view src/condat2/com/include/gsm.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
line wrap: on
line source

/* 
+----------------------------------------------------------------------------- 
|  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)
#define NEW_BUFFER(p,s)    T_PRIM *p = vsi_c_new(VSI_CALLER (T_VSI_CSIZE)((s)+sizeof(T_PRIM_HEADER)))
#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

#define PRIM_CAST(P,D,T) T *D = (T *) PRIM_ACCESS (P, sizeof (T))

/*
 * 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.
 */

#define MSG_CAST(D,T)    T *D = (T *) _decodedMsg
/*
 * 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)
#define PSENDX(A,B) PSEND(hComm##A,B)
#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) vsi_t_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