FreeCalypso > hg > fc-magnetite
view src/condat3/com/include/gsm.h @ 446:bed6d393f3e0
C1xx targets: sensible handling of Compal's power key wiring
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Sun, 28 Jan 2018 19:26:10 +0000 |
parents | c8bd5a927942 |
children |
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/* +----------------------------------------------------------------------------- | Project : GSM-PS (6147) | Modul : GSM +----------------------------------------------------------------------------- | 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 : Definition of global constants, types, and macros | for the GSM Protocol Stack +----------------------------------------------------------------------------- */ #ifndef GSM_H #define GSM_H #ifndef CCONST_CDG #include "mconst.cdg" /* MAX_BITSTREAM_LEN */ #endif /* CCONST_CDG */ #ifndef PCONST_CDG #include "pconst.cdg" /* MAX_PSTRUCT_LEN */ #endif /* PCONST_CDG */ /*==== CONSTANTS ==================================================*/ #define MAX_2_PRM 1 #define MAX_4_PRM 3 #define MAX_8_PRM 7 #define MAX_16_PRM 15 #define MAX_32_PRM 31 #define PRM_MASK 0x00FF /* protocol primitive mask*/ #define OPC_MASK 0xFF00 /* entity mask */ #define SYS_MASK 0x8000 /* system primitive mask */ #define SYS_CONFIG_REQ 0xF000 #define L3_CODING_OFFSET 32 /* coding offset in bits */ /* * Not Present Value */ #define NOT_PRESENT_8BIT 0xFF #define NOT_PRESENT_CHAR (CHAR)0xFF #define NOT_PRESENT_16BIT 0xFFFF #define NOT_PRESENT_32BIT 0xFFFFFFFFL #define INVALID_ADDRESS 0xFFFFFFFFL #define SET_NOT_PRESENT(A) ((A) = ((sizeof ((A)) EQ 1)\ ? NOT_PRESENT_8BIT\ : (sizeof ((A)) EQ 2)\ ? NOT_PRESENT_16BIT\ : NOT_PRESENT_32BIT)) #define IS_PRESENT(A) ((A) NEQ ((sizeof ((A)) EQ 1)\ ? NOT_PRESENT_8BIT\ : (sizeof ((A)) EQ 2)\ ? NOT_PRESENT_16BIT\ : NOT_PRESENT_32BIT)) /* VK 09-12-96 */ #ifndef NEW_FRAME /* * Static Configurations */ #ifndef TC_FUNC #define TC_FUNC 1 #endif #ifdef TRACE_FKT #define TRACE_FUNCTION(a) vsi_o_trace(VSI_CALLER TC_FUNC,a); #else // China change HM 6.07.00, one of this commented out #define TRACE_FUNCTION(a) //#define TRACE_FUNCTION(a) vsi_o_mtrace(a); #endif #ifndef TC_EVE #define TC_EVE 2 #endif #ifdef TRACE_EVE #define TRACE_EVENT(a) vsi_o_trace(VSI_CALLER TC_EVENT,a); #else #define TRACE_EVENT(a) #endif #ifndef TC_ERROR #define TC_ERROR 4 #endif #ifdef TRACE_ERR #define TRACE_ERROR(a) vsi_o_trace(VSI_CALLER TC_ERROR,a); #else #define TRACE_ERROR(a) #endif #ifndef TC_PRIM #define TC_PRIM 8 #endif #ifdef TRACE_PRIM #define TRACE_PRIMITIVE(a) vsi_o_trace(VSI_CALLER TC_PRIM,a); #else #define TRACE_PRIMITIVE(a) #endif #ifndef TC_SYSTEM #define TC_SYSTEM 16 #endif /* * Assert wrapper */ #if defined NDEBUG #define TRACE_ASSERT(e) ((void)0) #else #ifdef SHARED_VSI #define TRACE_ASSERT(e) if ( !