FreeCalypso > hg > freecalypso-sw
view gsm-fw/gpf/frame/vsi_trc.c @ 369:e2a05eb3129f
OSL: the bogus event group code appears to be unused aside from the
os_EvGrpInit() call in os_Initialize(), so let's table it aside for now,
and thus spare the boatload of compiler warnings.
| author | Michael Spacefalcon <msokolov@ivan.Harhan.ORG> |
|---|---|
| date | Thu, 29 May 2014 06:41:52 +0000 |
| parents | d278439e905d |
| children |
line wrap: on
line source
/* +------------------------------------------------------------------------------ | File: vsi_trc.c +------------------------------------------------------------------------------ | 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 : This Module defines the virtual system interface part | for the tracing functionality. +----------------------------------------------------------------------------- */ #ifndef __VSI_TRC_C__ #define __VSI_TRC_C__ #endif #undef TEST_EXT_TRACE /*==== LINT =======================================================*/ /*lint -emacro(506,va_start) Constant value Boolean */ /*lint -emacro(506,va_arg) Constant value Boolean */ /*lint -emacro(718,va_start) Symbol 'Symbol' undeclared, assumed to return int */ /*lint -emacro(522,va_arg) Warning -- Expected void type, assignment, increment or decrement */ /*lint -emacro(10,va_arg) Error -- Expecting '(' */ /*lint -emacro(516,va_arg) Warning -- 'Symbol _va_argref()' has arg. type conflict (arg. no. 1 -- basic) */ /*lint -e661 */ /*lint -e662 */ /*==== INCLUDES ===================================================*/ #ifndef _VXWORKS_ #include <stdarg.h> #endif #include <stdio.h> #include <string.h> #include "gpfconf.h" #include "typedefs.h" #include "vsi.h" #include "os.h" #include "tools.h" #include "frame.h" #include "frm_defs.h" #include "frm_types.h" #include "frm_glob.h" #include "p_frame.h" #ifndef _TOOLS_ #include "../tst_pei/tstdriver.h" #endif /*==== TYPES ======================================================*/ typedef struct { unsigned int magic_nr; void (*trace_error)(const char * const format, va_list varpars); void (*trace_assert)(const char * const format, va_list varpars); } T_EXT_TRACE; /*==== CONSTANTS ==================================================*/ #define EXT_TRACE_INITIALIZED 0xaffedead /*==== EXTERNALS ==================================================*/ /* -------------- S H A R E D - BEGIN ---------------- */ #ifdef _TOOLS_ #pragma data_seg("FRAME_SHARED") #endif /* * contains the correspnding flags for each task */ extern T_HANDLE TestGroupHandle; extern UBYTE FrameEnv; extern char TaskName[]; extern char FRM_TST_NAME[]; #ifdef _TOOLS_ extern char FRM_SYST_NAME[]; #else extern OS_HANDLE TST_Handle; extern OS_HANDLE RCV_Handle; extern int time_is_tdma_frame; extern char error_ind_dst[]; extern T_FRM_ERROR_IND *frm_error_ind; #endif /*==== VARIABLES ==================================================*/ /* this file may be compiled twice for FLASH and RAM, make sure we get the variable declarations exactly once */ #ifndef RUN_INT_RAM /* must be seen only