FreeCalypso > hg > fc-selenite
view src/g23m-aci/aci/psa_cc.h @ 149:bd1301884216
l1_small.c: BIG_SMALL_SLEEP support like in Magnetite
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Wed, 06 Feb 2019 23:21:43 +0000 |
parents | d393cd9bb723 |
children |
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/* +----------------------------------------------------------------------------- | Project : GSM-PS (6147) | Modul : PSA +----------------------------------------------------------------------------- | 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 : Definitions for the protocol stack adapter | Call Control ( CC ) +----------------------------------------------------------------------------- */ #ifndef PSA_CC_H #define PSA_CC_H #include "aci_lst.h" /*==== CONSTANTS ==================================================*/ #define DEF_CLIR_SUP (MNCC_CLR_SUP) /* default CLIR suppression */ #define DEF_BC1_UR (MNCC_UR_NOT_PRES) /* default user rate BC 1 */ #define DEF_BC2_UR (MNCC_UR_NOT_PRES) /* default user rate BC 2 */ #define DEF_BC1_BS (MNCC_BEARER_SERV_NOT_PRES) /* default bearer service BC 1 */ #define DEF_BC2_BS (MNCC_BEARER_SERV_NOT_PRES) /* default bearer service BC 2 */ #define DEF_BC1_CE (MNCC_CONN_ELEM_NOT_PRES) /* default connection element BC 1 */ #define DEF_BC2_CE (MNCC_CONN_ELEM_NOT_PRES) /* default connection element BC 2 */ #define DEF_BC1_SB (MNCC_STOP_1_BIT) /* default stop bits BC 1 */ #define DEF_BC2_SB (MNCC_STOP_1_BIT) /* default stop bits BC 2 */ #define DEF_BC1_DB (MNCC_DATA_8_BIT) /* default data bits BC 1 */ #define DEF_BC2_DB (MNCC_DATA_8_BIT) /* default data bits BC 2 */ #define DEF_BC1_PR (MNCC_PARITY_NONE) /* default parity BC 1 */ #define DEF_BC2_PR (MNCC_PARITY_NONE) /* default parity BC 2 */ #define DEF_BC1_FC (MNCC_NO_FLOW_CONTROL) /* default flow control BC 1 */ #define DEF_BC2_FC (MNCC_NO_FLOW_CONTROL) /* default flow control BC 2 */ #define DEF_BC1_MT (MNCC_MT_NONE) /* default flow control BC 1 */ #define DEF_BC2_MT (MNCC_MT_NONE) /* default flow control BC 2 */ #define DEF_BC1_TC (MNCC_ITC_NONE) /* default transfer cap BC 1 */ #define DEF_BC1_RA (MNCC_RATE_ADAPT_NONE) /* default rate adaption BC 1 */ #define DEF_UD_MD (MNCC_MD_NOT_PRES) /* default more user data */ #define DEF_UD_CL (MNCC_CL_NOT_PRES) /* default congest level user data */ #define DEF_RPT_IND (MNCC_RI_NOT_PRES) /* default repeat indicator */ #define DEF_OS_TOS (MNCC_TOS_NOT_PRES) /* default type of subaddress */ #define MAX_ALPHA (20) /* maximum length of alpha identifier */ #define MAX_DTMF_DIG (MAX_DIAL_LEN) /* maximum number of DTMF digits */ #define NO_ENTRY (-1) /* not a valid entry */ typedef enum /* call status */ { NO_VLD_CS = 0, /* not a valid call status */ CS_IDL, /* call idle */ CS_ACT_REQ, /* call active request */ CS_ACT, /* call active */ CS_HLD_REQ, /* call hold request */ CS_HLD, /* call held */ CS_DSC_REQ, /* call disconnect request */ CS_CPL_REQ, /* call completion request */ CS_MDF_REQ, /* call modification