FreeCalypso > hg > fc-magnetite
view src/aci2/aci/ati_err.c @ 680:ee3ac8c617cb
armio.c: set GPIO2 output high initially
On TI-canonical platforms GPIO2 is DCD modem control output. In TI's
original code the AI_InitIOConfig() function called from Init_Target()
would configure GPIO2 as an output and set the initial output value to
low, but then the init code in uartfax.c called from Init_Serial_Flows()
would immediately change it to high, corresponding to DCD not asserted.
The result is a momentary asserted-state glitch on the DCD output.
The present change eliminates this glitch, setting DCD output to
not-asserted initially like it should be.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Thu, 25 Jun 2020 03:17:43 +0000 |
parents | 93999a60b835 |
children |
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/* +----------------------------------------------------------------------------- | Project : GSM-F&D (8411) | Modul : ATI +----------------------------------------------------------------------------- | 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 : AT Command Interpreter: Error handling. +----------------------------------------------------------------------------- */ /*********************************/ /* General Error Handling in ACI */ /*********************************/ #ifndef ATI_ERR_C #define ATI_ERR_C #undef DUMMY_ATI_STRINGS #include "aci_all.h" #include "aci_cmh.h" #include "ati_cmd.h" #include "aci_io.h" #include "aci_cmd.h" #include "l4_tim.h" #include "aci.h" #include "aci_mem.h" #include "aci_lst.h" #include "ati_int.h" #ifdef FF_ATI_BAT #include "typedefs.h" #include "gdd.h" #include "bat.h" #include "ati_bat.h" #endif /*FF_ATI_BAT*/ LOCAL CHAR *AT_Fail_Error(void); EXTERN T_ACI_ERR_DESC aciErrDesc; LOCAL CHAR ErrBuff[MAX_CMD_LEN]; typedef struct { CHAR *msg; CHAR *nmb; AtErrCode code; } AtErrTable; LOCAL const AtErrTable tabAtError[]= { "OK", "0", atOk, "CONNECT", "1", atConnect, "RING", "2", atRing, "NO CARRIER", "3", atNoCarrier, "NO DIALTONE", "6", atNoDialtone, "BUSY", "7", atBusy, "NO ANSWER", "8", atNoAnswer, "CONNECT 9600","15", atConnect1, /* this has to be the last entry */ "ERROR", "4", atError }; GLOBAL CHAR *disable_or_numeric(const CHAR* key,LONG e) // e is actually enum... { UBYTE srcId = srcId_cb; if(ati_user_output_cfg[srcId].CMEE_stat EQ CMEE_MOD_Disable) { cmdAtError(atError); } else if(ati_user_output_cfg[srcId].CMEE_stat EQ CMEE_MOD_Numeric) { sprintf(cmdErrStr,"%s ERROR: %d",key,e); } return cmdErrStr; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI_CMD | | STATE : code ROUTINE : cmdExtError | +--------------------------------------------------------------------+ PURPOSE : handle extended errors */ LOCAL const struct T_ATI_EXT_ERR /* error code - error message mapping */ { const CHAR* msg; /* error message */ const T_ACI_EXT_ERR code; /* error code */ const ULONG displ_code; /* error code to be display */ } err[] = { "parameter not allowed", EXT_ERR_Parameter, EXT_ERR_Parameter, "data corrupted", EXT_ERR_DataCorrupt, EXT_ERR_DataCorrupt, "internal error", EXT_ERR_Internal, EXT_ERR_Internal, "call table full", EXT_ERR_CallTabFull, EXT_ERR_CallTabFull, "service table full", EXT_ERR_SrvTabFull, EXT_ERR_SrvTabFull, "call not found", EXT_ERR_CallNotFound, EXT_ERR_CallNotFound, "no data-call supported", EXT_ERR_NoDataCallSup, EXT_ERR_NoDataCallSup, "one