FreeCalypso > hg > fc-magnetite
view src/aci2/aci/cmh_sms.h @ 600:8f50b202e81f
board preprocessor conditionals: prep for more FC hw in the future
This change eliminates the CONFIG_TARGET_FCDEV3B preprocessor symbol and
all preprocessor conditionals throughout the code base that tested for it,
replacing them with CONFIG_TARGET_FCFAM or CONFIG_TARGET_FCMODEM. These
new symbols are specified as follows:
CONFIG_TARGET_FCFAM is intended to cover all hardware designs created by
Mother Mychaela under the FreeCalypso trademark. This family will include
modem products (repackagings of the FCDEV3B, possibly with RFFE or even
RF transceiver changes), and also my desired FreeCalypso handset product.
CONFIG_TARGET_FCMODEM is intended to cover all FreeCalypso modem products
(which will be firmware-compatible with the FCDEV3B if they use TI Rita
transceiver, or will require a different fw build if we switch to one of
Silabs Aero transceivers), but not the handset product. Right now this
CONFIG_TARGET_FCMODEM preprocessor symbol is used to conditionalize
everything dealing with MCSI.
At the present moment the future of FC hardware evolution is still unknown:
it is not known whether we will ever have any beyond-FCDEV3B hardware at all
(contingent on uncertain funding), and if we do produce further FC hardware
designs, it is not known whether they will retain the same FIC modem core
(triband), if we are going to have a quadband design that still retains the
classic Rita transceiver, or if we are going to switch to Silabs Aero II
or some other transceiver. If we produce a quadband modem that still uses
Rita, it will run exactly the same fw as the FCDEV3B thanks to the way we
define TSPACT signals for the RF_FAM=12 && CONFIG_TARGET_FCFAM combination,
and the current fcdev3b build target will be renamed to fcmodem. OTOH, if
that putative quadband modem will be Aero-based, then it will require a
different fw build target, the fcdev3b target will stay as it is, and the
two targets will both define CONFIG_TARGET_FCFAM and CONFIG_TARGET_FCMODEM,
but will have different RF_FAM numbers. But no matter which way we are
going to evolve, it is not right to have conditionals on CONFIG_TARGET_FCDEV3B
in places like ACI, and the present change clears the way for future
evolution.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Mon, 01 Apr 2019 01:05:24 +0000 |
parents | 93999a60b835 |
children |