request */ CS_SAT_REQ /* call SAT request */ #ifdef FF_SAT_E , CS_SAT_CSD_REQ /* call SAT open CSD channel request */ #endif /* FF_SAT_E */ } T_CC_CLST; typedef enum /* data status */ { NO_VLD_DS = 0, /* not a valid data status */ DS_IDL, /* data idle */ DS_ACT_REQ, /* data active request */ DS_ACT, /* data active */ DS_DSC_REQ, /* data disconnect request */ DS_ABO_REQ, /* data abort request */ DS_MDF_REQ, /* data modification request */ DS_REST_REQ, /* data reestablishment request */ DS_STOP_REQ, /* data stop request */ DS_TCH_MDF /* data TCH modification expected */ } T_CC_DTST; typedef enum { NO_VLD_CT = 0, /* not a valid call type */ CT_MOC, /* mobile originated call */ CT_MTC, /* mobile terminated call */ CT_NI_MOC, /* network initiated mobile originated call */ CT_MOC_RDL /* redialling mobile originated call */ } T_CC_CLTP; typedef enum { NO_VLD_AS = 0, /* not a valid alert state */ AS_IDL, /* alerting not sended */ AS_PND, /* alerting pending */ AS_SND /* alerting sended */ } T_CC_ALST; typedef enum { NO_VLD_MT = 0, /* not a valid message type */ MT_SETUP, /* setup message */ MT_DISC, /* disconnect message */ MT_ALRT, /* alert message */ MT_PROC, /* proceeding message */ MT_SYNC, /* synchronization message */ MT_PROGR, /* progress message */ MT_CONN /* connected message */ } T_CC_MSGT; typedef enum { NO_VLD_BCRI = 0, /* not a valid bc request id */ BCRI_SAT /* bc request by SAT */ } T_BC_RQID; typedef enum { NO_VLD_CCBSS = 0, /* not a valid CCBS status */ CCBSS_PSSBL, /* CCBS is possible */ CCBSS_REQ /* CCBS registration requested */ } T_CC_CCBSS; typedef enum { NO_VLD_CD = 0, /* not a valid CD status */ CD_Requested, /* CD Request sent */ CD_Failed, /* CD Request failed (Reject, Error) */ CD_Succeeded, /* CD Request succeeded (Result) */ CD_Notified /* CD Notification received */ } T_CD_STAT; /* Wap States for the parameter CCShrdParm.wapStat */ #if defined (FF_WAP) || defined (FF_SAT_E) typedef enum { CC_WAP_STACK_DOWN = 0, /* Wapstack is down */ CC_WAP_STACK_UP /* Wapstack is activ */ } T_CC_WAP; #endif typedef enum { END_UNDEFINED = -1, NEAR_END, FAR_END } T_CC_INITIATER; typedef enum { TTY_STATE_NONE, TTY_STATE_IDLE, TTY_STATE_SYNC, TTY_STATE_BCAP, TTY_STATE_WAIT, TTY_STATE_ACTIVE } T_CC_TTY_STATE; typedef enum { ALS_CMD_NONE, ALS_CMD_SET, ALS_CMD_TEST } T_CC_ALS_CMD; /*==== TYPES ======================================================*/ typedef struct CCDTMFPrm { SHORT cId; /* DTMF related call id */ UBYTE cnt; /* count of DTMF to send */ UBYTE cur; /* current DTMF digit */ UBYTE dig[MAX_DTMF_DIG+1]; /* buffer for DTMF digits to send +'\0'*/ } T_CC_DTMF_PRM; /* * called party, dynamic structure */ typedef struct { UBYTE ton; /* type of number */ UBYTE npi; /* numbering plan identification */ UBYTE c_called_num; /* number of BCD digits */ UBYTE *called_num; /* bcd (unpacked) */ } T_dyn_called_party; /* * redirecting party, dynamic structure */ typedef struct { UBYTE ton; /* type of number */ UBYTE npi; /* numbering plan identification */ UBYTE present; /* presentation indicator */ UBYTE screen; /* screening indicator */ UBYTE c_redir_num; /* number of BCD digits */ UBYTE *redir_num; /* bcd (unpacked) */ } T_dyn_redir_party; /* * subaddress, dynamic structure */ typedef struct { UBYTE tos; /* type of subaddress */ UBYTE odd_even; /* odd / even indicator */ UBYTE c_subaddr; /* length of subaddress info */ UBYTE *subaddr; /* subaddress information */ } T_dyn_redir_party_sub; typedef struct CCCallTabl { UBYTE ti; /* transaction identifier */ UBYTE calStat; /* call status */ UBYTE calType; /* type of call */ UBYTE alrtStat; /* alerting status */ BOOL inBndTns; /* in-band tones flag */ UBYTE prgDesc; /* progress description */ T_MNCC_bcpara BC[2]; /* bearer capabilities */ UBYTE curBC; /* current bearer capability */ T_MNCC_calling_party clgPty; /* calling party address */ T_MNCC_calling_party_sub clgPtySub; /* calling party subaddress */ T_dyn_called_party cldPty; /* called party address */ T_MNCC_called_party_sub cldPtySub; /* called party subaddress */ T_dyn_redir_party rdrPty; /* Redirecting party */ T_dyn_redir_party_sub rdrPtySub; /* Redirecting party subaddress */ /*CHAR alphId[MAX_ALPHA+1];*/ /* alpha identifier */ T_ACI_PB_TEXT alphIdUni; /* alpha identifier */ UBYTE rptInd; /* repeat indicator */ UBYTE sigInf; /* signal information */ UBYTE prio; /* priority of call */ UBYTE CLIRsup; /* CLIR suppression */ UBYTE mptyStat; /* multiparty status */ UBYTE iId; /* invoke id */ UBYTE srvStat; /* service status */ UBYTE srvType; /* type of service */ UBYTE SSver; /* supplementary service version */ UBYTE opCode; /* SS operation code */ UBYTE CUGidx; /* CUG index */ UBYTE CUGprf; /* preferential CUG */ UBYTE OAsup; /* OA suppress */ USHORT rslt; /* result */ USHORT nrmCs; /* normal cause */ USHORT rejCs; /* rejection cause */ UBYTE failType; /* type of SS failure */ UBYTE rejPrb; /* reject problem code */ UBYTE errCd; /* return error code */ UBYTE ssDiag; /* SS diagnostic (CQ 23619 - %DIAG) */ UBYTE SATinv; /* SAT invocation flag */ UBYTE CCBSstat; /* CCBS status */ UBYTE CDStat; /* CD status */ UBYTE curCmd; /* current command executing */ S8 curSrc; /* current command source */ BOOL dtmfCmd; /* AT_CMD_VTS or AT_CMD_NONE */ UBYTE dtmfMode; /* DTMF_MOD_AUTO/DTMF_MOD_MAN_START/DTMF_MOD_MAN_STOP */ T_OWN dtmfSrc; /* current command source for DTMF */ T_OWN calOwn; /* owner of call */ #ifdef SIM_TOOLKIT BOOL SatDiscEvent; /* flag for DISC event for SAT */ #endif UBYTE rdlCnt; /* redial counter */ UBYTE rdlTimIndex; /* redial timer index for 5th and more attempts */ USHORT curCs; /* current cause of rejected call intended for %CPI reports*/ UBYTE numRawCauseBytes; /* Number of cause bytes-for SAT evt Download CTS cases*/ UBYTE *rawCauseBytes; /* Pointer to cause value sent by network*/ } T_CC_CALL_TBL; typedef struct CCShrdParm { T_ACI_CMOD_MOD CMODmode; SHORT cIdFail; /* holds failed call identifier */ SHORT cIdMPTY; /* holds multiparty root call id */ SHORT nrOfMOC; /* number