call on hold", EXT_ERR_OneCallOnHold, EXT_ERR_OneCallOnHold, "hold call not supported for this type", EXT_ERR_CallTypeNoHold, EXT_ERR_CallTypeNoHold, "number not allowed by FDN", EXT_ERR_FdnCheck, EXT_ERR_FdnCheck, "number not allowed by BDN", EXT_ERR_BdnCheck, EXT_ERR_BdnCheck, "parallel USSD not supported", EXT_ERR_ParallelUSSD, EXT_ERR_ParallelUSSD, "fax minimum speed condition", EXT_ERR_FaxMinSpeedCond, EXT_ERR_FaxMinSpeedCond, "conflict with command details", EXT_ERR_CmdDetailsSAT, EXT_ERR_CmdDetailsSAT, "IMEI illegal", EXT_ERR_IMEICheck, EXT_ERR_IMEICheck, "not allowed by ALS-Lock", EXT_ERR_AlsLock, EXT_ERR_AlsLock, #if defined FF_EOTD "Command not supported", EXT_ERR_LCS_CmdNotSup, 0, "Command not recognised/out of range", EXT_ERR_LCS_CmdNotRec, 1, "LCS Client ID not recognised/out of range", EXT_ERR_LCS_CLPSClientNotRec, 2, "Interval attribute out of range", EXT_ERR_LCS_IntervalNotSup, 3, "Repeat attribute not supported/ out of range", EXT_ERR_LCS_RepeatNotSup, 4, "Send request type not recognised / out of range", EXT_ERR_LCS_SendReqTyNotRec, 2, "User confirmation request type not recognised / out of range", EXT_ERR_LCS_UsConfReqTyNotRec, 3, "LCS Client ID not recognised/out of range", EXT_ERR_LCS_CLSRClientIdNotRec, 4, "Circuit switched call number out of range", EXT_ERR_LCS_CSCallNumNotSup, 5, #endif /* FF_EOTD */ "error unknown", EXT_ERR_Unknown, EXT_ERR_Unknown, /* this has to be the last entry */ "other error", EXT_ERR_NotPresent, EXT_ERR_NotPresent }; GLOBAL CHAR *cmdExtError (T_ACI_EXT_ERR e) { SHORT idx=0; T_ACI_ERR_DESC aed; UBYTE srcId = srcId_cb; if ( e EQ EXT_ERR_NotPresent ) { if (((aed = qAT_ErrDesc()) >> 16) EQ ACI_ERR_CLASS_Ext) { e = (T_ACI_EXT_ERR)(aed & 0xFFFF); } else { e = EXT_ERR_Unknown; } } *ErrBuff = '\0'; cmdErrStr = ErrBuff; if (ati_user_output_cfg[srcId].CMEE_stat EQ CMEE_MOD_Verbose OR ati_user_output_cfg[srcId].CMEE_stat EQ CMEE_MOD_Numeric) { /* search the array for the index of the notified failure */ while ( err[idx].code NEQ EXT_ERR_NotPresent AND err[idx].code NEQ e ) { idx++; } } else /* Catch some Extended Error Codes and map them to more suitable codes */ { switch (e) { case EXT_ERR_CallTabFull: case EXT_ERR_FdnCheck: case EXT_ERR_BdnCheck: return(cmdAtError(atNoCarrier)); } } if (ati_user_output_cfg[srcId].CMEE_stat EQ CMEE_MOD_Verbose) { strcat(cmdErrStr,"+EXT ERROR: "); strcat( cmdErrStr, err[idx].msg ); } return(disable_or_numeric("+EXT", err[idx].displ_code)); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI_CMD | | STATE : code ROUTINE : cmdCmeError | +--------------------------------------------------------------------+ PURPOSE : handle Mobile Equipment Errors */ #ifdef GPRS #define GPRS_ERR(a,b) a,b, #else #define GPRS_ERR(a,b) #endif /* GPRS */ LOCAL const struct T_ATI_CME_ERR /* error code - error message mapping */ { const CHAR* msg; /* error message */ const T_ACI_CME_ERR code; /* error code */ } error[] = { "phone failure", CME_ERR_PhoneFail, "no connection to phone", CME_ERR_NoConnect, "phone-adaptor link reserved", CME_ERR_LinkRes, "operation not allowed", CME_ERR_OpNotAllow, "operation not supported", CME_ERR_OpNotSupp, "PH-SIM PIN required", CME_ERR_PhSimPinReq, "SIM not inserted", CME_ERR_SimNotIns, "SIM PIN required", CME_ERR_SimPinReq, "SIM PUK required", CME_ERR_SimPukReq, "SIM failure", CME_ERR_SimFail, "SIM