FreeCalypso > hg > fc-magnetite
view src/g23m-aci/aci/psa_ssf.c @ 493:2e73bbc0648e
OSL: os_mem_fl.c compiles
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Sun, 24 Jun 2018 18:59:22 +0000 |
parents | 53929b40109c |
children |
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/* +----------------------------------------------------------------------------- | Project : GSM-PS (6147) | Modul : PSA_SSF +----------------------------------------------------------------------------- | 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 supplementary services. +----------------------------------------------------------------------------- */ #ifndef PSA_SSF_C #define PSA_SSF_C #endif #include "aci_all.h" #undef TRACING /*==== INCLUDES ===================================================*/ #include "aci_cmh.h" #include "ati_cmd.h" #include "aci_cmd.h" #include "ksd.h" #include "aci.h" #include "psa.h" #include "psa_ss.h" #include "psa_util.h" #include "cmh_ss.h" #include "cmh.h" /*==== CONSTANTS ==================================================*/ #define MAX_MOSTI_NR (7) /* max number of ti's for MOS */ #define MAX_ITM (5) /* max number of items per line */ #define ITM_WDT (14) /* item width in chars */ #define HDR_WDT (10) /* header width in chars */ /*==== TYPES ======================================================*/ /*==== EXPORT =====================================================*/ /*==== VARIABLES ==================================================*/ LOCAL UBYTE tiPool = 0xFF; /* holds pool of transaction identifiers */ /*==== FUNCTIONS ==================================================*/ LOCAL void psaSS_asmSSForBS ( UBYTE ssCode, UBYTE bscSrvType, UBYTE bscSrv, T_ssForBS *ssForBS); /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_asmEmptyRslt | +-------------------------------------------------------------------+ PURPOSE : assemble an empty return result facility information element. */ GLOBAL void psaSS_asmEmptyRslt ( void ) { TRACE_FUNCTION("psaSS_asmEmptyRslt"); memset( &ssFIECodeBuf, 0, sizeof( ssFIECodeBuf )); ssFIECodeBuf.l_buf = 8; ssShrdPrm.cmpType = CT_RET_RSLT; } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_asmErrorRslt | +-------------------------------------------------------------------+ PURPOSE : assemble an return error facility information element. */ GLOBAL void psaSS_asmErrorRslt ( SHORT sId, UBYTE err ) { TRACE_FUNCTION("psaSS_asmErrorRslt"); ssShrdPrm.stb[sId].failType = SSF_SS_ERR; ssShrdPrm.stb[sId].errCd = err; ssShrdPrm.cmpType = CT_RET_ERR; } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_asmInterrogateSS | +-------------------------------------------------------------------+ PURPOSE : assemble the interrogate SS facility information element. */ GLOBAL void psaSS_asmInterrogateSS ( UBYTE ssCode, UBYTE bscSrvType, UBYTE bscSrv ) { MCAST( irgtSS, INTERROGATE_SS_INV ); TRACE_FUNCTION("psaSS_asmInterrogateSS"); memset( irgtSS, 0, sizeof( T_INTERROGATE_SS_INV )); /* set basic settings */ irgtSS->msg_type = INTERROGATE_SS_INV; irgtSS->v_ssForBS = TRUE; /* set service code */ irgtSS->ssForBS.v_ssCode = TRUE; irgtSS->ssForBS.ssCode = ssCode; /* set basic service type */ switch( bscSrvType ) { case( BS_BEAR_SRV ): irgtSS->ssForBS.basicService.v_bearerService = TRUE; irgtSS->ssForBS.basicService.bearerService = bscSrv; break; case( BS_TELE_SRV ): irgtSS->ssForBS.basicService.v_teleservice = TRUE; irgtSS->ssForBS.basicService.teleservice = bscSrv; break; default: irgtSS->ssForBS.basicService.v_bearerService = FALSE; irgtSS->ssForBS.basicService.v_teleservice = FALSE; } memset( &ssFIECodeBuf, 0, sizeof( ssFIECodeBuf )); ssFIECodeBuf.l_buf = MAX_FIE_CODE_BUF_LEN<<3; ccd_codeMsg (CCDENT_FAC, UPLINK, (T_MSGBUF *)&ssFIECodeBuf, _decodedMsg, NOT_PRESENT_8BIT); ssShrdPrm.cmpType = CT_INV; } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_asmRegisterSS | +-------------------------------------------------------------------+ PURPOSE : assemble the register SS facility information element. */ GLOBAL void psaSS_asmRegisterSS ( UBYTE ssCode, UBYTE bscSrvType, UBYTE bscSrv, UBYTE ton, UBYTE npi, UBYTE *num, UBYTE tos, UBYTE oe, UBYTE *sub, UBYTE time ) { MCAST( regSS, REGISTER_SS_INV ); TRACE_FUNCTION("psaSS_asmRegisterSS"); memset( regSS, 0, sizeof( T_REGISTER_SS_INV )); /* set basic settings */ regSS->msg_type = REGISTER_SS_INV; regSS->v_registerSSArg = TRUE; /* set service code */ regSS->registerSSArg.v_ssCode = TRUE; regSS->registerSSArg.ssCode = ssCode; /* set basic service type */ switch( bscSrvType ) { case( BS_BEAR_SRV ): regSS->registerSSArg.basicService.v_bearerService = TRUE; regSS->registerSSArg.basicService.bearerService = bscSrv; break; case( BS_TELE_SRV ): regSS->registerSSArg.basicService.v_teleservice = TRUE; regSS->registerSSArg.basicService.teleservice = bscSrv; break; } /* set forwarded to number */ if( num NEQ NULL ) { regSS->registerSSArg.v_forwardedToNumber = TRUE; regSS->registerSSArg.forwardedToNumber.c_bcdDigit = (UBYTE)utl_dialStr2BCD((char *) num, regSS->registerSSArg.forwardedToNumber.bcdDigit, MAX_PARTY_NUM); if(ton NEQ MNCC_TON_NOT_PRES AND npi NEQ MNCC_NPI_NOT_PRES) { regSS->registerSSArg.forwardedToNumber.v_noa = TRUE; regSS->registerSSArg.forwardedToNumber.noa = ton; regSS->registerSSArg.forwardedToNumber.v_npi = TRUE; regSS->registerSSArg.forwardedToNumber.npi = npi; } } /* set forwarded to subaddress */ if( sub NEQ NULL ) { regSS->registerSSArg.v_forwardedToSubaddress = TRUE; regSS->registerSSArg.forwardedToSubaddress.c_subadr_str = (UBYTE)utl_dialStr2BCD((char *) sub, regSS->registerSSArg.forwardedToSubaddress.subadr_str, MAX_SUBADDR_NUM); regSS->registerSSArg.forwardedToSubaddress.v_tos = TRUE; regSS->registerSSArg.forwardedToSubaddress.tos = tos; regSS->registerSSArg.forwardedToSubaddress.v_oei = TRUE; regSS->registerSSArg.forwardedToSubaddress.oei = oe; } /* set no reply timer */ //TISH, patch for OMAPS00130690 #if 0 if( ssCode EQ SS_CD_CFNRY AND time NEQ KSD_TIME_NONE ) #else if( ((ssCode EQ SS_CD_CFNRY) OR (ssCode EQ SS_CD_ALL_FWSS) OR (ssCode EQ SS_CD_ALL_CFWSS)) AND time NEQ KSD_TIME_NONE ) #endif //end { regSS->registerSSArg.v_noReplyConditionTime = TRUE; regSS->registerSSArg.noReplyConditionTime = time; } memset( &ssFIECodeBuf, 0, sizeof( ssFIECodeBuf )); ssFIECodeBuf.l_buf = MAX_FIE_CODE_BUF_LEN<<3; ccd_codeMsg (CCDENT_FAC, UPLINK, (T_MSGBUF *)&ssFIECodeBuf, _decodedMsg, NOT_PRESENT_8BIT); ssShrdPrm.cmpType = CT_INV; } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_asmEraseSS | +-------------------------------------------------------------------+ PURPOSE : assemble the erase SS facility information element. */ GLOBAL void psaSS_asmEraseSS ( UBYTE ssCode, UBYTE bscSrvType, UBYTE bscSrv ) { MCAST( ersSS, ERASE_SS_INV ); TRACE_FUNCTION("psaSS_asmEraseSS"); memset( ersSS, 0, sizeof( T_ERASE_SS_INV )); /* set basic settings */ ersSS->msg_type = ERASE_SS_INV; ersSS->v_ssForBS = TRUE; /* Implements Measure # 194 */ psaSS_asmSSForBS ( ssCode, bscSrvType, bscSrv, &(ersSS->ssForBS)); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_asmActivateSS | +-------------------------------------------------------------------+ PURPOSE : assemble the interrogate SS facility information element. */ GLOBAL void psaSS_asmActivateSS ( UBYTE ssCode, UBYTE bscSrvType, UBYTE bscSrv ) { MCAST( actSS, ACTIVATE_SS_INV ); TRACE_FUNCTION("psaSS_asmActivateSS"); memset( actSS, 0, sizeof( T_ACTIVATE_SS_INV )); /* set basic settings */ actSS->msg_type = ACTIVATE_SS_INV; actSS->v_ssForBS = TRUE; /* Implements Measure # 194 */ psaSS_asmSSForBS ( ssCode, bscSrvType, bscSrv, &(actSS->ssForBS)); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_asmDeactivateSS | +-------------------------------------------------------------------+ PURPOSE : assemble the deactivate SS facility information element. */ GLOBAL void psaSS_asmDeactivateSS ( UBYTE ssCode, UBYTE bscSrvType, UBYTE bscSrv ) { MCAST( deactSS, DEACTIVATE_SS_INV ); TRACE_FUNCTION("psaSS_asmDeactivateSS"); memset( deactSS, 0, sizeof( T_DEACTIVATE_SS_INV )); /* set basic settings */ deactSS->msg_type = DEACTIVATE_SS_INV; deactSS->v_ssForBS = TRUE; /* Implements Measure # 195 */ psaSS_asmSSForBS ( ssCode, bscSrvType, bscSrv, &(deactSS->ssForBS)); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_asmRegisterPWD | +-------------------------------------------------------------------+ PURPOSE : assemble the register password facility information element. */ GLOBAL void psaSS_asmRegisterPWD ( UBYTE ssCode ) { MCAST( regPWD, REGISTER_PWD_INV ); TRACE_FUNCTION("psaSS_asmRegisterPWD"); memset( regPWD, 0, sizeof( T_REGISTER_PWD_INV )); /* set service code */ regPWD->v_ssCode = TRUE; regPWD->ssCode = ssCode; regPWD->msg_type = REGISTER_PWD_INV; memset( &ssFIECodeBuf, 0, sizeof( ssFIECodeBuf )); ssFIECodeBuf.l_buf = MAX_FIE_CODE_BUF_LEN<<3; ccd_codeMsg (CCDENT_FAC, UPLINK, (T_MSGBUF *)&ssFIECodeBuf, _decodedMsg, NOT_PRESENT_8BIT); ssShrdPrm.cmpType = CT_INV; } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_asmVerifyPWD | +-------------------------------------------------------------------+ PURPOSE : assemble the verify password facility information element. */ GLOBAL void psaSS_asmVerifyPWD ( UBYTE *pwd ) { MCAST( vrfPWD, GET_PWD_RES ); TRACE_FUNCTION("psaSS_asmVerifyPWD"); memset( vrfPWD, 0, sizeof( T_GET_PWD_RES )); /* set service code */ vrfPWD->v_currPassword = TRUE; vrfPWD->msg_type = GET_PWD_RES; strncpy( (char *) vrfPWD->currPassword.digit, (char *) pwd, MAX_PWD_NUM ); memset( &ssFIECodeBuf, 0, sizeof( ssFIECodeBuf )); ssFIECodeBuf.l_buf = MAX_FIE_CODE_BUF_LEN<<3; ccd_codeMsg (CCDENT_FAC, UPLINK, (T_MSGBUF *)&ssFIECodeBuf, _decodedMsg, NOT_PRESENT_8BIT); ssShrdPrm.cmpType = CT_RET_RSLT; } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_asmProcUSSDReq | +-------------------------------------------------------------------+ PURPOSE : assemble the process USSD request facility information element. */ GLOBAL void psaSS_asmProcUSSDReq ( UBYTE dcs, UBYTE *ussd, UBYTE len ) { /* UBYTE cmpLen;*/ MCAST( ussdReq, PROCESS_USSD_REQ_INV ); TRACE_FUNCTION("psaSS_asmProcUSSDReq"); memset( ussdReq, 0, sizeof( T_PROCESS_USSD_REQ_INV )); /* set service code */ ussdReq->v_ussdArg = TRUE; ussdReq->msg_type = PROCESS_USSD_REQ_INV; /* set data coding scheme */ ussdReq->ussdArg.v_ussdDataCodingScheme = TRUE; ussdReq->ussdArg.ussdDataCodingScheme = dcs; /* set ussd response string */ /* if( utl_getAlphabetCb( dcs ) EQ 0 ) *//* 7bit alphabet */ /* cmpLen = utl_cvt8To7( ussd, (UBYTE)MINIMUM( MAX_USSD_STRING, len), ussdReq->ussdArg.ussdString.b_ussdString, 0 ); else*/ { /* cmpLen = len;*/ memcpy( ussdReq->ussdArg.ussdString.b_ussdString, ussd, MINIMUM( MAX_USSD_STRING, len)); } ussdReq->ussdArg.v_ussdString = TRUE; ussdReq->ussdArg.ussdString.o_ussdString = 0; ussdReq->ussdArg.ussdString.l_ussdString = len<<3; /*cmpLen<<3;*/ memset( &ssFIECodeBuf, 0, sizeof( ssFIECodeBuf )); ssFIECodeBuf.l_buf = MAX_FIE_CODE_BUF_LEN<<3; ccd_codeMsg (CCDENT_FAC, UPLINK, (T_MSGBUF *)&ssFIECodeBuf, _decodedMsg, NOT_PRESENT_8BIT); ssShrdPrm.cmpType = CT_INV; } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_asmCnfUSSDReq | +-------------------------------------------------------------------+ PURPOSE : assemble the confirm USSD request facility information element. */ GLOBAL void psaSS_asmCnfUSSDReq ( UBYTE dcs, UBYTE *ussd, UBYTE len ) { UBYTE cmpLen; UBYTE src_len; MCAST( ussdReq, USSD_REQ_RES ); TRACE_FUNCTION("psaSS_asmCnfUSSDReq"); memset( ussdReq, 0, sizeof( T_USSD_REQ_RES )); /* set service code */ ussdReq->v_ussdRes = TRUE; ussdReq->msg_type = USSD_REQ_RES; /* set data coding scheme */ ussdReq->ussdRes.v_ussdDataCodingScheme = TRUE; ussdReq->ussdRes.ussdDataCodingScheme = dcs; /* set ussd response string */ /* Implements Measure 25 */ /* This function is more correct than utl_getAlphabetCb as it takes care of reserved codings */ if( cmh_getAlphabetCb( dcs ) EQ 0 ) /* 7bit alphabet */ { src_len = (UBYTE)MINIMUM( MAX_USSD_STRING, len); cmpLen = utl_cvt8To7( ussd, src_len, ussdReq->ussdRes.ussdString.b_ussdString, 0 ); /* According to spec 23.038 section 6.1.2.3 for USSD packing, for bytes end with * (8*n)-1 i.e where n is 1,2,3....i.e byte 7, 15, 23 ... to be padded * with carriage return <CR>(0xD) */ if ((src_len+1)%8 EQ 0) { ussdReq->ussdRes.ussdString.b_ussdString[cmpLen-1] |= (0xD << 1); } } else { cmpLen = len; memcpy( ussdReq->ussdRes.ussdString.b_ussdString, ussd, MINIMUM( MAX_USSD_STRING, len)); } ussdReq->ussdRes.v_ussdString = TRUE; ussdReq->ussdRes.ussdString.o_ussdString = 0; ussdReq->ussdRes.ussdString.l_ussdString = cmpLen<<3; memset( &ssFIECodeBuf, 0, sizeof( ssFIECodeBuf )); ssFIECodeBuf.l_buf = MAX_FIE_CODE_BUF_LEN<<3; ccd_codeMsg (CCDENT_FAC, UPLINK, (T_MSGBUF *)&ssFIECodeBuf, _decodedMsg, NOT_PRESENT_8BIT); ssShrdPrm.cmpType = CT_RET_RSLT; } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_USSDProt1 | +-------------------------------------------------------------------+ PURPOSE : send USSD according to protocol version 1. */ GLOBAL BOOL psaSS_asmUSSDProt1 ( SHORT sId ) { UBYTE ussdBuf8Bit[MAX_USSD_STRING]; /* buffers 8 bit ussd string */ USHORT ussdLen8Bit; TRACE_FUNCTION("psaSS_asmUSSDProt1"); if( ssShrdPrm.ussdLen AND ssShrdPrm.stb[sId].SSver NEQ NOT_PRESENT_8BIT ) { MCAST( ussdData, PROCESS_USSD_INV ); memset( ussdData, 