FreeCalypso > hg > fc-magnetite
view src/condat2/com/include/ofe.h @ 686:59f07d67eb45
luna target split into luna1 and luna2
luna1 is FC Luna based on iWOW DSK v4.0 or v5.0 motherboard
luna2 is FC Luna based on FC Caramel2 MB
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Mon, 12 Oct 2020 18:51:24 +0000 |
| parents | 93999a60b835 |
| children |
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/* +----------------------------------------------------------------------------- | Project : GSM-PS (6147) | Modul : +----------------------------------------------------------------------------- | 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 : +----------------------------------------------------------------------------- */ #if !defined OFE_H #define OFE_H #include "vsi.h" #define dmya_pei_create ofe_dmya_pei_create #define dmyb_pei_create ofe_dmyb_pei_create #define aci_pei_create ofe_aci_pei_create #define cst_pei_create ofe_cst_pei_create #define cc_pei_create ofe_cc_pei_create #define sim_pei_create ofe_sim_pei_create #define sms_pei_create ofe_sms_pei_create #define ss_pei_create ofe_ss_pei_create #define mm_pei_create ofe_mm_pei_create #define rr_pei_create ofe_rr_pei_create #define pl_pei_create ofe_pl_pei_create #define dl_pei_create ofe_dl_pei_create #define rlp_pei_create ofe_rlp_pei_create #define l2r_pei_create ofe_l2r_pei_create #define t30_pei_create ofe_t30_pei_create #define fad_pei_create ofe_fad_pei_create #define ra_pei_create ofe_ra_pei_create #define l1_pei_create ofe_l1_pei_create #define dmya_pei_init ofe_dmya_pei_init #define dmyb_pei_init ofe_dmyb_pei_init #define aci_pei_init ofe_aci_pei_init #define cst_pei_init ofe_cst_pei_init #define cc_pei_init ofe_cc_pei_init #define sim_pei_init ofe_sim_pei_init #define sms_pei_init ofe_sms_pei_init #define ss_pei_init ofe_ss_pei_init #define mm_pei_init ofe_mm_pei_init #define rr_pei_init ofe_rr_pei_init #define pl_pei_init ofe_pl_pei_init #define dl_pei_init ofe_dl_pei_init #define rlp_pei_init ofe_rlp_pei_init #define l2r_pei_init ofe_l2r_pei_init #define t30_pei_init ofe_t30_pei_init #define fad_pei_init ofe_fad_pei_init #define ra_pei_init ofe_ra_pei_init #define l1_pei_init ofe_l1_pei_init #define dmya_pei_primitive ofe_dmya_pei_primitive #define dmyb_pei_primitive ofe_dmyb_pei_primitive #define aci_pei_primitive ofe_aci_pei_primitive #define cst_pei_primitive ofe_cst_pei_primitive #define cc_pei_primitive ofe_cc_pei_primitive #define sim_pei_primitive ofe_sim_pei_primitive #define sms_pei_primitive ofe_sms_pei_primitive #define ss_pei_primitive ofe_ss_pei_primitive #define mm_pei_primitive ofe_mm_pei_primitive #define rr_pei_primitive ofe_rr_pei_primitive #define pl_pei_primitive ofe_pl_pei_primitive #define dl_pei_primitive ofe_dl_pei_primitive #define rlp_pei_primitive