from FLASH */ GLOBAL char TraceBuffer [ TRACE_TEXT_SIZE ]={0}; /* must be seen from RAM and FLASH */ GLOBAL OS_HANDLE trc_hCommTrace=VSI_ERROR; GLOBAL BOOL trc_LittleEndian = FALSE; /* used by the entities */ GLOBAL char EntityNameBuf[RESOURCE_NAMELEN]; GLOBAL USHORT emergeny_trace; #else /* must be seen from RAM and FLASH */ extern OS_HANDLE trc_hCommTrace; extern BOOL trc_LittleEndian; extern USHORT emergeny_trace; #endif #ifndef RUN_INT_RAM T_EXT_TRACE ext_trace_func; #else extern T_EXT_TRACE ext_trace_func; #endif #ifdef TEST_EXT_TRACE void trace_error ( const char * const format, va_list varpars ); void trace_assert ( const char * const format, va_list varpars ); #ifndef RUN_INT_RAM T_EXT_TRACE_FUNC ext_trace_functions = { trace_error, trace_assert }; #else extern T_EXT_TRACE_FUNC ext_trace_functions; #endif #endif /* TEST_EXT_TRACE */ /*==== VARIABLES ==================================================*/ #ifdef _TOOLS_ #pragma data_seg() #endif /* -------------- S H A R E D - END ---------------- */ /*==== PROTOTYPES ==================================================*/ void ext_trace_init ( void ); int int_vsi_o_ttrace ( T_HANDLE Caller, ULONG TraceClass, const char * const format, va_list varpars ); int int_vsi_o_itrace ( T_HANDLE Caller, ULONG TraceClass, ULONG index, const char * const format, va_list varpars ); int vsi_o_datasend ( T_HANDLE caller, T_HANDLE dst, char *ext_dst, T_PRIM_HEADER *prim FILE_LINE_TYPE ); U32 int_vsi_tc2trace_opc(ULONG trace_class); #ifdef _TARGET_ SHORT tst_pei_primitive (void *primitive); #endif /*==== FUNCTIONS ==================================================*/ #ifndef RUN_FLASH U32 int_vsi_tc2trace_opc(ULONG trace_class) { switch (trace_class) { case TC_FUNC: return FUNC_TRACE_OPC; case TC_EVENT: return EVENT_TRACE_OPC; case TC_PRIM: return PRIM_TRACE_OPC; case TC_STATE: return STATE_TRACE_OPC; case TC_SYSTEM: return SYSTEM_TRACE_OPC; case TC_ISIG: return ISIG_TRACE_OPC; case TC_ERROR: return ERROR_TRACE_OPC; case TC_CCD: return CCD_TRACE_OPC; case TC_TIMER: return TIMER_TRACE_OPC; case TC_PROFILER: return PROFILER_TRACE_OPC; case TC_USER1: return USER1_TRACE_OPC; case TC_USER2: return USER2_TRACE_OPC; case TC_USER3: return USER3_TRACE_OPC; case TC_USER4: return USER4_TRACE_OPC; case TC_USER5: return USER5_TRACE_OPC; case TC_USER6: return USER6_TRACE_OPC; case TC_USER7: return USER7_TRACE_OPC; case TC_USER8: return USER8_TRACE_OPC; default: return TRACE_OPC; } } #endif /* RUN_FLASH */ #ifdef _TOOLS_ /* +------------------------------------------------------------------------------ | Function : vsi_o_set_htrace +------------------------------------------------------------------------------ | Description : This function sets the module variable trc_hCommTrace | | Parameters : comhandle - the new value | | Return : none +------------------------------------------------------------------------------ */ void vsi_o_set_htrace (T_HANDLE comhandle) { trc_hCommTrace = (OS_HANDLE) comhandle; } #endif /* _TOOLS_ */ #ifndef RUN_FLASH /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_TRC | | STATE : code ROUTINE : vsi_o_trace | +--------------------------------------------------------------------+ PURPOSE : traces a dynamic string */ LOCAL int vsi_o_trace ( T_HANDLE Caller, T_PRIM_HEADER *prim, ULONG suspend ) { T_S_HEADER *s_hdr; LONG Status; OS_QDATA QMsg; BOOL AlarmTrace = FALSE; s_hdr = (T_S_HEADER*)((ULONG*)prim + prim->sh_offset); if ( TracesAborted[Caller] ) { #ifdef _TOOLS_ /* * Only needed for _TOOLS_ because Nucleus provides at least 52 Bytes in the partition */ os_DeallocatePartition ( Caller, (T_VOID_STRUCT*)prim ); Status = os_AllocatePartition ( Caller, (T_VOID_STRUCT**)&prim, 80, suspend, TestGroupHandle ); #endif sprintf ((char*)P2D(prim),"Trc Abort: %d !",TracesAborted[Caller]+1 ); prim->len = strlen ((char*)P2D(prim)) + sizeof(T_PRIM_HEADER); prim->sh_offset = S_HDR_OFFSET(prim->len); s_hdr = (T_S_HEADER*)((ULONG*)prim + prim->sh_offset); AlarmTrace = TRUE; } s_hdr->snd[0] = (char)Caller; if ( Caller ) s_hdr->snd[0] |= (char)HANDLE_BIT; s_hdr->org_rcv[0] = 0; #ifdef _TOOLS_ get_local_time (&s_hdr->time); #else if ( time_is_tdma_frame == 1 ) { os_GetTime(Caller,&s_hdr->time); s_hdr->time |= TIME_IS_TDMA; } else { os_GetTime(Caller,&s_hdr->time); s_hdr->time &= ~TIME_IS_TDMA; } #endif QMsg.flags = 0; QMsg.data16 = MSG_PRIMITIVE; QMsg.data32 = 0; QMsg.ptr = (T_VOID_STRUCT*)prim; #ifdef _TOOLS_ QMsg.len = ALIGN(prim->len) + sizeof(T_S_HEADER); #endif os_GetTime ( 0, &QMsg.time ); #ifndef _TOOLS_ if ( trc_hCommTrace == VSI_ERROR ) if ( (trc_hCommTrace = vsi_c_open ( TST_Handle, FRM_TST_NAME ) ) == OS_ERROR ) { os_DeallocatePartition ( Caller, (T_VOID_STRUCT*)prim ); return VSI_ERROR; } #else if ( trc_hCommTrace == VSI_ERROR ) { if ( FrameEnv == ENV_TOOLS ) { os_DeallocatePartition ( Caller, (T_VOID_STRUCT*)prim ); return VSI_ERROR; } else { if ( os_OpenQueue ( NO_TASK, FRM_TST_NAME, &trc_hCommTrace ) == OS_ERROR ) { os_DeallocatePartition ( Caller, (T_VOID_STRUCT*)prim ); return VSI_ERROR; } } } if ( FrameEnv == ENV_TOOLS ) { s_hdr->snd[0] = '~'; if ( os_GetTaskName ( Caller, Caller, &s_hdr->snd[1] ) == OS_ERROR ) { char Sender[RESOURCE_NAMELEN]; char *ptr = (char*)P2D(prim); unsigned int NameLen; if ( *ptr == '~') { NameLen = GetNextToken ((char*)(ptr), Sender,"~"); InsertString(Sender, &s_hdr->snd[1], 4); prim->len -= 2+NameLen; memcpy ( ptr, ptr+2+NameLen, prim->len-sizeof(T_PRIM_HEADER) ); QMsg.len = ALIGN(prim->len) + sizeof(T_S_HEADER); } else InsertString(FRM_SYST_NAME, &s_hdr->snd[1], 4); } } #endif /* _TOOLS_ */ QMsg.e_id = trc_hCommTrace; #ifndef _TOOLS_ if ( Caller == TST_Handle || Caller == RCV_Handle ) { tst_drv_write ( Caller, 0, NULL, (char*)P2D(prim) ); os_DeallocatePartition ( Caller, (T_VOID_STRUCT*)prim ); return VSI_OK; } #ifndef _TARGET_ else /* * for the PC Simulation SuspendTrace[0] is != 0. To avoid that the system traces * sent with caller NO_TASK block the system if the caller was TST, the Caller * is set to the real caller here. This has no consequence on the caller name * displayed in PCO because this is