0, sizeof( T_PROCESS_USSD_INV )); /* set service code */ ussdData->v_ssUserData = TRUE; ussdData->msg_type = PROCESS_USSD_INV; /* GSM data must be 8-bit coded */ if (ssShrdPrm.ussdDcs EQ 0x0F) { ussdLen8Bit = utl_cvt7To8 (ssShrdPrm.ussdBuf, ssShrdPrm.ussdLen, ussdBuf8Bit, 0); } else { memcpy ( ussdBuf8Bit, ssShrdPrm.ussdBuf, ssShrdPrm.ussdLen); ussdLen8Bit = ssShrdPrm.ussdLen; } /* set ussd data string, if convertible */ if( !utl_cvtGsmIra ( ussdBuf8Bit, ussdLen8Bit, ussdData->ssUserData.b_ssUserData, MAX_USSD_DATA, CSCS_DIR_GsmToIra ) ) { return( FALSE ); } ussdData->ssUserData.o_ssUserData = 0; ussdData->ssUserData.l_ssUserData = ssShrdPrm.ussdLen<<3; memset( &ssFIECodeBuf, 0, sizeof( ssFIECodeBuf )); ssFIECodeBuf.l_buf = MAX_FIE_CODE_BUF_LEN<<3; ccd_codeMsg (CCDENT_FAC, UPLINK, (T_MSGBUF *)&ssFIECodeBuf, _decodedMsg, NOT_PRESENT_8BIT); ssShrdPrm.cmpType = CT_INV; /* skip SS version indicator */ ssShrdPrm.stb[sId].SSver = NOT_PRESENT_8BIT; /* repeat USSD string */ psaSS_NewTrns(sId); return( TRUE ); } return( FALSE ); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_asmDeactivateCCBS | +-------------------------------------------------------------------+ PURPOSE : assemble the deactivate CCBS facility information element. */ GLOBAL void psaSS_asmDeactivateCCBS ( UBYTE idx ) { MCAST( ersCCBS, ERASE_CC_ENTRY_INV ); TRACE_FUNCTION("psaSS_asmDeactivateCCBS"); memset( ersCCBS, 0, sizeof( T_ERASE_CC_ENTRY_INV )); /* set service code */ ersCCBS->v_eraseCCEntryArg = TRUE; ersCCBS->msg_type = ERASE_CC_ENTRY_INV; ersCCBS->eraseCCEntryArg.v_ssCode = TRUE; ersCCBS->eraseCCEntryArg.ssCode = SS_CD_CCBS; if( idx NEQ KSD_IDX_NONE ) { ersCCBS->eraseCCEntryArg.v_ccbsIndex = TRUE; ersCCBS->eraseCCEntryArg.ccbsIndex = idx; } memset( &ssFIECodeBuf, 0, sizeof( ssFIECodeBuf )); ssFIECodeBuf.l_buf = MAX_FIE_CODE_BUF_LEN<<3; ccd_codeMsg (CCDENT_FAC, UPLINK, (T_MSGBUF *)&ssFIECodeBuf, _decodedMsg, NOT_PRESENT_8BIT); ssShrdPrm.cmpType = CT_INV; } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_dasmInvokeCmp | +-------------------------------------------------------------------+ PURPOSE : disassemble the result component. */ GLOBAL void psaSS_dasmInvokeCmp ( SHORT sId, T_inv_comp *invCmp ) { USHORT ivId; /* holds invoke Id */ UBYTE opCode; /* holds operation code */ TRACE_FUNCTION("psaSS_dasmInvokeCmp"); if( invCmp -> v_inv_id ) ivId = invCmp -> inv_id; else ivId = NOT_PRESENT_16BIT; if( invCmp -> v_op_code ) opCode = invCmp -> op_code; else opCode = NOT_PRESENT_8BIT; /* store op code and invoke id for result */ ssShrdPrm.stb[sId].iId = (UBYTE)ivId; ssShrdPrm.stb[sId].opCode = opCode; if( invCmp -> params.l_params ) { UBYTE ccdRet; memcpy( ssFIEDecodeBuf, &invCmp -> params, MNCC_FACILITY_LEN ); ccdRet = ccd_decodeMsg (CCDENT_FAC, DOWNLINK, (T_MSGBUF *) ssFIEDecodeBuf, (UBYTE *) _decodedMsg, opCode); if( ccdRet NEQ ccdOK ) { TRACE_EVENT_P1("CCD Decoding Error: %d",ccdRet ); ssShrdPrm.stb[sId].failType = SSF_CCD_DEC; cmhSS_TransFail(sId); } } else memset( ssFIEDecodeBuf, 0, MNCC_FACILITY_LEN ); /* put all valid flags to FALSE */ switch( opCode ) { case( OPC_GET_PASSWORD ): { MCAST( getPWD, GET_PWD_INV ); cmhSS_getPassword( sId, getPWD ); } break; case( OPC_UNSTRUCT_SS_NOTIFY ): { MCAST( ussdNtfy, USSD_NOTIFY_INV ); cmhSS_USSDNotify( sId, ussdNtfy ); } break; case( OPC_UNSTRUCT_SS_REQ ): { MCAST( ussdReq, USSD_REQ_INV ); cmhSS_USSDRequest( sId, ussdReq ); } break; case( OPC_FWD_CHECK_SS_IND ): { cmhSS_FwdChckSS( sId ); } break; } } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_dasmResultCmp | +-------------------------------------------------------------------+ PURPOSE : disassemble the result component. */ GLOBAL void psaSS_dasmResultCmp ( SHORT sId, T_res_comp *resCmp ) { UBYTE opCode; /* holds operation code */ TRACE_FUNCTION("psaSS_dasmResultCmp"); /* get operation code of the result */ if( resCmp -> v_sequence AND resCmp -> sequence.v_op_code ) { opCode = resCmp -> sequence.op_code; } else opCode = ssShrdPrm.stb[sId].opCode; /* decode additional parameters of result */ if( resCmp -> v_sequence AND resCmp -> sequence.params.l_params ) { UBYTE ccdRet; memcpy( ssFIEDecodeBuf, &resCmp -> sequence.params, MNCC_FACILITY_LEN); ccdRet = ccd_decodeMsg (CCDENT_FAC, DOWNLINK, (T_MSGBUF *) ssFIEDecodeBuf, (UBYTE *) _decodedMsg, opCode); if( ccdRet NEQ ccdOK ) { /* Implements Measure#32: Row 1310 */ TRACE_EVENT_P1("CCD Decoding Error: %d", ccdRet ); cmhSS_SSResultFailure( sId ); return; } } /* determine to which operation the result belongs to */ switch( opCode ) { case( OPC_REGISTER_SS ): { MCAST( regSS, REGISTER_SS_RES ); cmhSS_SSRegistrated( sId, regSS ); } break; case( OPC_ERASE_SS ): { MCAST( ersSS, ERASE_SS_RES ); cmhSS_SSErased( sId, ersSS ); } break; case( OPC_ACTIVATE_SS ): { MCAST( actSS, ACTIVATE_SS_RES ); if( !