ofe_rlp_pei_primitive #define l2r_pei_primitive ofe_l2r_pei_primitive #define t30_pei_primitive ofe_t30_pei_primitive #define fad_pei_primitive ofe_fad_pei_primitive #define ra_pei_primitive ofe_ra_pei_primitive #define l1_pei_primitive ofe_l1_pei_primitive #define dmya_pei_config ofe_dmya_pei_config #define dmyb_pei_config ofe_dmyb_pei_config #define aci_pei_config ofe_aci_pei_config #define cst_pei_config ofe_cst_pei_config #define cc_pei_config ofe_cc_pei_config #define sim_pei_config ofe_sim_pei_config #define sms_pei_config ofe_sms_pei_config #define ss_pei_config ofe_ss_pei_config #define mm_pei_config ofe_mm_pei_config #define rr_pei_config ofe_rr_pei_config #define pl_pei_config ofe_pl_pei_config #define dl_pei_config ofe_dl_pei_config #define rlp_pei_config ofe_rlp_pei_config #define l2r_pei_config ofe_l2r_pei_config #define t30_pei_config ofe_t30_pei_config #define fad_pei_config ofe_fad_pei_config #define ra_pei_config ofe_ra_pei_config #define l1_pei_config ofe_l1_pei_config #define GET_STATE OFE_GET_STATE #define SET_STATE OFE_SET_STATE #define vsi_c_awake ofe_vsi_c_awake #define vsi_o_strace ofe_vsi_o_strace #define vsi_o_trace ofe_vsi_o_trace #define vsi_o_assert ofe_vsi_o_assert #define vsi_t_open ofe_vsi_t_open #define vsi_t_close ofe_vsi_t_close #define vsi_t_start ofe_vsi_t_start #define vsi_t_stop ofe_vsi_t_stop #define vsi_t_pstart ofe_vsi_t_pstart #define vsi_t_status ofe_vsi_t_status #define vsi_c_await ofe_vsi_c_await #ifdef NTRACE #define OFE_SET_STATE(PROCESS,STATE) ENTITY_DATA->state[PROCESS] = STATE #define OFE_GET_STATE(PROCESS) ENTITY_DATA->state[PROCESS] #else #define OFE_SET_STATE(PROCESS,STATE)\ ENTITY_DATA->state[PROCESS] =\ vsi_o_strace (VSI_CALLER\ PROCESS_NAME[PROCESS],\ PROCESS##_NAME [ ENTITY_DATA->state[PROCESS] ],\ PROCESS##_NAME [ STATE ],\ STATE ) #define OFE_GET_STATE(PROCESS)\ vsi_o_strace (VSI_CALLER\ PROCESS_NAME[PROCESS],\ PROCESS##_NAME [ ENTITY_DATA->state[PROCESS] ],\ NULL ,\ ENTITY_DATA->state[PROCESS] ) #endif #undef VSI_CALLER #undef VSI_CALLER_SINGLE #ifdef ENTITY_DMYA extern USHORT DMYA_Handle; #define VSI_CALLER (USHORT)DMYA_Handle, #define VSI_CALLER_SINGLE (USHORT)DMYA_Handle #endif #ifdef ENTITY_DMYB extern USHORT DMYB_Handle; #define VSI_CALLER (USHORT)DMYB_Handle, #define VSI_CALLER_SINGLE (USHORT)DMYB_Handle #endif #if defined ENTITY_SMI || ENTITY_ACI || ENTITY_MFW || ENTITY_MMI extern USHORT ACI_Handle; #define VSI_CALLER (USHORT)(USHORT)ACI_Handle, #define VSI_CALLER_SINGLE (USHORT)ACI_Handle #define SIM (USHORT)aci_hCommSIM #define MM (USHORT)aci_hCommMM #define CC (USHORT)aci_hCommCC #define SMS (USHORT)aci_hCommSMS #define SS (USHORT)aci_hCommSS #define PL (USHORT)aci_hCommPL #define SMI (USHORT)aci_hCommSMI #define ACI (USHORT)aci_hCommACI #define MMI (USHORT)aci_hCommMMI #define RA (USHORT)aci_hCommRA #define L2R (USHORT)aci_hCommL2R #define T30 (USHORT)aci_hCommT30 #define pei_handle_signal aci_pei_handle_signal #define mmi_pei_signal old_mmi_pei_signal #define signalQueue MMIsignalQueue #define signalIn MMIsignalIn #define signalOut MMIsignalOut #define PSIGNAL_SELF OFE_PSIGNAL_SELF #define OFE_PSIGNAL_SELF(A,B) { T_QMSG Message;\ USHORT com = vsi_c_open ( VSI_CALLER "ACI" );\ Message.MsgType = MSG_SIGNAL;\ Message.Msg.Signal.SigOPC = (USHORT)A;\ Message.Msg.Signal.SigBuffer = (void*)B;\ vsi_c_send ( VSI_CALLER com, &Message );} #endif #ifdef ENTITY_CST extern USHORT CST_Handle; #define VSI_CALLER (USHORT)CST_Handle, #define VSI_CALLER_SINGLE (USHORT)CST_Handle #define L1 (USHORT)cst_hCommL1 #endif #ifdef ENTITY_CC extern USHORT CC_Handle; #define VSI_CALLER (USHORT)CC_Handle, #define VSI_CALLER_SINGLE (USHORT)CC_Handle #define MMI (USHORT)cc_hCommMMI #define MM (USHORT)cc_hCommMM #endif #ifdef ENTITY_SMS extern USHORT SMS_Handle; #define VSI_CALLER (USHORT)SMS_Handle, #define VSI_CALLER_SINGLE (USHORT)SMS_Handle #define MMI (USHORT)sms_hCommMMI #define MM (USHORT)sms_hCommMM #define SIM (USHORT)sms_hCommSIM #endif #ifdef ENTITY_SIM extern USHORT SIM_Handle; #define VSI_CALLER (USHORT)SIM_Handle, #define VSI_CALLER_SINGLE (USHORT)SIM_Handle #define MMI (USHORT)sim_hCommMMI #define MM (USHORT)sim_hCommMM #define SMS (USHORT)sim_hCommSMS #endif #ifdef ENTITY_SS extern USHORT SS_Handle; #define VSI_CALLER (USHORT)SS_Handle, #define VSI_CALLER_SINGLE (USHORT)SS_Handle #define MMI (USHORT)ss_hCommMMI #define MM (USHORT)ss_hCommMM #endif #ifdef ENTITY_MM extern USHORT MM_Handle; #define VSI_CALLER (USHORT)MM_Handle, #define VSI_CALLER_SINGLE (USHORT)MM_Handle #define MMI (USHORT)mm_hCommMMI #define CC (USHORT)mm_hCommCC #define SS (USHORT)mm_hCommSS #define SMS (USHORT)mm_hCommSMS #define RR (USHORT)mm_hCommRR #define DL (USHORT)mm_hCommDL #define SIM (USHORT)mm_hCommSIM #endif #ifdef ENTITY_RR extern USHORT RR_Handle; #define VSI_CALLER (USHORT)RR_Handle, #define VSI_CALLER_SINGLE (USHORT)RR_Handle #define DL (USHORT)rr_hCommDL #define MM (USHORT)rr_hCommMM #define PL (USHORT)rr_hCommPL #endif #ifdef ENTITY_PL extern USHORT PL_Handle; #define VSI_CALLER (USHORT)PL_Handle, #define VSI_CALLER_SINGLE (USHORT)PL_Handle #define PL (USHORT)pl_hCommPL #define L1 (USHORT)pl_hCommL1 #define DL (USHORT)pl_hCommDL #define RR (USHORT)pl_hCommRR #define MMI (USHORT)pl_hCommMMI #define CST (USHORT)pl_hCommCST #define vsi_t_sleep ofe_vsi_t_sleep #endif #ifdef ENTITY_DL extern USHORT DL_Handle; #define VSI_CALLER (USHORT)DL_Handle, #define VSI_CALLER_SINGLE (USHORT)DL_Handle #define RR (USHORT)dl_hCommRR #define MM (USHORT)dl_hCommMM #define PL (USHORT)dl_hCommPL #endif #ifdef ENTITY_RLP extern USHORT RLP_Handle; #define VSI_CALLER (USHORT)RLP_Handle, #define VSI_CALLER_SINGLE (USHORT)RLP_Handle #define L2R (USHORT)rlp_hCommL2R #define RA (USHORT)rlp_hCommRA #define pei_handle_signal rlp_pei_handle_signal #define rlp_pei_signal old_rlp_pei_signal #define signalQueue RLPsignalQueue #define signalIn RLPsignalIn #define signalOut RLPsignalOut #endif #ifdef ENTITY_L2R extern USHORT L2R_Handle; #define VSI_CALLER (USHORT)L2R_Handle, #define VSI_CALLER_SINGLE (USHORT)L2R_Handle #define L2R (USHORT)l2r_hCommL2R #define RA (USHORT)l2r_hCommRA #define MMI (USHORT)l2r_hCommMMI #define RLP (USHORT)l2r_hCommRLP #define pei_handle_signal l2r_pei_handle_signal #define l2r_pei_signal old_l2r_pei_signal #define signalQueue L2RsignalQueue #define signalIn L2RsignalIn #define signalOut L2RsignalOut #define PSIGNAL_SELF OFE_PSIGNAL_SELF #ifdef MEMORY_SUPERVISION #define OFE_PSIGNAL_SELF(A,B) { T_QMSG Message;\ USHORT com = vsi_c_open ( VSI_CALLER "L2R" );\ Message.MsgType = MSG_SIGNAL;\ Message.Msg.Signal.SigOPC = (USHORT)A;\ Message.Msg.Signal.SigBuffer = (void*)B;\ vsi_c_send ( VSI_CALLER com, &Message, __FILE,__LINE__ );} #else #define OFE_PSIGNAL_SELF(A,B) { T_QMSG Message;\ USHORT com = vsi_c_open ( VSI_CALLER "L2R" );\ Message.MsgType = MSG_SIGNAL;\ Message.Msg.Signal.SigOPC = (USHORT)A;\ Message.Msg.Signal.SigBuffer = (void*)B;\ vsi_c_send ( VSI_CALLER com, &Message );} #endif #endif #ifdef ENTITY_FAD extern USHORT FAD_Handle; #define VSI_CALLER (USHORT)FAD_Handle, #define VSI_CALLER_SINGLE (USHORT)FAD_Handle #define RA (USHORT)fad_hCommRA #define T30 (USHORT)fad_hCommT30 #define pei_handle_signal fad_pei_handle_signal #define fad_pei_signal old_fad_pei_signal #define signalQueue FADsignalQueue #define signalIn FADsignalIn #define signalOut FADsignalOut #endif #ifdef ENTITY_T30 extern USHORT T30_Handle; #define VSI_CALLER (USHORT)T30_Handle, #define VSI_CALLER_SINGLE (USHORT)T30_Handle #define MMI (USHORT)t30_hCommMMI #define FAD (USHORT)t30_hCommFAD #endif #ifdef ENTITY_RA extern USHORT RA_Handle; #define VSI_CALLER (USHORT)RA_Handle, #define VSI_CALLER_SINGLE (USHORT)RA_Handle #define L2R (USHORT)ra_hCommL2R #define MMI (USHORT)ra_hCommMMI #define RLP (USHORT)ra_hCommRLP #define FAD (USHORT)ra_hCommFAD #define PSIGNAL OFE_PSIGNAL #ifdef MEMORY_SUPERVISION #define OFE_PSIGNAL(A,B,C) { T_QMSG Message;\ Message.MsgType = MSG_SIGNAL;\ Message.Msg.Signal.SigOPC = (USHORT)B;\ Message.Msg.Signal.SigBuffer = (void*)C;\ vsi_c_send ( VSI_CALLER A, &Message, __FILE__,__LINE__ );} #else #define OFE_PSIGNAL(A,B,C) { T_QMSG Message;\ Message.MsgType = MSG_SIGNAL;\ Message.Msg.Signal.SigOPC = (USHORT)B;\ Message.Msg.Signal.SigBuffer = (void*)C;\ vsi_c_send ( VSI_CALLER A, &Message );} #endif #endif #ifdef ENTITY_L1 extern USHORT L1_Handle; #define VSI_CALLER (USHORT)L1_Handle, #define VSI_CALLER_SINGLE (USHORT)L1_Handle #define l1_pei_run ofe_l1_pei_run #endif #endif