If there is one error, the rest of the procedure is to be cancelled */ { PALLOC (fu_res, SIM_FILE_UPDATE_RES); fu_res->source = SRC_MMI; fu_res->fu_rsc = SIM_FU_ERROR; if (satShrdPrm.fu_func_notif) (void)satShrdPrm.fu_func_notif((int)fu_res->fu_rsc,satShrdPrm.fu_ind); /*Sends the final result to MMI */ PSENDX (SIM, fu_res); return; } TRACE_EVENT_P1("satShrdPrm.fu_ind: %d", satShrdPrm.fu_ind); if (satShrdPrm.fu_ind NEQ NULL AND currFU < MAX_FU_OPS) { if (currFU < 0) { if (satShrdPrm.fu_func_notif) { /*Sends the file update request notification to MMI */ if (!satShrdPrm.fu_func_notif(-1,satShrdPrm.fu_ind)) { PALLOC (fu_res, SIM_FILE_UPDATE_RES); /* If rejected, send negative response to SIM */ fu_res->source = SRC_MMI; fu_res->fu_rsc = SIM_FU_ERROR; PSENDX (SIM, fu_res); } } currFU = 0; /*satShrdPrm.fu_rsc = SIM_FU_ERROR;*/ /* default*/ fu_active = FALSE; } else { ++currFU; if ( (resFU EQ SIM_FU_SUCC_ADD) AND (satShrdPrm.fu_rsc NEQ SIM_FU_ERROR) ) { satShrdPrm.fu_rsc = resFU; } /* switch (resFU) { case SIM_FU_SUCCESS: if (satShrdPrm.fu_rsc EQ SIM_FU_SUCC_ADD) break; case SIM_FU_SUCC_ADD: satShrdPrm.fu_rsc = resFU; } */ fu_active = TRUE; } for ( ; currFU < MAX_FU_OPS; currFU++) { if (satShrdPrm.fu_func[currFU] EQ NULL) continue; /* else fu_active = TRUE;*/ aci_sent_no_primitive = satShrdPrm.fu_func[currFU](currFU, satShrdPrm.fu_ind); if (!aci_sent_no_primitive) { return; /* otherwise, result would be sent directly, and not at the end */ } } { PALLOC (fu_res, SIM_FILE_UPDATE_RES); fu_res->source = SRC_MMI; fu_res->fu_rsc = (fu_active)? satShrdPrm.fu_rsc: SIM_FU_SUCCESS; if (satShrdPrm.fu_func_notif) (void)satShrdPrm.fu_func_notif((int)fu_res->fu_rsc,satShrdPrm.fu_ind); /*Sends the final result to MMI */ TRACE_EVENT("FREE satShrdPrm.fu_ind"); PFREE (satShrdPrm.fu_ind); satShrdPrm.fu_ind = NULL; PSENDX (SIM, fu_res); simShrdPrm.fuRef = -1; } } } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SAT | | ROUTINE : psaSAT_FUNotifyRegister | +-------------------------------------------------------------------+ PURPOSE : Register a handler for FILE UPDATE. */ GLOBAL BOOL psaSAT_FUNotifyRegister ( T_SAT_FU_FUNC fu_func ) { TRACE_FUNCTION("psaSAT_FUNotifyRegister()"); if (fu_func) { satShrdPrm.fu_func_notif = fu_func; return TRUE; } else return FALSE; } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SAT | | ROUTINE : psaSAT_Init | +-------------------------------------------------------------------+ PURPOSE : initialize the protocol stack adapter for SAT. */ /* MACRO: initializer for set parameter */ #define INIT_SAT_SET_PARM( dest, def )\ for( LpCnt = 0; LpCnt < OWN_SRC_MAX; LpCnt++ )\ satShrdPrm.setPrm[LpCnt].dest = def GLOBAL void psaSAT_Init ( void ) { TRACE_FUNCTION("psaSAT_Init()"); /* *------------------------------------------------------------------- * set default parms *------------------------------------------------------------------- */ memset( &satShrdPrm, 0, sizeof(T_SAT_SHRD_PRM)); satShrdPrm.dur = -1; satShrdPrm.SentUSSDid = NO_ENTRY; satShrdPrm.fu_rsc = SIM_FU_SUCCESS; satShrdPrm.fu_ind = NULL; satShrdPrm.sId_pwd_requested = NO_ENTRY; #ifdef TI_PS_FF_AT_P_CMD_CUST satShrdPrm.cust1SimRefreshRespRqd = FALSE; #endif /* TI_PS_FF_AT_P_CMD_CUST */ satShrdPrm.locInfo.currPLMN.v_plmn = INVLD_PLMN; satShrdPrm.Cbch_EvtDnl = FALSE; satShrdPrm.ownSAT = FALSE; } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : SAT | | ROUTINE : psaSAT_ChkEventList | +-------------------------------------------------------------------+ PURPOSE : Check if the event is monitored and shall alert SAT. */ GLOBAL BOOL psaSAT_ChkEventList( UBYTE eventNr ) { BOOL event_listed = FALSE; TRACE_FUNCTION("psaSAT_ChkEventList()"); event_listed = (satShrdPrm.event.list >> eventNr ) & 0x01; if( event_listed ) return( TRUE ); return( FALSE ); } #ifdef FF_SAT_E /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : SAT | | ROUTINE : psaSAT_ctbFindActCall | +-------------------------------------------------------------------+ PURPOSE : Return the call id of a call which is in an active state. If no call could be found the function returns NO_ENTRY. */ GLOBAL SHORT psaSAT_ctbFindActCall( void ) { UBYTE ctbIdx; SHORT actId = NO_ENTRY; TRACE_FUNCTION("psaSAT_ctbFindActCall()"); for( ctbIdx = 0; ctbIdx < MAX_CALL_NR; ctbIdx++ ) { if (ccShrdPrm.ctb[ctbIdx] NEQ NULL) { switch( psaCC_ctb(ctbIdx)->calStat ) { case( CS_ACT ): case( CS_ACT_REQ ): case( CS_MDF_REQ ): actId = ctbIdx; break; } } } return( actId ); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : SAT | | ROUTINE : psaSAT_gprsFindFreeCntxt| +-------------------------------------------------------------------+ PURPOSE : Return a free context id, if busy return NO_ENTRY. */ #ifdef GPRS GLOBAL SHORT psaSAT_gprsFindFreeCntxt( void ) { BOOL cntxtStat[MAX_CID+1]; SHORT cntxtId[MAX_CID+1]; SHORT cid = NO_ENTRY; UBYTE idx; TRACE_FUNCTION("psaSAT_gprsFindFreeCntxt()"); if( qAT_PlusCGACT( CMD_SRC_LCL, cntxtStat, cntxtId ) NEQ AT_CMPL ) return( NO_ENTRY ); for( idx = 0; idx < MAX_CID; idx++ ) { if( cntxtId[idx] NEQ INVALID_CID AND cntxtStat[idx] EQ TRUE ) continue; cid = (cntxtId[idx] EQ INVALID_CID)? idx+1:cntxtId[idx]; break; } return( cid ); } #endif /* GPRS */ #endif /* FF_SAT_E */ #endif /* #ifdef SIM_TOOLKIT */ /*==== EOF ========================================================*/