(resCmp -> v_sequence) OR !(resCmp -> sequence.params.l_params) ) { memset(actSS, 0, sizeof(T_ACTIVATE_SS_RES)); } cmhSS_SSActivated( sId, actSS ); } break; case( OPC_DEACTIVATE_SS ): { MCAST( deactSS, DEACTIVATE_SS_RES ); cmhSS_SSDeactivated( sId, deactSS ); } break; case( OPC_INTERROGATE_SS ): { MCAST( irgtSS, INTERROGATE_SS_RES ); cmhSS_SSInterrogated( sId, irgtSS ); } break; case( OPC_REGISTER_PASSWORD ): { MCAST( regPWD, REGISTER_PWD_RES ); cmhSS_SSPWDRegistrated( sId, regPWD ); } break; case( OPC_PROC_UNSTRUCT_SS_DATA ): { MCAST( prcUSSDDat, PROCESS_USSD_RES ); cmhSS_USSDDatProcessed( sId, prcUSSDDat ); } break; case( OPC_PROC_UNSTRUCT_SS_REQ ): { MCAST( prcUSSDReq, PROCESS_USSD_REQ_RES ); cmhSS_USSDReqProcessed( sId, prcUSSDReq ); } break; case( OPC_ERASE_CC_ENTRY ): { MCAST( ersCCNtry, ERASE_CC_ENTRY_RES ); cmhSS_CCNtryErased( sId, ersCCNtry ); } break; } } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_dasmErrorCmp | +-------------------------------------------------------------------+ PURPOSE : disassemble the error component. */ GLOBAL T_ACI_RETURN psaSS_dasmErrorCmp ( SHORT sId, T_err_comp *errCmp, BOOL is_fac_ussd ) { TRACE_EVENT_P1("psaSS_dasmErrorCmp: errCmp: %02x",errCmp -> err_code); if( errCmp -> v_err_code ) { ssShrdPrm.stb[sId].failType = SSF_SS_ERR; ssShrdPrm.stb[sId].errCd = errCmp -> err_code; switch(errCmp -> err_code) { case ERR_PWD_REG_FAIL: if( errCmp -> v_params AND errCmp -> params.l_params ) { T_PW_REGISTRATION_FAILURE_ERR *pwRegFail; pwRegFail = (T_PW_REGISTRATION_FAILURE_ERR *)errCmp -> params.b_params; TRACE_EVENT_P1("VGK:Error reported %d", errCmp -> err_code); TRACE_EVENT_P1("VGK:Error params %d", pwRegFail->pwRegistrationFailureCause); if (pwRegFail->v_pwRegistrationFailureCause) ssShrdPrm.stb[sId].errPrms = pwRegFail->pwRegistrationFailureCause; } break; default: break; } /* check for protocol incompatibility for USSD */ if( is_fac_ussd AND errCmp -> err_code EQ ERR_FAC_NOT_SUPPORTED ) { if( psaSS_asmUSSDProt1(sId) ) { return( AT_CMPL ); } } } return( AT_FAIL ); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_dasmRejectCmp | +-------------------------------------------------------------------+ PURPOSE : disassemble the error component. */ GLOBAL T_ACI_RETURN psaSS_dasmRejectCmp ( SHORT sId, T_rej_comp *rejCmp, BOOL is_fac_ussd ) { TRACE_FUNCTION("psaSS_dasmRejectCmp"); if( rejCmp -> v_gen_problem ) { ssShrdPrm.stb[sId].failType = SSF_GEN_PRB; ssShrdPrm.stb[sId].rejPrb = rejCmp -> gen_problem; } else if( rejCmp -> v_inv_problem ) { ssShrdPrm.stb[sId].failType = SSF_INV_PRB; ssShrdPrm.stb[sId].rejPrb = rejCmp -> inv_problem; /* check for protocol incompatibility for USSD */ if( is_fac_ussd AND rejCmp -> inv_problem EQ INV_PROB_UNRECOG_OP ) { if( psaSS_asmUSSDProt1(sId) ) { return( AT_CMPL ); } } } else if( rejCmp -> v_res_problem ) { ssShrdPrm.stb[sId].failType = SSF_RSL_PRB; ssShrdPrm.stb[sId].rejPrb = rejCmp -> res_problem; } else if( rejCmp -> v_err_problem ) { ssShrdPrm.stb[sId].failType = SSF_ERR_PRB; ssShrdPrm.stb[sId].rejPrb = rejCmp -> err_problem; } return( AT_FAIL ); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SATF | | ROUTINE : psaSAT_ss_end_ind | +-------------------------------------------------------------------+ PURPOSE : handles responses to user after a SS. is_fac_ussd TRUE if facility is a USSD */ GLOBAL T_ACI_RETURN psaSS_ss_end_ind ( SHORT sId, T_COMPONENT *com, BOOL is_fac_ussd ) { if( com->v_res_comp ) { psaSS_dasmResultCmp( sId, &com->res_comp ); return( AT_EXCT ); } if( com->v_err_comp ) { return(psaSS_dasmErrorCmp( sId, &com->err_comp, is_fac_ussd )); } if( com->v_rej_comp ) { return(psaSS_dasmRejectCmp( sId, &com->rej_comp, is_fac_ussd )); } TRACE_EVENT( "WRONG COMPONENT TYPE RECEIVED" ); return(AT_FAIL); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_stbNewEntry | +-------------------------------------------------------------------+ PURPOSE : returns the service table index for a free entry to be used, otherwise the function returns -1 to indicate that no entry is free. */ GLOBAL SHORT psaSS_stbNewEntry ( void ) { SHORT