(e) ) vsi_o_assert("",#e,__FILE__,__LINE__) #else #define TRACE_ASSERT(e) if ( !(e) ) vsi_o_assert(#e,__FILE__,__LINE__) #endif #endif #ifdef assert #undef assert #endif #define assert TRACE_ASSERT #endif /* NEW_FRAME */ /* * Memory Management(I) */ #ifdef OPTION_REF #define FREE_BUFFER(p) vsi_c_free(VSI_CALLER (void **)&p) /*lint -e773 Expression-like macro not parenthesized*/ #define NEW_BUFFER(p,s) T_PRIM *p = vsi_c_new(VSI_CALLER (T_VSI_CSIZE)((s)+sizeof(T_PRIM_HEADER))) /*lint +e773*/ #else #define FREE_BUFFER(p) #define NEW_BUFFER(p,s) UBYTE buf_##p [(s)+sizeof(T_PRIM_HEADER)]; T_PRIM *p=(T_PRIM*)p1 #endif #if !defined (_TMS470) #define Sprintf sprintf #else int sprintf( char *buffer, const char *format, ... ); #endif #ifndef NEW_FRAME #ifdef _TMS470 #define SET_PRIM_OPCODE(P,O) P->custom.opc = O; P->custom.opc2 = 0 #else #define SET_PRIM_OPCODE(P,O) P->custom.opc = O #endif #ifdef OPTION_LENGTH #define SEND_PRIM(E,P,O,T) SET_PRIM_OPCODE (P,O); vsi_c_send (VSI_CALLER hComm##E, P, sizeof(T_PRIM_HEADER) + sizeof (T)) #define SEND_PRIM_0(E,P,O) SET_PRIM_OPCODE (P,O); vsi_c_send (VSI_CALLER hComm##E, P, sizeof(T_PRIM_HEADER)) #define SEND_PRIM_SDU(E,P,O,T,L) SET_PRIM_OPCODE (P,O); vsi_c_send (VSI_CALLER hComm##E, P, (T_VSI_CSIZE) (sizeof(T_PRIM_HEADER) + sizeof (T) + (L) - SDU_TRAIL)) #else #define SEND_PRIM(E,P,O,T) SET_PRIM_OPCODE (P,O); vsi_c_send (VSI_CALLER hComm##E, P, sizeof(T_PRIM_HEADER) + sizeof (T)) #define SEND_PRIM_0(E,P,O) SET_PRIM_OPCODE (P,O); vsi_c_send (VSI_CALLER hComm##E, P, sizeof(T_PRIM_HEADER)) #define SEND_PRIM_SDU(E,P,O,T,L) SET_PRIM_OPCODE (P,O); vsi_c_send (VSI_CALLER hComm##E, P, (T_VSI_CSIZE) (sizeof(T_PRIM_HEADER) + sizeof (T) + (L) - SDU_TRAIL)) #endif #endif /* NEW_FRAME */ /* * declares a pointer variable (D) of the type T * and initialize it with the startaddress of the data part * of the primitive P */ #ifndef ALLOC_CHECK #if defined (_TMS470) AND defined (NWARN) #define PRIM_ACCESS(P,S) &P->data #else #define PRIM_ACCESS(P,S) P->data #endif #else #define PRIM_ACCESS(P,S) vsi_c_access(VSI_CALLER P,S) #endif /*lint -e773 Expression-like macro not parenthesized*/ #define