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/* +----------------------------------------------------------------------------- | Project : GSM-PS (6147) | Modul : CMH_SMS +----------------------------------------------------------------------------- | 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 command handler of the | short message service. +----------------------------------------------------------------------------- */ #ifndef CMH_SMS_H #define CMH_SMS_H #include "psa_sms.h" /*==== CONSTANTS ==================================================*/ /* for the following constants see GSM 11.11, chapter 10.3.3 */ #define STAT_MASK 0x07 #define REC_UNREAD 0x03 /* message received by MS from network */ /* message to be read */ #define REC_READ 0x01 /* message received by MS from network */ /* message read */ #define STO_UNSENT 0x07 /* MS originating message */ /* message to be sent */ #define STO_SENT 0x05 /* MS originating message */ /* message sent to the network */ /* TP-Validity-Period-Format (TP-VPF) */ #define VPF_MASK 0x18 #define VPF_NOT_PRESENT 0x00 #define VPF_RELATIVE 0x10 #define VPF_ABSOLUTE 0x18 #define VPF_ENHANCED 0x08 #define SMS_CMH_MAX_START_IDX (255) #define MIN_SMS_PRM_LEN 28 #define MAX_SMS_PRM_ADDR_OCTETS 10 /* = MAX_SMS_ADDR_DIG/2 */ #define SIM_SMSP_V_DEST 0x01 #define SIM_SMSP_V_SCA 0x02 #define SIM_SMSP_V_PID 0x04 #define SIM_SMSP_V_DCS 0x08 #define SIM_SMSP_V_VPREL 0x10 /* * Value constants for bcd */ #define BCD_ASTSK 0xa /* ( */ #define BCD_PND 0xb /* # */ #define BCD_A 0xc /* a */ #define BCD_B 0xd /* b */ #define BCD_C 0xe /* c */ #define BCD_RES 0xf /* reserved */ /*==== TYPES ======================================================*/ /*typedef struct { UBYTE npi : 4; UBYTE ton : 3; UBYTE ext : 1; } T_TON_NPI;*/ typedef struct { UBYTE length; UBYTE ton_npi; UBYTE addr[MAX_SMS_PRM_ADDR_OCTETS]; } T_RP_ADDRESS; typedef struct { UBYTE no_bcd; UBYTE ton_npi; UBYTE addr[MAX_SMS_PRM_ADDR_OCTETS]; } T_TP_ADDRESS; typedef struct { UBYTE par_ind; UBYTE dest_no_bcd; UBYTE dest_ton_npi; UBYTE dest_addr[MAX_SMS_PRM_ADDR_OCTETS]; UBYTE sca_length; UBYTE sca_ton_npi; UBYTE sca_addr[MAX_SMS_PRM_ADDR_OCTETS]; UBYTE pid; UBYTE dcs; UBYTE vp_rel; } T_ACI_SMS_SIM_PARAMS; typedef struct { UBYTE lowerMSB; UBYTE lowerLSB; UBYTE upperMSB; UBYTE upperLSB; } T_ACI_CBM_SIM_MID_RANGE; typedef struct { UBYTE MSB; UBYTE LSB; } T_ACI_CBM_SIM_MID_LIST; /******************************************************************** * * SMS Profile for FFS * ********************************************************************/ #define MAX_FFS_SMSPRFLS 4 #define FFS_SMSPRFL_PATH "/gsm/sms" #define FFS_SMSPRFL_FNAME01 "/gsm/sms/smsprfl01" #define FFS_SMSPRFL_FNAME02 "/gsm/sms/smsprfl02" #define FFS_SMSPRFL_FNAME03 "/gsm/sms/smsprfl03" #define FFS_SMSPRFL_FNAME04 "/gsm/sms/smsprfl04" #define