stbIdx; /* holds service table index */ for( stbIdx = 0; stbIdx < MAX_SS_NR; stbIdx++ ) { if( (ssShrdPrm.stb[stbIdx].ntryUsdFlg EQ FALSE) OR (ssShrdPrm.stb[stbIdx].srvStat EQ SSS_IDL) ) { psaSS_InitStbNtry( stbIdx ); return( stbIdx ); } } return( -1 ); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_stbFindTi | +-------------------------------------------------------------------+ PURPOSE : returns the service table index for the entry that holds service parameters for the passed transaction identifier. Returning -1 indicates that the passed ti was not found. */ GLOBAL SHORT psaSS_stbFindTi ( UBYTE ti2Find ) { SHORT stbIdx; /* holds service table index */ for( stbIdx = 0; stbIdx < MAX_SS_NR; stbIdx++ ) { if( ssShrdPrm.stb[stbIdx].ti EQ ti2Find ) return( stbIdx ); } return( -1 ); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_stbFindInvId | +-------------------------------------------------------------------+ PURPOSE : returns the service table index for the entry that holds service parameters for the passed invoke id. Returning -1 indicates that the passed ti was not found. */ GLOBAL SHORT psaSS_stbFindInvId ( UBYTE iId2Find ) { SHORT stbIdx; /* holds service table index */ for( stbIdx = 0; stbIdx < MAX_SS_NR; stbIdx++ ) { if( ssShrdPrm.stb[stbIdx].ntryUsdFlg EQ TRUE AND ssShrdPrm.stb[stbIdx].iId EQ iId2Find ) return( stbIdx ); } return( -1 ); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_chgSrvTypCnt | +-------------------------------------------------------------------+ PURPOSE : this function modifies the service type counter (MOS/MTS) defined by the passed service id by the passed delta value. */ GLOBAL void psaSS_chngSrvTypCnt ( SHORT sId, SHORT dlt ) { switch( ssShrdPrm.stb[sId].srvType ) { case( ST_MOS ): ssShrdPrm.nrOfMOS += dlt; if( ssShrdPrm.nrOfMOS < 0 ) ssShrdPrm.nrOfMOS = 0; break; case( ST_MTS ): ssShrdPrm.nrOfMTS += dlt; if( ssShrdPrm.nrOfMTS < 0 ) ssShrdPrm.nrOfMTS = 0; break; default: TRACE_EVENT( "UNEXP SERVICE TYPE IN STB" ); } } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_getMOSTi | +-------------------------------------------------------------------+ PURPOSE : this function selects a ti out of a pool of valid ti's and inserts it into the passed service table entry. if no ti is available the function returns -1. a bit of the pool stands for a valid ti. 0 indicates a used ti, 1 indicates a free ti. */ GLOBAL SHORT psaSS_getMOSTi( SHORT sId ) { UBYTE idx; /* holds pool idx */ for( idx = 0; idx < MAX_MOSTI_NR; idx++ ) { if( tiPool & (1u << idx) ) { tiPool &= ~(1u << idx); ssShrdPrm.stb[sId].ti = idx; return( 0 ); } } return( -1 ); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_retMOSTi | +-------------------------------------------------------------------+ PURPOSE : this function returns a used ti to the ti pool if the call was a MOS. the ti is free for the next MOS afterwards. a bit of the pool stands for a valid ti. 0 indicates a used ti, 1 indicates a free ti. */ GLOBAL void psaSS_retMOSTi( SHORT sId ) { if( ssShrdPrm.stb[sId].srvType EQ ST_MOS ) if( ssShrdPrm.stb[sId].ti < MAX_MOSTI_NR ) tiPool |= (0x01 << ssShrdPrm.stb[sId].ti); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SS | | ROUTINE : psaSS_InitStbNtry | +-------------------------------------------------------------------+ PURPOSE : initialize the indexed service table entry. */ GLOBAL void psaSS_InitStbNtry ( SHORT idx ) { /* *------------------------------------------------------------------- * initialize call table entry *------------------------------------------------------------------- */ ssShrdPrm.stb[idx].ntryUsdFlg = FALSE; ssShrdPrm.stb[idx].ti = (UBYTE)-1; /* NO_ENTRY is -1 and ti where is is assigning is UBYTE,so typecast with UBYTE */ ssShrdPrm.stb[idx].iId = 0; ssShrdPrm.stb[idx].srvStat = NO_VLD_SSS; ssShrdPrm.stb[idx].srvType = NO_VLD_ST; ssShrdPrm.stb[idx].orgOPC = NOT_PRESENT_8BIT; ssShrdPrm.stb[idx].opCode = NOT_PRESENT_8BIT; ssShrdPrm.stb[idx].ssCode = NOT_PRESENT_8BIT; ssShrdPrm.stb[idx].ussdReqFlg = FALSE; ssShrdPrm.stb[idx].failType = NO_VLD_SSF; ssShrdPrm.stb[idx].entCs = NOT_PRESENT_16BIT; ssShrdPrm.stb[idx].rejPrb = NOT_PRESENT_8BIT; ssShrdPrm.stb[idx].errCd = NOT_PRESENT_8BIT; ssShrdPrm.stb[idx].errPrms = NOT_PRESENT_8BIT; ssShrdPrm.stb[idx].curCmd = AT_CMD_NONE; ssShrdPrm.stb[idx].srvOwn = (T_OWN)CMD_SRC_NONE; ssShrdPrm.stb[idx].SSver = DEF_SS_VER; ssShrdPrm.stb[idx].ussd_operation = FALSE; } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_stbFindUssdReq | +-------------------------------------------------------------------+ PURPOSE : returns the service table index for the entry that has a USSD request pending. Returning -1 indicates that no such service was found. */ GLOBAL SHORT psaSS_stbFindUssdReq ( void ) { SHORT stbIdx; /* holds call table index */ for( stbIdx = 0; stbIdx < MAX_SS_NR; stbIdx++ ) { if( ssShrdPrm.stb[stbIdx].ntryUsdFlg EQ TRUE AND ssShrdPrm.stb[stbIdx].ussdReqFlg EQ TRUE AND ssShrdPrm.stb[stbIdx].srvStat EQ SSS_ACT ) { return( stbIdx ); } } return( -1 ); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_stbFindActSrv | +-------------------------------------------------------------------+ PURPOSE : returns the service table index for the first entry that holds an active service which is not the passed index. Returning -1 indicates that no active service was found. */ GLOBAL SHORT psaSS_stbFindActSrv ( SHORT sId ) { SHORT stbIdx; /* holds call table index */ for( stbIdx = 0; stbIdx < MAX_SS_NR; stbIdx++ ) { if( ssShrdPrm.stb[stbIdx].ntryUsdFlg EQ TRUE AND ssShrdPrm.stb[stbIdx].srvStat EQ SSS_ACT ) { if( stbIdx NEQ sId ) return( stbIdx ); } } return( -1 ); } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SS | | ROUTINE : psaSS_Init | +-------------------------------------------------------------------+ PURPOSE : initialize the protocol stack adapter for SS. */ GLOBAL void psaSS_Init ( void ) { UBYTE stbIdx; /* holds index to service table */ /* *------------------------------------------------------------------- * initialize service table *------------------------------------------------------------------- */ for( stbIdx = 0; stbIdx < MAX_SS_NR; stbIdx++ ) { psaSS_InitStbNtry( stbIdx ); } /* *------------------------------------------------------------------- * initialize shared parameter *------------------------------------------------------------------- */ ssShrdPrm.nrOfMOS = 0; ssShrdPrm.nrOfMTS = 0; ssShrdPrm.iIdNxt = 0; } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SS | | ROUTINE : psaSS_DumpFIE | +-------------------------------------------------------------------+ PURPOSE : Dump facility information element to debug output. */ GLOBAL void psaSS_DumpFIE ( T_fac_inf * fie ) { CHAR strBuf[40+1]; /* holds string buffer */ UBYTE idx, cnt, mcnt; /* buffer index */ CHAR *pDest; /* points to destination */ /* *------------------------------------------------------------------- * format FIE *------------------------------------------------------------------- */ TRACE_EVENT( "FIE SENT/RECEIVED:" ); mcnt = fie->l_fac >> 3; if( mcnt EQ 0 ) { TRACE_EVENT("Empty Facility"); return; } for( cnt = 0; cnt < mcnt; cnt+=idx ) { pDest = strBuf; for( idx = 0; idx < 20 AND idx+cnt < mcnt; idx++ ) { /* Implements Measure#32: Row 1312 */ pDest += sprintf( pDest, format_2X_str, (UBYTE)fie->fac[idx+cnt] ); } *pDest = 0x0; TRACE_EVENT( strBuf ); } } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_stbDump | +-------------------------------------------------------------------+ PURPOSE : this function dumps the service table to the debug output. */ GLOBAL void psaSS_stbDump ( void ) { #ifdef TRACING SHORT stbIdx; /* holds service table index */ char lnBuf[HDR_WDT+(MAX_ITM*ITM_WDT)+1]; /* holds buffer for output line */ char verBuf[VERSION_LEN+1]; /* holds buffer for SS version */ SHORT itmIdx; /* holds items per line index */ SHORT chrNr; /* holds number of processed chars */ for( stbIdx = 0; stbIdx < MAX_SS_NR; stbIdx+=MAX_ITM ) { /* --- service id ----------------------------------------------------------*/ chrNr = sprintf( lnBuf, "%*.*s", HDR_WDT, HDR_WDT, " srv id"); for( itmIdx = 0; (itmIdx<MAX_ITM)AND(itmIdx+stbIdx<MAX_SS_NR); itmIdx++ ) { chrNr += sprintf( lnBuf+chrNr, "%*d", ITM_WDT, stbIdx + itmIdx ); } TRACE_EVENT( lnBuf ); /* --- entry used flag -----------------------------------------------------*/ chrNr = sprintf( lnBuf, "%*.*s", HDR_WDT, HDR_WDT, "entry used" ); for( itmIdx = 0; (itmIdx<MAX_ITM)AND(itmIdx<MAX_SS_NR); itmIdx++ ) { chrNr += sprintf( lnBuf+chrNr, "%*hd", ITM_WDT, ssShrdPrm.stb[stbIdx+itmIdx].ntryUsdFlg ); } TRACE_EVENT( lnBuf ); /* --- transaction identifier ----------------------------------------------*/ chrNr = sprintf( lnBuf, "%*.*s", HDR_WDT, HDR_WDT, " ti" ); for( itmIdx = 0; (itmIdx<MAX_ITM)AND(itmIdx<MAX_SS_NR); itmIdx++ ) { chrNr += sprintf( lnBuf+chrNr, "%*hd", ITM_WDT, ssShrdPrm.stb[stbIdx+itmIdx].ti ); } TRACE_EVENT( lnBuf ); /* --- service status ------------------------------------------------------*/ chrNr = sprintf( lnBuf, "%*.