PRIM_CAST(P,D,T) T *D = (T *) PRIM_ACCESS (P, sizeof (T)) /*lint +e773*/ /* * declares a pointer variable (D) of the type T and * initialize it with the start address of the global declared * buffer _decodedMsg[] wich contains the decoded message * structure before encoding or after decoding the message * with CCD. */ /*lint -e773 Expression-like macro not parenthesized*/ #define MSG_CAST(D,T) T *D = (T *) _decodedMsg /*lint +e773*/ /* * Memory Management(II) */ #ifndef NEW_FRAME #if defined (_TMS470) AND defined (NWARN) #define P2D(P) (&(P)->data) #else #define P2D(P) ((P)->data) #endif #define D2P(D) ((T_PRIM*)((T_PRIM_HEADER*)(D)-1)) #ifdef ALLOC_CHECK #define P2D_AC(P,T) PRIM_ACCESS(P,sizeof(T)) #else #define P2D_AC(P,T) P2D(P) #endif #define PRIM_TO_DATA P2D #define DATA_TO_PRIM D2P #define P_OPC(P) (P)->custom.opc #define P_OPC2(P) (P)->custom.opc2 #define P_LEN(P) (P)->custom.len #define P_TID(P) (P)->custom.tid #define P_SDU(P) (P)->custom.sdu #define D_OPC(D) P_OPC(D2P(D)) #define D_OPC2(D) P_OPC2(D2P(D)) #define D_LEN(D) P_LEN(D2P(D)) #define D_TID(D) P_TID(D2P(D)) #define D_SDU(D) P_SDU(D2P(D)) #define D_SDU_LEN(D) D_SDU(D)->l_buf #define D_SDU_OFF(D) D_SDU(D)->o_buf #define BITS_PER_BYTE 8 #define BYTELEN(BITLEN) ((BITLEN)<=0?0:((((BITLEN)-1)/BITS_PER_BYTE)+1)) #define PRIM_SIZE(D) (sizeof(T_PRIM_HEADER)+sizeof(*(D))) #define PRIM_SIZE_SDU(D) (PRIM_SIZE(D)+BYTELEN((D)->sdu.o_buf+(D)->sdu.l_buf)) #define PSIZE(D) (D_LEN(D)+((D_SDU(D)==0)?0:(BYTELEN(D_SDU_LEN(D)+D_SDU_OFF(D))-SDU_TRAIL))) #define SIZ(T) (sizeof(T_PRIM_HEADER)+sizeof(T)) #define SIZ_SDU(T,M) (SIZ(T)+BYTELEN((M)+ENCODE_OFFSET)-SDU_TRAIL) #define P_ALL(T) (T_PRIM *) vsi_c_new(VSI_CALLER (T_VSI_CSIZE)SIZ(T) ) #define P_ALL_SDU(T,M) (T_PRIM *) vsi_c_new(VSI_CALLER (T_VSI_CSIZE)SIZ_SDU(T,M)) #endif /* NEW_FRAME */ #define OFFSETOF(P,C) ((char*)&(P->C) - (char*)P) #ifdef NTRACE #define xxxNotify(A,B,C,D,E) #else #define xxxNotify(A,B,C,D,E) /* not used yet */ #endif #define ACT_PALLOC 0x01 #define ACT_PALLOC_SDU 0x02 #define ACT_PALLOC_MSG 0x03 #define ACT_PREUSE 0x04 #define ACT_PREUSE_SDU 0x05 #define ACT_PREUSE_MSG 0x06 #define ACT_PFREE 0x07 #define ACT_PSEND 0x08 #define ACT_PSTORE 0x09 #define ACT_PRETRIEVE 0x0A #define ACT_PACCESS 0x0B #define ACT_PPASS 0x0C #define ACT_PCAST 0x0D /*** memory alloction ***/ #ifndef NEW_FRAME #define PSENDX PSEND #define PALLOC(D,T) T_##T *D = (T_##T*)P2D(P_ALL(T_##T));\ D_OPC(D) = (T);\ D_OPC2(D) = 0;\ D_LEN(D) = SIZ(T_##T);\ D_SDU(D) = 0;\ xxxNotify(ACT_PALLOC,VSI_CALLER,__FILE__,__LINE__,D2P(D)) #define PALLOC_MSG(D,T,M) T_##T *D = (T_##T*)P2D(P_ALL_SDU(T_##T,BSIZE_##M));\ D_OPC(D) = (T);\ D_OPC2(D) = 0;\ D_LEN(D) = SIZ(T_##T);\ D_SDU(D) = &((D)->sdu);\ D_SDU_LEN(D) = (BSIZE_##M);\ D_SDU_OFF(D) = ENCODE_OFFSET;\ xxxNotify(ACT_PALLOC_MSG,VSI_CALLER,__FILE__,__LINE__,D2P(D)) #define PALLOC_SDU(D,T,N) T_##T *D = (T_##T*)P2D(P_ALL_SDU(T_##T,N));\ D_OPC(D) = (T);\ D_OPC2(D) = 0;\ D_LEN(D) = SIZ(T_##T);\ D_SDU(D) = &((D)->sdu);\ D_SDU_LEN(D) = (N);\ D_SDU_OFF(D) = ENCODE_OFFSET;\ xxxNotify(ACT_PALLOC_SDU,VSI_CALLER,__FILE__,__LINE__,D2P(D)) #define PREUSE(D0,D,T) T_##T *D = (T_##T*)P2D_AC(D2P(D0),T);\ D_OPC(D) = (T);\ D_OPC2(D) = 0;\ D_LEN(D) = SIZ(T_##T);\ D_SDU(D) = 0;\ xxxNotify(ACT_REUSE,VSI_CALLER,__FILE__,__LINE__,D2P(D)) #define PREUSE_MSG(D,T,M) T_##T *D = (T_##T*)P2D_AC(D2P(D0),T);\ D_OPC(D) = (T);\ D_OPC2(D) = 0;\ D_LEN(D) = SIZ(T_##T);\ D_SDU(D) = &((D)->sdu);\ D_SDU_LEN(D) = (BSIZE_##M);\ D_SDU_OFF(D) = ENCODE_OFFSET;\ xxxNotify(ACT_PREUSE_MSG,VSI_CALLER,__FILE__,__LINE__,D2P(D)) #define PREUSE_SDU(D,T,N) T_##T *D = (T_##T*)P2D_AC(D2P(D0),T);\ USHORT BSIZE_##N;\ D_OPC(D) = (T);\ D_OPC2(D) = 0;\ D_LEN(D) = SIZ(T_##T);\ D_SDU(D) = &((D)->sdu);\ D_SDU_LEN(D) = (N);\ D_SDU_OFF(D) = ENCODE_OFFSET;\ xxxNotify(ACT_PREUSE_SDU,VSI_CALLER,__FILE__,__LINE__,D2P(D)) #define PFREE(D) { void *z=(void*)D2P(D);\ vsi_c_free(VSI_CALLER (void **)&z);\ xxxNotify(ACT_PFREE,VSI_CALLER,__FILE__,__LINE__,D2P(D)); } #define PSEND(E,D) PTRACE_OUT(D_OPC(D));\ vsi_c_send (VSI_CALLER hComm##E, D2P(D), (T_VSI_CSIZE) PSIZE(D));\ xxxNotify(ACT_PSEND,VSI_CALLER,__FILE__,__LINE__,D2P(D)) #define PPASS(D0,D,T) T_##T *D = (T_##T*)P2D_AC(D2P(D0),T);\ D_OPC(D) = (T);\ xxxNotify(ACT_PPASS,VSI_CALLER,__FILE__,__LINE__,D2P(D)) #define PACCESS(D) xxxNotify(ACT_PACCESS,VSI_CALLER,__FILE__,__LINE__,D2P(D)) #endif /* NEW_FRAME */ /* * to achieve backward compatibility */ #if defined (NEW_FRAME) #ifdef TI_PS_HCOMM_CHANGE #define PSENDX(A,B) PSEND(_hComm##A,B) #define _hCommACI hCommACI #else #define PSENDX(A,B) PSEND(hComm##A,B) #endif #else #define PSENDX PSEND #endif #define PRETRIEVE /* NOT DEFINED YET */ #define MCAST(D,T) MSG_CAST(D,T_##T) #define PCAST(P,D,T) T_##T *D = (T_##T*)P2D_AC(P,T);\ P_OPC(P)=T;\ xxxNotify(ACT_PCAST,VSI_CALLER,__FILE__,__LINE__,D2P(D)) #define PCOPY(DEST,SOURCE) memcpy(DEST,SOURCE,PSIZE(SOURCE)-sizeof(T_PRIM_HEADER)) /*** trace primitive, trace