busy", CME_ERR_SimBusy, "SIM wrong", CME_ERR_SimWrong, "incorrect password", CME_ERR_WrongPasswd, "SIM PIN2 required", CME_ERR_SimPin2Req, "SIM PUK2 required", CME_ERR_SimPuk2Req, "memory full", CME_ERR_MemFull, "invalid index", CME_ERR_InvIdx, "not found", CME_ERR_NotFound, "memory failure", CME_ERR_MemFail, "text string too long", CME_ERR_TxtToLong, "invalid characters in text string", CME_ERR_InvalidTxtChar, "dial string too long", CME_ERR_DialToLong, "invalid characters in dial string", CME_ERR_InvDialChar, "no network service", CME_ERR_NoServ, "network timeout", CME_ERR_Timeout, "network not allowed - emergency calls only", CME_ERR_LimServ, "Network lock - PIN required", CME_ERR_NetworkPersPinReq, /* PIN to change network personalisation required */ "Network lock - PUK required", CME_ERR_NetworkPersPukReq, /* network personalisation PUK is required */ "Subnetwork lock - PIN required", CME_ERR_NetworkSubsetPersPinReq, /* keycode to change nw subset personalisation required */ "Subnetwork lock - PUK required", CME_ERR_NetworkSubsetPersPukReq, /* network subset personalisation PUK is required */ "Provider lock - PIN required", CME_ERR_ProviderPersPinReq, /* keycode to change service provider personal. required */ "Provider lock - PUK required", CME_ERR_ProviderPersPukReq, /* service provider personalisation PUK is required */ "Corporate lock - PIN required", CME_ERR_CorporatePersPinReq, /* keycode to change corporate personalisation required */ "Corporate lock - PUK required", CME_ERR_CorporatePersPukReq, /* corporate personalisation PUK is required */ "unknown", CME_ERR_Unknown, /* ATTENTION! If you insert new entries before CME_ERR_Unknown, remember to increase NBR_CME_NORM_ERR */ GPRS_ERR("illegal MS", CME_ERR_GPRSBadMs) GPRS_ERR("illegal ME", CME_ERR_GPRSBadMe) GPRS_ERR("GPRS service not allowed", CME_ERR_GPRSNoService) GPRS_ERR("PLMN not allowed", CME_ERR_GPRSBadPlmn) GPRS_ERR("Location not allowed", CME_ERR_GPRSBadLoc) GPRS_ERR("Roaming not allowed in Location Area", CME_ERR_GPRSNoRoam) GPRS_ERR("GPRS service option not supported", CME_ERR_GPRSSerOptNsup) GPRS_ERR("requested service option not subscribed",CME_ERR_GPRSSerOptNsub) GPRS_ERR("service option temporarily out of order",CME_ERR_GPRSSerOptOOO) GPRS_ERR("unspecified GPRS error", CME_ERR_GPRSUnspec) GPRS_ERR("PDP authorisation error", CME_ERR_GPRSPdpAuth) GPRS_ERR("invalid module class", CME_ERR_GPRSBadModClass) "failed to abort", CME_ERR_FailedToAbort, "ACM reset needed", CME_ERR_AcmResetNeeded, /* this has to be the last entry */ "other error", CME_ERR_NotPresent }; GLOBAL CHAR *cmdCmeError (T_ACI_CME_ERR e) { SHORT idx=0; T_ACI_ERR_DESC aed; UBYTE srcId = srcId_cb; *ErrBuff = '\0'; /* initialization */ cmdErrStr = ErrBuff; if ( e EQ CME_ERR_NotPresent ) { if (((aed = qAT_ErrDesc()) >> 16) EQ ACI_ERR_CLASS_Cme) { e = (T_ACI_CME_ERR)(aed & 0xFFFF); } else { e = CME_ERR_Unknown; } } else if( e EQ CME_ERR_Unknown ) { return(AT_Fail_Error()); } if (ati_user_output_cfg[srcId].CMEE_stat EQ CMEE_MOD_Verbose) { strcat(cmdErrStr,"+CME ERROR: "); /* search for the description of the notified error */ while ( error[idx].code NEQ CME_ERR_NotPresent AND error[idx].code NEQ e ) { idx++; } strcat( cmdErrStr, error[idx].msg ); } return(disable_or_numeric("+CME",e)); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI_CMD | | STATE : code