of current MOC's */ SHORT nrOfMTC; /* number of current MTC's */ UBYTE chMod; /* channel mode */ UBYTE chType; /* channel type */ USHORT syncCs; /* synchronisation cause */ BOOL TCHasg; /* TCH assignment flag */ #ifdef FAX_AND_DATA T_ACI_BS_SPEED CBSTspeed; /* parameters passed to CC by CC_CNFG_REQ: for MTC */ T_ACI_CBST_NAM CBSTname; /* parameters passed to CC by CC_CNFG_REQ: for MTC */ T_ACI_CBST_CE CBSTce; /* parameters passed to CC by CC_CNFG_REQ: for MTC */ #endif /* FAX_AND_DATA */ UBYTE snsMode; /* single numbering scheme mode */ UBYTE iIdNxt; /* next available invoke id */ UBYTE cmpType; /* component type */ UBYTE msgType; /* message type */ T_CC_CALL_TBL *ctb[MAX_CALL_NR];/* max. nr of calls pointers to call table */ USHORT ccCs[MAX_CALL_NR]; /* Last CC cause for qAT_PlusCEER() */ S8 callType[MAX_CALL_NR]; /* Call type T_CC_CALL_TYPE has to survive call end */ T_CC_DTMF_PRM dtmf; /* dtmf parameter */ T_ACI_LIST *facility_list; /* List with stored MNCC_FACILITY_IND */ UBYTE wapStat; /* Wap connection status */ UBYTE als_cmd; /* ALS command: set or query */ UBYTE aocRsmpPend; /* resumption of AOC pending */ BOOL BC0_send_flag; /* Flag the 1st bearer capability for data call */ BOOL BC1_send_flag; /* Flag the 2nd bearer capability for data call */ UBYTE datStat; /* data connection status */ #ifdef FF_TTY UBYTE ctmReq; /* TTY/CTM Service to be requested */ UBYTE ctmState; /* State of TTY/CTM Service */ UBYTE ttyCmd; /* Type of TTY: HCO, VCO, bidirectional */ UBYTE ctmOvwr; /* overwrite CTM request for next call */ #endif T_ACI_CVHU_MODE cvhu; /* Voice Hangup Control */ } T_CC_SHRD_PRM; /*==== PROTOTYPES =================================================*/ EXTERN SHORT psaCC_NewCall ( SHORT cId ); EXTERN void psaCC_AcceptCall ( SHORT cId ); EXTERN void psaCC_ClearCall ( SHORT cId ); EXTERN void psaCC_HoldCall ( SHORT cId ); EXTERN void psaCC_RetrieveCall ( SHORT cId ); EXTERN SHORT psaCC_ModifyCall ( SHORT cId ); EXTERN void psaCC_Config ( void ); EXTERN void psaCC_BuildMPTY ( SHORT cId ); EXTERN void psaCC_Hold_RetrieveMPTY ( SHORT cId, T_CC_CLST call_stat, T_CC_CLST call_stat_new, UBYTE cId_new, UBYTE opc); EXTERN void psaCC_SplitMPTY ( SHORT cId ); EXTERN int psaCC_CountMPTY ( void ); EXTERN SHORT psaCC_ECT ( SHORT cId ); EXTERN SHORT psaCC_SendDTMF ( SHORT cId, UBYTE digit, UBYTE mode ); EXTERN void psaCC_send_satevent( UBYTE event, SHORT callId , T_CC_INITIATER actionSrc, BOOL check_SatDiscEvent ); GLOBAL void psaCC_init_mtcbearer( void ); GLOBAL void psaCC_Init ( void ); EXTERN SHORT psaCC_ctbNewEntry ( void ); EXTERN SHORT psaCC_ctbFindTi ( UBYTE ti2Find ); EXTERN SHORT psaCC_ctbFindCall ( T_OWN calOwn, T_CC_CLST calStat, T_CC_CLTP calType ); EXTERN BOOL psaCC_ctbCallInUse ( void ); EXTERN BOOL psaCC_ctbAnyCallInUse ( void ); EXTERN SHORT psaCC_ctbDialNr2CldAdr ( SHORT cId, CHAR * pDialStr ); EXTERN CHAR* psaCC_ctbClrAdr2Num ( SHORT cId, CHAR * pNumBuf, UBYTE maxSize ); EXTERN CHAR* psaCC_ctbClrAdr2Sub ( SHORT cId, CHAR * pSubBuf ); EXTERN CHAR* psaCC_ctbCldAdr2Num ( SHORT cId, CHAR * pNumBuf, UBYTE maxSize ); EXTERN CHAR* psaCC_ctbCldAdr2Sub ( SHORT cId, CHAR * pSubBuf ); EXTERN CHAR* psaCC_ctbRdrAdr2Num ( SHORT cId, CHAR * pNumBuf, UBYTE maxSize ); EXTERN CHAR* psaCC_ctbRdrAdr2Sub ( SHORT cId, CHAR * pSubBuf ); EXTERN T_ACI_PB_TEXT* psaCC_ctbGetAlpha ( SHORT cId ); #ifdef TRACING /* EXTERN void psaCC_ctbDump ( void ); EXTERN void psaCC_ctbDumpBC ( void ); */ EXTERN void psaCC_shrPrmDump ( void ); #endif /* TRACING */ EXTERN void psaCC_chngCalTypCnt ( SHORT cId, SHORT dlt ); EXTERN void psaCC_chkPrgDesc ( SHORT cId, UBYTE prgDesc, UBYTE msgType ); EXTERN SHORT psaCC_getMOCTi ( SHORT cId ); EXTERN void psaCC_retMOCTi ( UBYTE ti ); EXTERN void psaCC_setSpeechMode ( void ); EXTERN BOOL psaCC_phbSrchNumPlnTxt ( CHAR * inNum, UBYTE * inoutMaxLen, T_ACI_PB_TEXT * outTxt ); EXTERN BOOL psaCC_phbMfwSrchNumPlnTxt ( CHAR * inNum, T_ACI_PB_TEXT * outTxt ); EXTERN void psaCC_phbSrchNum ( SHORT cId, T_CC_CLTP call_type ); EXTERN BOOL psaCC_phbSrchName ( T_ACI_CMD_SRC srcId, T_ACI_PB_TEXT *srchName, T_CLPTY_PRM *calPrm ); EXTERN UBYTE psaCC_phbSrchECC ( CHAR* dialStr, BOOL srchECC ); EXTERN BOOL psaCC_phbNtryFnd ( UBYTE phb, T_CLPTY_PRM* calPrm ); EXTERN void psaCC_phbAddNtry ( UBYTE phb, SHORT cId, UBYTE clTp, T_CLPTY_PRM *cldPty ); EXTERN void psaCC_asmBuildMPTY ( void ); EXTERN void psaCC_asmHoldMPTY ( void ); EXTERN void psaCC_asmRetrieveMPTY ( void ); EXTERN void psaCC_asmSplitMPTY ( void ); EXTERN void psaCC_asmECT ( void ); EXTERN void psaCC_asmCUGInfo ( SHORT cId ); EXTERN void psaCC_asmCDReq ( const CHAR *number, const T_ACI_TOA *type, const CHAR *subaddr, const T_ACI_TOS *satype); EXTERN void psaCC_asmComponent ( SHORT cId ); EXTERN void psaCC_asmCCBSReq ( SHORT cId ); EXTERN void psaCC_dasmInvokeCmp ( SHORT cId, T_inv_comp *invCmp ); EXTERN void psaCC_dasmResultCmp ( SHORT cId, T_res_comp *resCmp ); EXTERN void psaCC_dasmErrorCmp ( SHORT cId, T_err_comp *errCmp ); EXTERN void psaCC_dasmRejectCmp ( SHORT cId, T_rej_comp *rejCmp ); EXTERN void psaCC_ProcessCmp ( T_MNCC_FACILITY_IND *mncc_facility_ind ); EXTERN void psaCC_InitCtbNtry ( SHORT idx ); EXTERN void psaCC_FreeRdrPty ( SHORT idx ); EXTERN void psaCC_FreeCtbNtry ( SHORT idx ); EXTERN BOOL psaCC_ctbIsValid ( SHORT cId ); EXTERN T_CC_CALL_TBL * psaCC_ctb ( SHORT cId ); EXTERN void psaCC_DumpFIE ( T_MNCC_fac_inf *fie ); EXTERN void psaCC_DTMFSent ( SHORT cId ); EXTERN void psaCC_StopDTMF ( SHORT cId ); EXTERN SHORT psaCC_BCapCode ( UBYTE reqId, SHORT cId ); EXTERN SHORT psaCC_BCapDecode ( UBYTE reqId, UINT16 bcLen1, UBYTE *bc1, UINT16 bcLen2, UBYTE *bc2); EXTERN SHORT psaCC_MPTY ( SHORT cId, UBYTE mpty_event ); EXTERN void psaCC_DTMFTimeout ( void ); /*==== EXPORT =====================================================*/ #ifdef PSA_CCF_C GLOBAL T_CC_SHRD_PRM ccShrdPrm; #else EXTERN T_CC_SHRD_PRM ccShrdPrm; #endif /* PSA_CCF_C */ #endif /* PSA_CC_H */ /*==== EOF =======================================================*/