state ***/ #ifndef NEW_FRAME #ifdef NTRACE #define SET_STATE(PROCESS,STATE) ENTITY_DATA->state[PROCESS] = STATE #define GET_STATE(PROCESS) ENTITY_DATA->state[PROCESS] #define PTRACE_IN(OPC) #define PTRACE_OUT(OPC) #else #define 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 GET_STATE(PROCESS)\ vsi_o_strace (VSI_CALLER\ PROCESS_NAME[PROCESS],\ PROCESS##_NAME [ ENTITY_DATA->state[PROCESS] ],\ NULL ,\ ENTITY_DATA->state[PROCESS] ) #define PTRACE_IN(OPC) vsi_o_ptrace (VSI_CALLER OPC, 0) #define PTRACE_OUT(OPC) vsi_o_ptrace (VSI_CALLER OPC, 1) #endif #endif /* NEW_FRAME */ /* * Timer, Jump Table, Configuration */ #ifdef OPTION_TIMER #define TSTART(i,h,v) tim_start_timer(i,h,v) #else #define TSTART(i,h,v) TIMER_START(VSI_CALLER h,v) #endif #ifdef OPTION_RELATIVE #define JUMP(a) (a+offset) #else #define JUMP(a) (a) #endif #ifdef OPTION_SET_CONFIG_ONLY #define GET_CONFIG(s,i) #else #define GET_CONFIG(s,i) pei_get_config(s,i) #endif /* Cause Concept (begin) */ /* * For a definition of the cause concept please refer to document number * 8443.711, named in February 2002 "cause_concept.doc" */ /* definitions for calling the macros */ /* DefinedBy bit */ #define DEFBY_STD 0 #define DEFBY_CONDAT 1 /* OriginatingSide bit */ #define ORIGSIDE_NET 0 #define ORIGSIDE_MS 1 /* * note that OriginatingEntity definitions are in the SAP GSMCOM, which is a * central (pseudo) SAP and the definitions are referenced in the using * "real" SAPs, like e.g. MNSS SAP for the originating entity SS */ /* need to decide whether to mask ORIGIN_ENTITY (max. 6 bits) in the following macro */ #define CAUSE_MAKE(DEFINED_BY, ORIGIN_SIDE, ORIGIN_ENTITY, CAUSE_VALUE) \ (USHORT)(((CAUSE_VALUE) & 0x00FF) |\ ((DEFINED_BY) << 15) |\ ((ORIGIN_SIDE) << 14) |\ ((ORIGIN_ENTITY) << 8)) /* Get the cause value without the originating entity */ #define GET_CAUSE_VALUE(cause) (UBYTE)((cause) & 0xFF) /* Get the entity originating the cause */ #define GET_CAUSE_ORIGIN_ENTITY(cause) (UBYTE)(((cause) >> 8) & 0x3F) /* Get the DefinedBy bit */ #define GET_CAUSE_DEFBY(cause) (UBYTE)((cause) >> 15) /* Get the OriginatingSide bit */ #define GET_CAUSE_ORIGSIDE(cause) (UBYTE)(((cause) >> 14) & 0x01) /* Determine if a cause is invalid */ #define IS_CAUSE_INVALID(cause) (((cause) & 0x80FF) EQ 0x80FF) /* Cause Concept (end) */ /*==== TYPES ======================================================*/ #if defined (_TMS470) && defined (NWARN) typedef struct { UBYTE x [MAX_PSTRUCT_LEN + ( L3_CODING_OFFSET + MAX_BITSTREAM_LEN ) / 8 + 1 ]; } T_PARAMETER; typedef struct { T_PRIM_HEADER custom; T_PARAMETER data; } T_PRIM; #else typedef struct { T_PRIM_HEADER custom; UBYTE data [MAX_PSTRUCT_LEN + ( L3_CODING_OFFSET + MAX_BITSTREAM_LEN ) / 8 + 1 ]; } T_PRIM; #endif /*==== EXPORT =====================================================*/ /* * Multithreading */ #ifdef OPTION_MULTITHREAD #if defined (ENTITY_CST) #define _ENTITY_PREFIXED(N) cst_##N #elif defined (ENTITY_ACI) #define _ENTITY_PREFIXED(N) aci_##N #elif defined (ENTITY_MFW) #define _ENTITY_PREFIXED(N) aci_##N #elif defined (ENTITY_MMI) #define _ENTITY_PREFIXED(N) aci_##N #elif defined (ENTITY_SMI) #define _ENTITY_PREFIXED(N) aci_##N #elif defined (ENTITY_SIM) #define _ENTITY_PREFIXED(N) sim_##N #elif defined (ENTITY_PL) #define _ENTITY_PREFIXED(N) pl_##N #elif defined (ENTITY_L1) #define _ENTITY_PREFIXED(N) l1_##N #elif defined (ENTITY_CC) #define _ENTITY_PREFIXED(N) cc_##N #elif defined (ENTITY_SS) #define _ENTITY_PREFIXED(N) ss_##N #elif defined (ENTITY_ESIM) #define _ENTITY_PREFIXED(N) esim_##N #elif defined (ENTITY_SMS) #define _ENTITY_PREFIXED(N) sms_##N #elif defined (ENTITY_MM) #define _ENTITY_PREFIXED(N) mm_##N #elif defined (ENTITY_RR) #define _ENTITY_PREFIXED(N) rr_##N #elif defined (ENTITY_DL) #define _ENTITY_PREFIXED(N) dl_##N #elif defined (ENTITY_L2R) #define _ENTITY_PREFIXED(N) l2r_##N #elif defined (ENTITY_TRA) #define _ENTITY_PREFIXED(N) tra_##N #elif defined (ENTITY_RLP) #define _ENTITY_PREFIXED(N) rlp_##N #elif defined (ENTITY_T30) #define _ENTITY_PREFIXED(N) t30_##N #elif defined (ENTITY_FAD) #define _ENTITY_PREFIXED(N) fad_##N #elif defined (ENTITY_RA) #define _ENTITY_PREFIXED(N) ra_##N #elif defined (ENTITY_WAP) #define _ENTITY_PREFIXED(N) wap_##N #elif defined (ENTITY_UDP) #define _ENTITY_PREFIXED(N) udp_##N #elif defined (ENTITY_IP) #define _ENTITY_PREFIXED(N) ip_##N #elif defined (ENTITY_RRLP) #define _ENTITY_PREFIXED(N) rrlp_##N #elif defined (ENTITY_PPP) #define _ENTITY_PREFIXED(N) ppp_##N #elif defined (ENTITY_BTI) #define _ENTITY_PREFIXED(N) bti_##N #elif defined (ENTITY_L1) #ifdef NEW_FRAME #include "ofe.h" #endif #elif defined (ENTITY_TAP) #define _ENTITY_PREFIXED(N) tap_##N #elif defined (ENTITY_PCO) #define _ENTITY_PREFIXED(N) pco_##N #elif defined (ENTITY_PAN) #define _ENTITY_PREFIXED(N) pan_##N #elif defined (ENTITY_TST) #define _ENTITY_PREFIXED(N) tst_##N #elif defined (ENTITY_APP) #define _ENTITY_PREFIXED(N) app_##N #endif #endif #endif