ROUTINE : cmdCmsError | +--------------------------------------------------------------------+ PURPOSE : handle Short Message Errors */ LOCAL const struct T_ATI_CMS_ERR /* error code - error message mapping */ { const CHAR* msg; /* error message */ const T_ACI_CMS_ERR code; /* error code */ } cms_err[] = { "unassigned (unallocated) number", CMS_ERR_UnAllocNum, "operator determined barring", CMS_ERR_OpDetermBarr, "call barred", CMS_ERR_CallBarr, "short message transfer rejected", CMS_ERR_TransReject, "destination out of service", CMS_ERR_DestOutOfServ, "unidentified subscriber", CMS_ERR_UnidentSubsc, "facility rejected", CMS_ERR_FacReject, "unknown subscriber", CMS_ERR_UnKnownSubsc, "network out of order", CMS_ERR_NetOutOfOrder, "temporary failure", CMS_ERR_TempFail, "congestion", CMS_ERR_Congestion, "resources unavailable, unspecified", CMS_ERR_ResUnAvail, "requested facility not subscribed", CMS_ERR_FacNotSubscr, "requested facility not implemented", CMS_ERR_FacNotImpl, "invalid short message transfer ref. value", CMS_ERR_TransRefInval, "semantically incorrect message", CMS_ERR_InValSM, "invalid mandatory information", CMS_ERR_InValManInfo, "message type non-existent or not implemented", CMS_ERR_MsgTypNotExist, "message not compatible with SM protocol state", CMS_ERR_MsgNotCompatible, "information element non-existent or not impl.", CMS_ERR_InfoElemNotImpl, "protocol error, unspecified", CMS_ERR_ProtErr, "interworking, unspecified", CMS_ERR_InterWrkUnSpec, "telematic interworking not supported", CMS_ERR_TlmtkNotSup, "short message type 0 not supported", CMS_ERR_SM0NotSup, "cannot replace short message", CMS_ERR_CantReplceSM, "unspecified TP-PID error", CMS_ERR_UnSpecPIDErr, "data coding scheme (alphabet) not supported", CMS_ERR_DcsNotSup, "message class not supported", CMS_ERR_MsgClassNotSup, "unspecified TP-DCS error", CMS_ERR_UnSpecTpDcs, "command cannot be actioned", CMS_ERR_CmdNotAct, "command unsupported", CMS_ERR_CmdUnSup, "unspecified TP-Command error", CMS_ERR_UnSpecTpCmd, "TPDU not supported", CMS_ERR_TpduUnSup, "SC busy", CMS_ERR_ScBsy, "no SC subscription", CMS_ERR_NoScSubsc, "SC system failure", CMS_ERR_ScSysFail, "invalid SME address", CMS_ERR_InValSme, "destination SME barred", CMS_ERR_DestSmeBarr, "SM rejected-duplicate SM", CMS_ERR_SmRejctDuplSm, "TP-VPF not supported", CMS_ERR_SmTPVPFNotSup, "TP-VP not supported", CMS_ERR_SmTPVPNotSup, "SIM SMS storage full", CMS_ERR_SimSmsStorFull, "no SMS storage capability in SIM", CMS_ERR_NoStorInSim, "error in MS", CMS_ERR_ErrInMs, "memory capacity exceeded", CMS_ERR_MemCabExcee, "unspecified error cause", CMS_ERR_UnSpecErr, "ME failure", CMS_ERR_MeFail, "SMS service of ME reserved", CMS_ERR_ServRes, "operation not allowed", CMS_ERR_OpNotAllowed, "operation not supported", CMS_ERR_OpNotSup, "invalid PDU mode parameter", CMS_ERR_InValPduMod, "invalid text mode parameter", CMS_ERR_InValTxtMod, "SIM not inserted", CMS_ERR_SimNotIns, "SIM PIN required", CMS_ERR_SimPinReq, "PH-SIM PIN required", CMS_ERR_PhSimPinReq, "SIM failure", CMS_ERR_SimFail, "SIM busy", CMS_ERR_SimBsy, "SIM wrong", CMS_ERR_SimWrong, "SIM PUK required", CMS_ERR_SimPukReq, "SIM PIN2 required", CMS_ERR_SimPin2Req, "SIM PUK2 required", CMS_ERR_SimPuk2Req, "memory failure", CMS_ERR_MemFail, "invalid memory index", CMS_ERR_InValMemIdx, "memory full", CMS_ERR_MemFull, "SMSC