*s", HDR_WDT, HDR_WDT, "srv status" ); for( itmIdx = 0; (itmIdx<MAX_ITM)AND(itmIdx<MAX_SS_NR); itmIdx++ ) { chrNr += sprintf( lnBuf+chrNr, "%*hd", ITM_WDT, ssShrdPrm.stb[stbIdx+itmIdx].srvStat ); } TRACE_EVENT( lnBuf ); /* --- service type --------------------------------------------------------*/ chrNr = sprintf( lnBuf, "%*.*s", HDR_WDT, HDR_WDT, " srv type" ); for( itmIdx = 0; (itmIdx<MAX_ITM)AND(itmIdx<MAX_SS_NR); itmIdx++ ) { chrNr += sprintf( lnBuf+chrNr, "%*hd", ITM_WDT, ssShrdPrm.stb[stbIdx+itmIdx].srvType ); } TRACE_EVENT( lnBuf ); /* --- SS version ----------------------------------------------------------*/ chrNr = sprintf( lnBuf, "%*.*s", HDR_WDT, HDR_WDT, "SS version" ); for( itmIdx = 0; (itmIdx<MAX_ITM)AND(itmIdx<MAX_SS_NR); itmIdx++ ) { chrNr += sprintf( lnBuf+chrNr, "%*d", ITM_WDT, ssShrdPrm.stb[stbIdx+itmIdx].SSver ); } TRACE_EVENT( lnBuf ); /* --- failure type ------------------------------------------------------*/ chrNr = sprintf( lnBuf, "%*.*s", HDR_WDT, HDR_WDT, "fail. type" ); for( itmIdx = 0; (itmIdx<MAX_ITM)AND(itmIdx<MAX_SS_NR); itmIdx++ ) { chrNr += sprintf( lnBuf+chrNr, "%*d", ITM_WDT, ssShrdPrm.stb[stbIdx+itmIdx].failType ); } TRACE_EVENT( lnBuf ); /* --- entity cause ------------------------------------------------------*/ chrNr = sprintf( lnBuf, "%*.*s", HDR_WDT, HDR_WDT, "ent. cause" ); for( itmIdx = 0; (itmIdx<MAX_ITM)AND(itmIdx<MAX_SS_NR); itmIdx++ ) { chrNr += sprintf( lnBuf+chrNr, "%*d", ITM_WDT, ssShrdPrm.stb[stbIdx+itmIdx].entCs ); } TRACE_EVENT( lnBuf ); /* --- reject problem ----------------------------------------------------*/ chrNr = sprintf( lnBuf, "%*.*s", HDR_WDT, HDR_WDT, " rej. prob" ); for( itmIdx = 0; (itmIdx<MAX_ITM)AND(itmIdx<MAX_SS_NR); itmIdx++ ) { chrNr += sprintf( lnBuf+chrNr, "%*hd", ITM_WDT, ssShrdPrm.stb[stbIdx+itmIdx].rejPrb ); } TRACE_EVENT( lnBuf ); /* --- error code ----------------------------------------------------*/ chrNr = sprintf( lnBuf, "%*.*s", HDR_WDT, HDR_WDT, " err. code" ); for( itmIdx = 0; (itmIdx<MAX_ITM)AND(itmIdx<MAX_SS_NR); itmIdx++ ) { chrNr += sprintf( lnBuf+chrNr, "%*hd", ITM_WDT, ssShrdPrm.stb[stbIdx+itmIdx].errCd ); } TRACE_EVENT( lnBuf ); } #endif /* of #ifdef TRACING */ } /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : CMH_F | | ROUTINE : psaSS_GetPendingTrn | +-------------------------------------------------------------------+ PURPOSE : Find Id of a pending call for multy-transaction operation */ GLOBAL SHORT psaSS_GetPendingTrn ( void ) { SHORT bit_len; SHORT i; bit_len = 8 * sizeof(ssShrdPrm.mltyTrnFlg); for (i = 0; i < bit_len; i++) { if ( ssShrdPrm.mltyTrnFlg & ( 0x1 << i ) ) return i; } return -1; } GLOBAL void psaSS_KillAllPendingTrn ( void ) /* sId: main transaction: not to be killed */ { SHORT pending_idx; TRACE_FUNCTION("psaSS_KillAllPendingTrn( )"); while ( ssShrdPrm.mltyTrnFlg ) { pending_idx = psaSS_GetPendingTrn( ); ssShrdPrm.mltyTrnFlg &= ~( 1u << pending_idx ); /* unsent id flag */ ssShrdPrm.stb[ pending_idx ].ntryUsdFlg = FALSE; /* free entry in ss table */ ssShrdPrm.stb[ pending_idx ].srvStat = NO_VLD_SSS; /* not sure if it's necessary...? */ PFREE( ssShrdPrm.stb[pending_idx].save_prim ); /* free pending primitive */ } } /* Implements Measure # 195 */ /* +-------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : PSA_SSF | | ROUTINE : psaSS_asmEraseSS | +-------------------------------------------------------------------+ PURPOSE : Assemble the erase, activate and deactivate SS facility information element. */ LOCAL void psaSS_asmSSForBS ( UBYTE ssCode, UBYTE bscSrvType, UBYTE bscSrv, T_ssForBS *ssForBS) { TRACE_FUNCTION("psaSS_asmSSForBS( )"); /* set service code */ ssForBS->v_ssCode = TRUE; ssForBS->ssCode = ssCode; /* set basic service type */ switch( bscSrvType ) { case( BS_BEAR_SRV ): ssForBS->basicService.v_bearerService = TRUE; ssForBS->basicService.bearerService = bscSrv; break; case( BS_TELE_SRV ): ssForBS->basicService.v_teleservice = TRUE; ssForBS->basicService.teleservice = bscSrv; break; } memset( &ssFIECodeBuf, 0, sizeof( ssFIECodeBuf )); ssFIECodeBuf.l_buf = MAX_FIE_CODE_BUF_LEN<<3; ccd_codeMsg (CCDENT_FAC, UPLINK, (T_MSGBUF *)&ssFIECodeBuf, _decodedMsg, NOT_PRESENT_8BIT); ssShrdPrm.cmpType = CT_INV; } /*==== EOF ========================================================*/