SIZE_FFS_SMSPRFL_SCA 20 #define SIZE_FFS_SMSPRFL_MIDS 40 #define SIZE_FFS_SMSPRFL_DCSS 20 #define SIZE_FFS_SMSPRFL_VPABS 15 #define SIZE_FFS_SMSPRFL_VPENH 15 #define FFS_SMSPRFL_VLD 0x00 #define FFS_SMSPRFL_INVLD 0xFF typedef struct ffs_EFsmsprfl_Type /* SMS Profile */ { UBYTE vldFlag; /* Valid Flag */ UBYTE CSCAsca[SIZE_FFS_SMSPRFL_SCA]; /* Service Center Address */ UBYTE CSCAlenSca; /* Length of Service Center Address */ UBYTE CSCAton; /* Type of Number */ UBYTE CSCAnpi; /* Numbering Plan Identification */ UBYTE CSCBmode; /* Mode */ UBYTE CSCBmids[SIZE_FFS_SMSPRFL_MIDS]; /* Message Identifier */ UBYTE CSCBdcss[SIZE_FFS_SMSPRFL_DCSS]; /* Data Coding Schemes */ UBYTE CSMPfo; /* First Octet */ UBYTE CSMPvprel; /* Validity Period Relative */ UBYTE CSMPvpabs[SIZE_FFS_SMSPRFL_VPABS]; /* Validity Period Absolute */ UBYTE CSMPvpenh[SIZE_FFS_SMSPRFL_VPENH]; /* Validity Period Enhanced */ UBYTE CSMPpid; /* Protocol Identifier */ UBYTE CSMPdcs; /* Data Coding Scheme */ UBYTE IMSI[MAX_IMSI]; /* IMSI */ } T_ACI_FFS_SMSPRFL; #define SIZE_FSS_SMSPRFL ( SIZE_FFS_SMSPRFL_SCA + \ SIZE_FFS_SMSPRFL_MIDS + \ SIZE_FFS_SMSPRFL_DCSS + \ SIZE_FFS_SMSPRFL_VPABS + \ MAX_IMSI + \ SIZE_FFS_SMSPRFL_VPENH + 9 ) /*==== Global Declaration =================================================*/ #ifdef CMH_SMSR_C GLOBAL T_ACI_SMS_STAT cmglStat = SMS_STAT_All; #else EXTERN T_ACI_SMS_STAT cmglStat; #endif /* CMH_SMSR_C */ /*==== PROTOTYPES =================================================*/ EXTERN UBYTE cmhSMS_getNType ( T_ACI_TOA_TON ton ); EXTERN BOOL cmhSMS_findPrflId ( UBYTE critrerium, void *elem ); EXTERN T_ACI_TOA_TON cmhSMS_getTon ( UBYTE ntype ); EXTERN UBYTE cmhSMS_getNPlan ( T_ACI_TOA_NPI npi ); EXTERN T_ACI_TOA_NPI cmhSMS_getNpi ( UBYTE nplan ); EXTERN BOOL cmhSMS_isVpabsVld ( T_ACI_VP_ABS* vpabs ); EXTERN BOOL cmhSMS_isVpenhVld ( T_ACI_VP_ENH* vpenh ); EXTERN void cmhSMS_setVpabsPsa ( T_tp_vp_abs* psaVp, T_ACI_VP_ABS* cmhVp ); EXTERN void cmhSMS_setVpenhPsa ( T_tp_vp_enh* psaVp, T_ACI_VP_ENH* cmhVp ); EXTERN void cmhSMS_setVpabsCmh ( T_ACI_VP_ABS* cmhVp, T_tp_vp_abs* psaVp ); EXTERN void cmhSMS_setVpenhCmh ( T_ACI_VP_ENH* cmhVp, T_tp_vp_enh* psaVp ); EXTERN UBYTE cmhSMS_getAdrStr ( CHAR* pStr, UBYTE maxIdx, UBYTE* pBcd, UBYTE numDigits ); EXTERN void cmhSMS_getAdrBcd ( UBYTE* pBcd, UBYTE* pNumDigits, UBYTE maxDigits, CHAR* pStr ); EXTERN BOOL cmhSMS_getMemPsa ( T_ACI_SMS_STOR inMem, UBYTE* outMem ); EXTERN void cmhSMS_getMemCmh ( UBYTE inMem, T_ACI_SMS_STOR* outMem ); EXTERN void cmhSMS_expdSmsPp ( UBYTE byte_offset, UBYTE dcs, UBYTE* source, UBYTE source_len, UBYTE* dest, UBYTE* dest_len ); EXTERN void cmhSMS_rdcSmsPp ( UBYTE byte_offset, UBYTE dcs, UBYTE* source, UBYTE source_len, UBYTE* dest, UBYTE* dest_len ); EXTERN void cmhSMS_expdSmsCb ( UBYTE dcs, UBYTE* source, UBYTE source_len, UBYTE* dest, UBYTE* dest_len ); EXTERN void cmhSMS_getStatCmh ( UBYTE inStat, T_ACI_SMS_STAT* outStat ); EXTERN BOOL cmhSMS_getStatPsa ( T_ACI_SMS_STAT inStat, UBYTE* outStat ); EXTERN CHAR* cmhSMS_setToaDef ( CHAR* number, UBYTE* ntype, UBYTE* nplan ); EXTERN SHORT cmhSMS_getTimezone ( UBYTE timezone ); EXTERN UBYTE cmhSMS_setTimezone ( SHORT timezone ); EXTERN void cmhSMS_setStorOcc ( T_ACI_SMS_STOR_OCC* outMem, UBYTE inMem ); EXTERN SHORT cmhSMS_getNextEntry ( SHORT index, T_ACI_SMS_STOR mem ); EXTERN UBYTE cmhSMS_getAlphabetPp ( UBYTE dcs ); EXTERN UBYTE cmhSMS_getAlphabetCb ( UBYTE dcs ); EXTERN SHORT cmhSMS_InfoConfirm ( void ); EXTERN SHORT cmhSMS_CBMIndication ( T_MMI_CBCH_IND * mmi_cbch_ind ); EXTERN SHORT cmhSMS_SMSStatRpt ( T_MNSMS_STATUS_IND * mnsms_status_ind); EXTERN SHORT cmhSMS_SMSMemory ( T_MNSMS_MESSAGE_IND * mnsms_message_ind); EXTERN SHORT cmhSMS_SMSDeliver ( T_MNSMS_MESSAGE_IND * mnsms_message_ind ); EXTERN SHORT cmhSMS_Result ( T_MNSMS_REPORT_IND * mnsms_report_ind ); EXTERN SHORT cmhSMS_SMSInitState ( T_MNSMS_MESSAGE_IND * mnsms_message_ind ); EXTERN SHORT cmhSMS_SMSDelCnf ( T_MNSMS_DELETE_CNF * mnsms_delete_cnf ); EXTERN SHORT cmhSMS_SMRead ( T_MNSMS_READ_CNF * mnsms_read_cnf); EXTERN SHORT cmhSMS_SMSStoCnf ( T_MNSMS_STORE_CNF * mnsms_store_cnf ); EXTERN SHORT cmhSMS_SMSSbmCnf ( T_MNSMS_SUBMIT_CNF * mnsms_submit_cnf ); EXTERN SHORT cmhSMS_SMSCmdCnf ( T_MNSMS_COMMAND_CNF * mnsms_command_cnf ); EXTERN SHORT cmhSMS_SMSErrorInd ( T_MNSMS_ERROR_IND * mnsms_error_ind ); EXTERN void cmhSMS_SMSResumeCnf ( T_MNSMS_RESUME_CNF * mnsms_resume_cnf ); EXTERN void cmhSMS_SMSQueryCnf (T_MNSMS_QUERY_CNF * mnsms_query_cnf); EXTERN void cmhSMS_WrCnfCSAS (SHORT aId); EXTERN void cmhSMS_RdCnfCRES (SHORT aId); EXTERN void cmhSMS_InitSMSP (SHORT aId); EXTERN BOOL cmhSMS_checkSIM (void); EXTERN BOOL cmhSMS_checkAccess (T_ACI_CMD_SRC srcId, T_ACI_RETURN *ret); EXTERN T_ACI_CMS_ERR cmhSMS_GetCmsFromSim ( USHORT errCode ); GLOBAL T_ACI_CMS_ERR cmhSMS_GetCmsFromSms ( USHORT errCode ); EXTERN void cmhSMS_ready ( void ); EXTERN SHORT cmhSMS_getPrfRge ( void ); EXTERN BOOL cmhSMS_GetPrmSIM (T_ACI_CMD_SRC srcId, UBYTE *data, int dataLen); EXTERN BOOL cmhSMS_PutPrmSIM (T_ACI_CMD_SRC srcId, UBYTE *data, int maxDataLen); EXTERN BOOL cmhSMS_GetCbmirSIM (T_ACI_CMD_SRC srcId, UBYTE *data, int dataLen); EXTERN BOOL cmhSMS_PutCbmirSIM (T_ACI_CMD_SRC srcId, UBYTE *data, int