address unknown", CMS_ERR_SmscAdrUnKnown, "no network service", CMS_ERR_NoNetServ, "network timeout", CMS_ERR_NetTimeOut, "no +CNMA acknowledegment expected", CMS_ERR_NoCnmaAckExpect, "unknown error", CMS_ERR_UnknownErr, "failed to abort", CMS_ERR_FailedToAbort, /* this must be the last entry */ "other error", CMS_ERR_NotPresent }; #define NBR_CMS_ERR 69 #define MAX_CMS_LTH 60 GLOBAL char* cmdCmsError ( T_ACI_CMS_ERR e ) { int i = 0; T_ACI_ERR_DESC aed; UBYTE srcId = srcId_cb; if ( e EQ CMS_ERR_NotPresent ) { if (((aed = qAT_ErrDesc()) >> 16) EQ ACI_ERR_CLASS_Cms) { e = (T_ACI_CMS_ERR)(aed & 0xFFFF); } else /* no SMS error code */ { e = CMS_ERR_UnknownErr; } } { *ErrBuff = '\0'; /* build message */ cmdErrStr = ErrBuff; if ( ati_user_output_cfg[srcId].CMEE_stat EQ CMEE_MOD_Verbose ) { strcat( cmdErrStr, "+CMS ERROR: " ); while ( cms_err[i].code NEQ CMS_ERR_NotPresent AND cms_err[i].code NEQ e ) { i++; } strcat( cmdErrStr, cms_err[i].msg ); } else if ( ati_user_output_cfg[srcId].CMEE_stat EQ CMEE_MOD_Disable ) { strcat ( cmdErrStr, "ERROR" ); } else if ( ati_user_output_cfg[srcId].CMEE_stat EQ CMEE_MOD_Numeric ) { sprintf ( cmdErrStr, "+CMS ERROR: %d", e ); } } return cmdErrStr; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI_CMD | | STATE : code ROUTINE : atPlusCEER | +--------------------------------------------------------------------+ PURPOSE : Extented error report */ typedef struct { char * desc; T_ACI_CEER rpt; } CEER_TABLE; /* Defined by standards CEER cause description table */ const CEER_TABLE StdCEERDesc[]= { {"unassigned number", CEER_Unassign }, {"no route to destination", CEER_NoRoute }, {"channel unacceptable", CEER_ChanUnaccept }, {"operator determined barring", CEER_Barred }, {"normal call clearing", CEER_CallClear }, {"user busy", CEER_UserBusy }, {"no user responding", CEER_NoResponse }, {"user alerting, no answer", CEER_AlertNoAnswer }, {"call rejected", CEER_CallReject }, {"number changed", CEER_NumChanged }, {"non selected user clearing", CEER_UserClear }, {"destination out of order", CEER_DestOutOfOrder }, {"invalid number format", CEER_NumFormat }, {"facility rejected", CEER_FacilityReject }, {"response to status enquiry", CEER_StatusEnquiry }, {"normal, unspecified", CEER_Unspecified }, {"no channel available", CEER_NoChanAvail }, {"network out of order", CEER_NetworkOutOfOrder }, {"temporary failure", CEER_TempFailure }, {"switching equipment congestion", CEER_SwitchCongest }, {"access information discarded", CEER_InfoDiscard }, {"requested channel unavailable", CEER_ReqChanUnavail }, {"recources unavailable", CEER_ResourceUnavail }, {"quality of service unavailable", CEER_QOS_Unavail }, {"requested facility unsubscribed", CEER_FAC_Unsubscr }, {"incoming calls barred within CUG", CEER_BarredInCUG }, {"bearer capability not authorized", CEER_BearerCapNotAuth }, {"bearer capability not available", CEER_BearerCapUnavail }, {"service not available", CEER_ServUnavail }, {"bearer service not implemented", CEER_BearerNotImpl }, {"ACM reached ACM maximum", CEER_ACM_Max }, {"facility not implemented", CEER_FAC_NotImpl }, {"only restricted bearer cap. avail.", CEER_RestrictBearerCap }, {"service not implemented", CEER_ServNotImpl }, {"invalid TI", CEER_InvalidTI }, {"no member of CUG", CEER_UserNotInCUG }, {"incompatible destination", CEER_IncompatDest }, {"invalid transit network selection", CEER_InvalidTransNet }, {"incorrect message", CEER_IncorrMsg }, {"invalid mandatory information", CEER_InvalidMandInfo }, {"message type not implemented", CEER_MsgTypeNotImpl }, {"message type incompatible", CEER_MsgTypeIncomp }, {"info element not implemented", CEER_InfoElemNotImpl }, {"conditional info element error", CEER_CondInfoElem }, {"message incompatible", CEER_MsgIncomp }, {"recovery on time expiry", CEER_Timer }, {"protocol error", CEER_Protocol }, {"interworking error", CEER_Interworking }, {"bearer service not available", CEER_ReqBearerServNotAvail }, {"no TI available", CEER_NoTransIdAvail }, {"timer 303 expiry", CEER_Timer303 }, {"establishment failure", CEER_EstabFail }, {"no error", CEER_NoError }, {"operation failed", CEER_Failed }, {"timeout", CEER_Timeout }, {"bearer service not compatible", CEER_BearerServNotCompat }, #ifdef GPRS {"unsuccessful GPRS attach", CEER_FailedGPRSAttach }, {"unsuccessful PDP context activation",CEER_FailedGPRSContextAct }, {"GPRS detach", CEER_GPRSDetach }, {"GPRS PDP context deactivation", CEER_GPRSDeactivation }, #endif /* GPRS */ /* these have to be the last entries */ {"no error", CEER_NotPresent }, /* last entry for at+ceer */ { NULL, 0} }; /* Proprietary ACI CEER cause description table */ const CEER_TABLE pACI_CEERDesc[]= { {"ACM reached ACM maximum", P_CEER_ACMMaxReachedOrExceeded, }, {"number not in FDN list", P_CEER_InvalidFDN }, /* these have to be the last entries */ {"no error", P_CEER_NotPresent }, /* last entry for at+ceer */ { NULL, 0} }; /* Proprietary MM CEER cause description table */ const CEER_TABLE pMM_CEERDesc[]= { {"IMSI not present in HLR", P_MM_CEER_IMSINotInHLR}, {"no service", P_MM_CEER_NoService }, /* these have to be the last entries */ {"no error", P_MM_CEER_NotPresent }, /* last entry for at+ceer */ { NULL, 0} }; /* Proprietary SS CEER cause description table */ const CEER_TABLE pSS_CEERDesc[]= { {"Unknown Subscriber", P_SS_CEER_UnknownSubscriber }, {"Illegal Subscriber", P_SS_CEER_IllegalSubscriber }, {"Bearer service not provisioned", P_SS_CEER_BearerSvcNotProv }, {"Teleservice not provisioned", P_SS_CEER_TeleSvcNotProv }, {"Illegal Equipment", P_SS_CEER_IllegalEquipment }, {"Call barred", P_SS_CEER_CallBarred }, {"Illegal supplementary service operation", P_SS_CEER_IllegalSSOperation }, {"SS error status", P_SS_CEER_SSerrStatus }, {"SS not available", P_SS_CEER_SSNotAvail }, {"SS subscript violation", P_SS_CEER_SSSubsViolation }, {"SS incompatible", P_SS_CEER_SSIncomp }, {"Facility not supported", P_SS_CEER_FacNotSupported }, {"Absent subscriber", P_SS_CEER_AbsentSubs }, {"System failure", P_SS_CEER_SystenFail }, {"Data Missing", P_SS_CEER_DataMissing }, {"Unexpected Data Value", P_SS_CEER_UnexpectData }, {"Password registration failure", P_SS_CEER_PwdRegFail }, {"Negative password check", P_SS_CEER_NegPwdCheck}, {"Number of password attempts violation", P_SS_CEER_NumPwdViolation }, {"Unknown alphabet", P_SS_CEER_UnknownAlpha }, {"Unstructured supplementary service data busy", P_SS_CEER_UssdBusy }, {"Number of multiparty participants exceeded", P_SS_CEER_MaxNumMptyExceed }, {"Resource not available", P_SS_CEER_ResourceNotAvail }, /* these have to be the last entries */ {"no error", P_SS_CEER_NotPresent }, /* last entry for at+ceer */ { NULL, 0} }; #define MAX_CEER_DESC_LTH (50) #define