maxDataLen); EXTERN BOOL cmhSMS_GetCbmiSIM (T_ACI_CMD_SRC srcId, UBYTE *data, int dataLen); EXTERN BOOL cmhSMS_PutCbmiSIM (T_ACI_CMD_SRC srcId, UBYTE *data, int maxDataLen); #ifdef SIM_TOOLKIT EXTERN BOOL cmhSMS_GetCbDtaDwnlSIM (T_ACI_CMD_SRC srcId, UBYTE *data, int dataLen); #endif /* of SIM_TOOLKIT */ EXTERN UBYTE* cmhSMS_decodeMsg (T_sms_sdu *sms_sdu, T_rp_addr* rp_addr, UBYTE vt_mti); EXTERN void cmhSMS_codeMsg (T_sms_sdu *sms_sdu, UBYTE tp_vt_mti, T_rp_addr* sc_addr, UBYTE tp_mti, UBYTE* decoded_pdu); EXTERN BOOL cmhSMS_cpyDeliver (T_ACI_CMGL_SM * sm, T_sms_sdu * sms_sdu); EXTERN BOOL cmhSMS_cpySubmit (T_ACI_CMGL_SM * sm, T_sms_sdu * sms_sdu); EXTERN BOOL cmhSMS_cpyMsgInd (T_ACI_CMGL_SM * sm, T_MNSMS_MESSAGE_IND * mnsms_message_ind); EXTERN BOOL cmhSMS_cpyReadCnf (T_ACI_CMGL_SM * sm, T_MNSMS_READ_CNF * mnsms_read_cnf); EXTERN BOOL cmhSMS_cpyStatInd (T_ACI_CDS_SM * sm, T_MNSMS_STATUS_IND *mnsms_status_ind); EXTERN void cmhSMS_getPhbEntry (UBYTE *buf, T_ACI_PB_TEXT *alpha, T_ACI_SMS_STAT status); EXTERN void cmhSMS_codeDelRep (T_sms_sdu * sms_sdu, T_rp_addr * sc_addr); EXTERN UBYTE CodeRPAddress (UBYTE *buf, UBYTE numDigits, UBYTE ton, UBYTE npi, UBYTE *bcd); EXTERN UBYTE CodeTPAddress (UBYTE *buf, UBYTE numDigits, UBYTE ton, UBYTE npi, UBYTE *bcd); EXTERN UBYTE DecodeRPAddress (UBYTE *c_num, UBYTE *ton, UBYTE *npi, UBYTE *bcd, UBYTE *buf); EXTERN UBYTE DecodeTPAddress (UBYTE *c_num, UBYTE *ton, UBYTE *npi, UBYTE *bcd, UBYTE *buf); EXTERN void cmhSMS_fillTpSubmit(T_TP_SUBMIT* tp_submit, T_ACI_CMD_SRC srcId, UBYTE msgType, UBYTE mr, T_tp_da* da_addr, T_ACI_SM_DATA* data, UBYTE septets, T_ACI_UDH_DATA* udh); EXTERN void cmhSMS_fillTpDeliver(T_TP_DELIVER* tp_deliver, T_ACI_CMD_SRC srcId, UBYTE msgType, T_tp_oa* oa_addr, T_ACI_SM_DATA* data, UBYTE septets, T_ACI_UDH_DATA* udh ); EXTERN void cmhSMS_fillTpCommand(T_TP_COMMAND* tp_command, UBYTE fo, UBYTE ct, UBYTE mr, UBYTE pid, UBYTE mn, T_tp_da* da_addr, T_ACI_CMD_DATA* data, T_ACI_UDH_DATA* udh); /* ACI-SPR-17004: RFU bits have to be ignored (GSM 11.11) */ EXTERN void cmhSMS_removeStatusRFUBits ( UBYTE* status ); EXTERN T_ACI_CPRSM_MOD cmhSMS_convertDeliverStatusToACI( UBYTE status ); #ifdef FF_CPHS EXTERN BOOL cmhSMS_voice_mail_ind( T_sms_sdu *sms_sdu); #endif /* FF_CPHS */ EXTERN void cmhSMS_resetMtDsCnmiParam(void); EXTERN BOOL cmhSMS_storePduToSim( T_ACI_CMD_SRC srcId, UBYTE stat, T_ACI_SM_DATA *pdu ); EXTERN BOOL cmhSMS_SMSQueryType (T_sms_sdu *sms_sdu, UBYTE *msg_type); EXTERN void cmhSMS_SendDelete_Req ( UBYTE index, UBYTE status ); #endif /* CMH_SMS_H */ /*==== EOF =======================================================*/