MAX_CEER_VAL_LTH (11) GLOBAL void getCeerDesc(USHORT cause, char *desc) { SHORT idx; int val; TRACE_FUNCTION("getCeerDesc()"); memset(desc,0,MAX_CEER_DESC_LTH); if ( GET_CAUSE_DEFBY(cause) EQ DEFBY_STD ) { TRACE_EVENT_P1("Cause: %d, defined by standard", cause); val = GET_CAUSE_VALUE(cause); if ( val EQ NOT_PRESENT_8BIT ) { val = CEER_NotPresent; } TRACE_EVENT("Get desc from Standard CEER desc table"); for( idx = 0; StdCEERDesc[idx].desc NEQ NULL; idx++ ) { if ( StdCEERDesc[idx].rpt EQ val ) { memcpy(desc, StdCEERDesc[idx].desc, strlen(StdCEERDesc[idx].desc) ); return; } } } if ( GET_CAUSE_DEFBY(cause) EQ DEFBY_CONDAT ) { if ( GET_CAUSE_ORIGIN_ENTITY(cause) EQ ACI_ORIGINATING_ENTITY ) { TRACE_EVENT_P1("Cause: %d, is ACI proprietary", cause); val = GET_CAUSE_VALUE(cause); if ( val EQ NOT_PRESENT_8BIT ) { val = P_CEER_NotPresent; } TRACE_EVENT("Get desc from proprietary ACI CEER desc table"); for( idx = 0; pACI_CEERDesc[idx].desc NEQ NULL; idx++ ) { if ( pACI_CEERDesc[idx].rpt EQ val ) { memcpy(desc, pACI_CEERDesc[idx].desc, strlen(pACI_CEERDesc[idx].desc) ); return; } } } else if ( GET_CAUSE_ORIGIN_ENTITY(cause) EQ MM_ORIGINATING_ENTITY ) { TRACE_EVENT_P1("Cause: %d, is MM proprietary", cause); val = GET_CAUSE_VALUE(cause); if ( val EQ NOT_PRESENT_8BIT ) { val = P_MM_CEER_NotPresent; } TRACE_EVENT("Get desc from proprietary MM CEER desc table"); for( idx = 0; pMM_CEERDesc[idx].desc NEQ NULL; idx++ ) { if ( pMM_CEERDesc[idx].rpt EQ val ) { memcpy(desc, pMM_CEERDesc[idx].desc, strlen(pMM_CEERDesc[idx].desc) ); return; } } } else if ( GET_CAUSE_ORIGIN_ENTITY(cause) EQ SS_ORIGINATING_ENTITY ) { TRACE_EVENT_P1("Cause: %d, is SS proprietary", cause); val = GET_CAUSE_VALUE(cause); if ( val EQ NOT_PRESENT_8BIT ) { val = P_SS_CEER_NotPresent; } TRACE_EVENT("Get desc from proprietary SS CEER desc table"); for( idx = 0; pSS_CEERDesc[idx].desc NEQ NULL; idx++ ) { if ( pSS_CEERDesc[idx].rpt EQ val ) { memcpy(desc, pSS_CEERDesc[idx].desc, strlen(pSS_CEERDesc[idx].desc) ); return; } } } } } GLOBAL T_ATI_RSLT atPlusCEER(char *cl, UBYTE srcId) { TRACE_FUNCTION("atPlusCEER()"); #ifdef FF_ATI_BAT { T_BAT_cmd_send cmd; T_BAT_no_parameter dummy; cmd.ctrl_params=BAT_CMD_SET_PLUS_CEER; dummy.bat_dummy = 0xFF; cmd.params.ptr_set_plus_ceer = &dummy; bat_send(ati_bat_get_client(srcId), &cmd); return(ATI_EXCT); } #else /* no FF_ATI_BAT */ { char desc[MAX_CEER_DESC_LTH]; T_ACI_RETURN ret; USHORT cause; ret=qAT_PlusCEER( srcId, &cause ); if (ret EQ AT_CMPL) { /* check if description text is available*/ getCeerDesc(cause, desc); if ( desc[0] EQ 0 ) { /* no description text is available */ sprintf( g_sa, "+CEER: %d,%d,%d,%d", GET_CAUSE_DEFBY(cause), GET_CAUSE_ORIGSIDE(cause), GET_CAUSE_ORIGIN_ENTITY(cause), GET_CAUSE_VALUE(cause)); } else { /* description text is available */ sprintf( g_sa, "+CEER: %d,%d,%d,%d,%s", GET_CAUSE_DEFBY(cause), GET_CAUSE_ORIGSIDE(cause), GET_CAUSE_ORIGIN_ENTITY(cause), GET_CAUSE_VALUE(cause), desc ); } io_sendMessage(srcId, g_sa, ATI_NORMAL_OUTPUT); return ATI_CMPL; } else { cmdAtError(atError); return ATI_FAIL; } } #endif /* no FF_ATI_BAT */ } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI_CMD | | STATE : code ROUTINE : atPercentCSSD | +--------------------------------------------------------------------+ PURPOSE : Supplementary Service Diagnostic */ GLOBAL T_ATI_RSLT atPercentCSSD(char *cl, UBYTE srcId) { T_ACI_RETURN ret; UBYTE ss_diag; CHAR *me = "%CSSD: "; TRACE_FUNCTION("atPercentCSSD()"); ret = qAT_PercentCSSD( srcId, &ss_diag); if (ret EQ AT_CMPL) { sprintf( g_sa, "%s%d", me, ss_diag ); io_sendMessage(srcId, g_sa, ATI_NORMAL_OUTPUT); return ATI_CMPL; } else { cmdAtError(atError); return ATI_FAIL; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI_CMD | | STATE : code ROUTINE : cmdCeerError | +--------------------------------------------------------------------+ PURPOSE : handle CEER Errors */ GLOBAL CHAR *cmdCeerError(USHORT cause) { T_ACI_ERR_DESC aed; char desc[MAX_CEER_DESC_LTH]; UBYTE srcId = srcId_cb; *ErrBuff = '\0'; /* build message */ cmdErrStr = ErrBuff; if ( GET_CAUSE_VALUE(cause) EQ NOT_PRESENT_8BIT ) { if (((aed = qAT_ErrDesc()) >> 16) EQ ACI_ERR_CLASS_Ceer) cause = (T_ACI_CEER)(aed & 0xFFFF); else cause = CAUSE_MAKE(DEFBY_STD, ORIGSIDE_MS, ACI_ORIGINATING_ENTITY, CEER_NoError); } if (ati_user_output_cfg[srcId].CMEE_stat EQ CMEE_MOD_Verbose) { sprintf(cmdErrStr, "+CEER ERROR: %d,%d,%d,%d", GET_CAUSE_DEFBY(cause), GET_CAUSE_ORIGSIDE(cause), GET_CAUSE_ORIGIN_ENTITY(cause), GET_CAUSE_DEFBY(cause)); getCeerDesc(cause, desc); if ( desc[0] NEQ 0 ) { strcat( cmdErrStr, desc); } } return(disable_or_numeric("+CEER",cause)); } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI_CMD | | STATE : code ROUTINE : cmdAtError | +--------------------------------------------------------------------+ PURPOSE : handle standard AT Errors */ GLOBAL CHAR *cmdAtError (AtErrCode e) { SHORT idx=0; *ErrBuff = '\0'; cmdErrStr = ErrBuff; /* search for the description of the notified error */ while ( tabAtError[idx].code NEQ atError AND tabAtError[idx].code NEQ e ) { idx++; } sprintf(cmdErrStr,(at.s1415.atV) ? tabAtError[idx].msg : tabAtError[idx].nmb); return cmdErrStr; } /* +--------------------------------------------------------------------+ | PROJECT : GSM-F&D (8411) MODULE : ACI_CMD | | STATE : code ROUTINE : AT_FailError | +--------------------------------------------------------------------+ PURPOSE : General handling of errors (either CME CMS CEER or EXT errors) when function returns AT_FAIL */ #define ACI_GET_ERR_CLASS() ((aciErrDesc & 0xFFFF0000) >> 16) #define ACI_GET_ERR_VALUE() (aciErrDesc & 0x0000FFFF) #define ACI_RESET_ERR_DESC() (aciErrDesc = 0xFFFFFFFF) #define ACI_VALID_ERR_DESC() (aciErrDesc NEQ 0xFFFFFFFF) LOCAL CHAR *AT_Fail_Error(void) { T_ACI_ERR_CLASS err_class; if ( ACI_VALID_ERR_DESC() ) { err_class = ACI_GET_ERR_CLASS(); switch(err_class) { case(ACI_ERR_CLASS_NotPresent): break; case(ACI_ERR_CLASS_Cme): { T_ACI_CME_ERR l_err; l_err = ACI_GET_ERR_VALUE(); ACI_RESET_ERR_DESC(); // needs to be reinitialized return(cmdCmeError (l_err)); } case(ACI_ERR_CLASS_Cms): { T_ACI_CMS_ERR l_err; l_err = ACI_GET_ERR_VALUE(); ACI_RESET_ERR_DESC(); // needs to be reinitialized return(cmdCmsError (l_err)); } case(ACI_ERR_CLASS_Ceer): { T_ACI_CEER l_err; l_err = ACI_GET_ERR_VALUE(); ACI_RESET_ERR_DESC(); // needs to be reinitialized /* return(cmdCeerError((USHORT)err)); */ return(cmdCeerError(l_err)); } case(ACI_ERR_CLASS_Ext): { T_ACI_EXT_ERR l_err; l_err = ACI_GET_ERR_VALUE(); ACI_RESET_ERR_DESC(); // needs to be reinitialized return(cmdExtError (l_err)); } default: break; } } *ErrBuff = '\0'; cmdErrStr = ErrBuff; return (cmdCmeError(CME_ERR_NotPresent)); } #endif /* ATI_ERR_C */