already formated into the header. */ { if ( Caller == NO_TASK ) { Caller = e_running[os_MyHandle()]; } } #endif #endif QMsg.e_id = trc_hCommTrace; #ifdef _TOOLS_ Status = os_SendToQueue ( NO_TASK, trc_hCommTrace, MSG_TRACE_PRIO, suspend, &QMsg ); #else Status = os_SendToQueue ( NO_TASK, pf_TaskTable[trc_hCommTrace].QueueHandle, MSG_TRACE_PRIO, suspend, &QMsg ); #endif if ( Status == OS_OK || Status == OS_WAITED ) { TracesAborted[Caller] = 0; if ( AlarmTrace ) return VSI_ERROR; else return VSI_OK; } else { /* * No queue space available -> free partition */ os_DeallocatePartition ( Caller, (T_VOID_STRUCT*)prim ); TracesAborted[Caller]++; } return VSI_ERROR; } #endif #ifndef RUN_FLASH /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_COM | | STATE : code ROUTINE : vsi_o_primsend | +--------------------------------------------------------------------+ PURPOSE : traces a data segment as a primitive */ int vsi_o_primsend ( T_HANDLE caller, unsigned int mask, T_HANDLE dst, char *ext_dst, unsigned int opc, void *ptr, unsigned int len FILE_LINE_TYPE ) { int alloc_size; T_PRIM_HEADER *prim; T_HANDLE e_handle; if ( caller != 0 ) e_handle = caller; else e_handle = e_running[os_MyHandle()]; if ( (e_handle >= 0) && (TraceMask[e_handle] & mask) ) { if ( opc != 0 ) { alloc_size = len + sizeof(T_PRIM_HEADER); if ( alloc_size < (int)MaxPrimPartSize ) { prim = (T_PRIM_HEADER*)vsi_c_new ( 0, alloc_size, opc FILE_LINE ); memcpy((char*)P2D(prim), ptr, len); /* if primitive is FRM_WARNING_IND -> free */ if ( opc == FRM_WARNING_IND ) { PFREE(ptr); } } else { vsi_o_ttrace ( caller, TC_SYSTEM, "SYSTEM WARNING: Binary trace too long -> discarded in %s(%d)" FILE_LINE ); return VSI_ERROR; } } else { prim = D2P(ptr); } if ( vsi_o_datasend ( e_handle, dst, ext_dst, prim FILE_LINE ) == VSI_ERROR ) { vsi_c_free ( 0, (T_VOID_STRUCT**)&prim FILE_LINE ); } } return VSI_OK; } #endif #ifndef RUN_FLASH /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_COM | | STATE : code ROUTINE : vsi_o_sdusend | +--------------------------------------------------------------------+ PURPOSE : traces an SDU as a primitive */ int vsi_o_sdusend ( T_HANDLE caller, T_HANDLE dst, char *ext_dst, int opc, char ent, char dir, char type, void *ptr, unsigned int len FILE_LINE_TYPE ) { T_PRIM_HEADER *prim; T_HANDLE e_handle; int alloc_size; if ( caller != 0 ) e_handle = caller; else e_handle = e_running[os_MyHandle()]; if ( (e_handle >= 0) && (TraceMask[e_handle] & TC_SDU) ) { if ( opc != 0 ) { alloc_size = len + sizeof(T_PRIM_HEADER) + sizeof(T_SDU_TRACE); if ( alloc_size < (int)MaxPrimPartSize ) { prim = (T_PRIM_HEADER*)vsi_c_new ( 0, alloc_size, opc FILE_LINE ); ((T_SDU_TRACE*)(P2D(prim)))->entity = ent; ((T_SDU_TRACE*)(P2D(prim)))->dir = dir; ((T_SDU_TRACE*)(P2D(prim)))->type = type; ((T_SDU_TRACE*)(P2D(prim)))->align1 = 0; memcpy(((char*)P2D(prim))+sizeof(T_SDU_TRACE), ptr, len); if ( vsi_o_datasend ( e_handle, dst, ext_dst, prim FILE_LINE ) == VSI_ERROR ) { vsi_c_free ( 0, (T_VOID_STRUCT**)&prim FILE_LINE ); } } else { vsi_o_ttrace ( caller, TC_SYSTEM, "SYSTEM WARNING: Binary trace too long -> discarded in %s(%d)" FILE_LINE ); } } } return VSI_OK; } #endif #ifndef RUN_FLASH /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_COM | | STATE : code ROUTINE : vsi_o_datasend | +--------------------------------------------------------------------+ PURPOSE : traces an already allocated primitive */ int vsi_o_datasend ( T_HANDLE caller, T_HANDLE dst, char *ext_dst, T_PRIM_HEADER *prim FILE_LINE_TYPE ) { int alloc_size; T_PRIM_HEADER *carrier; T_S_HEADER *s_hdr; LONG status; OS_QDATA DMsg; unsigned int i; ULONG suspend; suspend = get_suspend_state(caller,CHECK_TRC_SUSPEND); /* allocate carrier */ alloc_size = S_ALLOC_SIZE(4 + 1); status = os_AllocatePartition ( caller, (T_VOID_STRUCT**)&carrier, alloc_size, suspend, TestGroupHandle ); if ( status == OS_OK || status == OS_WAITED || status == OS_ALLOCATED_BIGGER ) { DMsg.data16 = MSG_PRIMITIVE; DMsg.data32 = prim->opc; #ifdef _TOOLS_ DMsg.len = alloc_size; #endif DMsg.ptr = (T_VOID_STRUCT*)carrier; carrier->opc = prim->opc; carrier->len = alloc_size; carrier->sh_offset = S_HDR_OFFSET(alloc_size - sizeof(T_S_HEADER)); s_hdr = (T_S_HEADER*)((ULONG*)carrier + carrier->sh_offset); if ( dst != 0 ) { if ( vsi_e_name ( caller, dst, TaskName ) == VSI_OK ) { /* set org_rcv */ for (i = 0; TaskName[i] && i < sizeof (s_hdr->rcv); i++) s_hdr->org_rcv[i] = TaskName[i]; if (i < sizeof s_hdr->rcv) s_hdr->org_rcv[i] = 0; } else { s_hdr->org_rcv[0] = 0; } } else { s_hdr->org_rcv[0] = 0; } strncpy (s_hdr->rcv, ext_dst, RESOURCE_NAMELEN); s_hdr->rcv[RESOURCE_NAMELEN-1] = 0; if ( caller != 0 ) { if ( vsi_e_name ( caller, caller, TaskName ) == VSI_OK ) { /* set snd */ for (i = 0; TaskName[i] && i < sizeof (s_hdr->snd); i++) s_hdr->snd[i] = TaskName[i]; if (i < sizeof s_hdr->snd) s_hdr->snd[i] = 0; } } else { if ( pf_TaskTable[caller].Name[0] != 0 ) { s_hdr->snd[0] = (char)(caller | HANDLE_BIT); } else { s_hdr->rcv[0] = 0; } } os_GetTime(0,&s_hdr->time); ((T_PRIM_X*)(carrier))->prim_ptr = prim; DMsg.e_id = trc_hCommTrace; } else { TracesAborted[caller]++; return VSI_ERROR; } #ifdef MEMORY_SUPERVISION vsi_ppm_send ( caller, pf_TaskTable[trc_hCommTrace].QueueHandle, prim FILE_LINE_MACRO ); #endif /* MEMORY_SUPERVISION */ if ( os_SendToQueue ( caller, pf_TaskTable[trc_hCommTrace].QueueHandle, OS_NORMAL, suspend, &DMsg ) == OS_TIMEOUT ) { os_DeallocatePartition ( caller, (T_VOID_STRUCT*)carrier ); TracesAborted[caller]++; return VSI_ERROR; } return VSI_OK; } #endif #ifndef RUN_FLASH /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_COM | | STATE : code ROUTINE : vsi_o_memtrace | +--------------------------------------------------------------------+ PURPOSE : check if PS already started */ int vsi_o_memtrace ( T_HANDLE caller, void *ptr, unsigned int len ) { T_PRIM_HEADER *prim; T_HANDLE e_handle; LONG status; unsigned int i; ULONG suspend; if ( caller != 0 ) e_handle = caller; else e_handle = e_running[os_MyHandle()]; if ( (e_handle >= 0) && (TraceMask[e_handle] & TC_DATA) ) { suspend = get_suspend_state(e_handle,CHECK_TRC_SUSPEND); status = os_AllocatePartition ( e_handle, (T_VOID_STRUCT**)&prim, S_ALLOC_SIZE(len)*3, suspend, TestGroupHandle ); if ( status == OS_OK || status == OS_WAITED || status == OS_ALLOCATED_BIGGER ) { unsigned char *dst_ptr = (unsigned char*)P2D(prim); unsigned char *src_ptr = (unsigned char*)ptr; for ( i = 0; i < len; i++, src_ptr++ ) { if (*src_ptr>>4 > 9) *dst_ptr++ = (*src_ptr>>4) + ('A'-10); else *dst_ptr++ = (*src_ptr>>4) +'0'; if ((*src_ptr&0xf) > 9) *dst_ptr++ = (*src_ptr&0xf) + ('A'-10); else *dst_ptr++ = (*src_ptr&0xf) +'0'; *dst_ptr++ = 0x20; } prim->opc = int_vsi_tc2trace_opc(TC_DATA); prim->len = 3*len + sizeof(T_PRIM_HEADER); prim->sh_offset = S_HDR_OFFSET(prim->len); return ( vsi_o_trace ( e_handle, prim, suspend ) ); } TracesAborted[e_handle]++; return VSI_ERROR; } return VSI_OK; } #endif #ifndef RUN_FLASH /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_TRC | | STATE : code ROUTINE : vsi_o_func_ttrace | +--------------------------------------------------------------------+ PURPOSE : traces a function name */ int vsi_o_func_ttrace ( const char * const format, ... ) { va_list varpars; T_HANDLE Caller; Caller = e_running[os_MyHandle()]; if ( (Caller >= 0) && (TraceMask[Caller] & TC_FUNC) ) { va_start (varpars, format); return int_vsi_o_ttrace ( Caller, TC_FUNC, format, varpars ); } return VSI_ERROR; } #endif #ifndef RUN_FLASH /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_TRC | | STATE : code ROUTINE : vsi_o_event_ttrace | +--------------------------------------------------------------------+ PURPOSE : traces an event */ int vsi_o_event_ttrace ( const char * const format, ... ) { va_list varpars; T_HANDLE Caller; Caller = e_running[os_MyHandle()]; if ( (Caller >= 0) && (TraceMask[Caller] & TC_EVENT) ) { va_start (varpars, format); return int_vsi_o_ttrace ( Caller, TC_EVENT, format, varpars ); } return VSI_ERROR; } #endif #ifndef RUN_FLASH /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_TRC | | STATE : code ROUTINE : vsi_o_error_ttrace | +--------------------------------------------------------------------+ PURPOSE : traces an error */ int vsi_o_error_ttrace ( const char * const format, ... ) { va_list varpars; T_HANDLE Caller; Caller = e_running[os_MyHandle()]; if ( (Caller >= 0) && (TraceMask[Caller] & TC_ERROR) ) { va_start (varpars, format); int_vsi_o_ttrace ( Caller, TC_ERROR, format, varpars ); vsi_o_ttrace ( NO_TASK, TC_ERROR, "TRACE ERROR in %s", pf_TaskTable[Caller].Name ); if ( ext_trace_func.trace_error != NULL ) { ext_trace_func.trace_error ( format, varpars ); } return VSI_OK; } return VSI_ERROR; } #endif #ifndef RUN_FLASH /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_TRC | | STATE : code ROUTINE : vsi_o_state_ttrace | +--------------------------------------------------------------------+ PURPOSE : traces a dynamic string */ int vsi_o_state_ttrace ( const char * const format, ... ) { va_list varpars; T_HANDLE Caller; Caller = e_running[os_MyHandle()]; if ( (Caller >= 0) && (TraceMask[Caller] & TC_STATE) ) { va_start (varpars, format); return int_vsi_o_ttrace ( Caller, TC_STATE, format, varpars ); } return VSI_ERROR; } #endif #ifndef RUN_FLASH /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_TRC | | STATE : code ROUTINE : vsi_o_class_ttrace | +--------------------------------------------------------------------+ PURPOSE : traces a dynamic string */ int vsi_o_class_ttrace ( ULONG trace_class, const char * const format, ... ) { va_list varpars; T_HANDLE Caller; Caller = e_running[os_MyHandle()]; if ( (Caller >= 0) && (TraceMask[Caller] & trace_class) ) { va_start (varpars, format); return int_vsi_o_ttrace ( Caller, trace_class, format, varpars ); } return VSI_ERROR; } #endif #ifndef RUN_FLASH /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_TRC | | STATE : code ROUTINE : vsi_o_ttrace | +--------------------------------------------------------------------+ PURPOSE : traces a dynamic string */ int vsi_o_ttrace ( T_HANDLE Caller, ULONG TraceClass, const char * const format, ... ) { va_list varpars; if ( (Caller >= 0) && (TraceMask[Caller] & TraceClass) ) { va_start (varpars, format); return int_vsi_o_ttrace ( Caller, TraceClass, format, varpars ); } return VSI_ERROR; } #endif #ifndef RUN_FLASH /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_TRC | | STATE : code ROUTINE : int_vsi_o_ttrace | +--------------------------------------------------------------------+ PURPOSE : traces a dynamic string */ int int_vsi_o_ttrace ( T_HANDLE Caller, ULONG TraceClass, const char * const format, va_list varpars ) { T_PRIM_HEADER *prim; LONG Status; ULONG suspend; unsigned int offset = 0; unsigned int num; suspend = get_suspend_state(Caller,CHECK_TRC_SUSPEND); Status = os_AllocatePartition ( Caller, (T_VOID_STRUCT**)&prim, TextTracePartitionSize, suspend, TestGroupHandle ); if ( Status == OS_OK || Status == OS_WAITED || Status == OS_ALLOCATED_BIGGER ) { #if 0 /* be activated when PCO can handle this */ if ( TraceClass == TC_ERROR ) { *((char*)(P2D(prim))) = '#'; offset = 1; } #endif #ifdef _TOOLS_ int trc_length = TextTracePartitionSize - sizeof(T_S_HEADER) - sizeof(T_PRIM_HEADER) - 1; trc_length &= ~0x03; num = offset + (unsigned int)_vsnprintf ((char*)(P2D(prim)) + offset, trc_length, format, varpars) + 1; /* + 1 for terminating 0 */ #else num = offset + (unsigned int)vsprintf ((char*)(P2D(prim)) + offset, format, varpars) + 1; /* + 1 for terminating 0 */ #endif va_end (varpars); if ( num + sizeof(T_S_HEADER) + sizeof(T_PRIM_HEADER) >= TextTracePartitionSize ) { sprintf ( (char*)(P2D(prim))+60, "... %s trace too long", pf_TaskTable[Caller].Name ); vsi_o_assert ( NO_TASK, OS_SYST_ERR_STR_TOO_LONG, __FILE__, __LINE__,(char*)(P2D(prim))); } prim->opc = int_vsi_tc2trace_opc(TraceClass); prim->len = strlen((char*)P2D(prim)) + sizeof(T_PRIM_HEADER); prim->sh_offset = S_HDR_OFFSET(prim->len); return ( vsi_o_trace ( Caller, prim, suspend ) ); } if ( FrameEnv == ENV_STACK ) { TracesAborted[Caller]++; } return VSI_ERROR; } #endif #ifndef RUN_FLASH /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_TRC | | STATE : code ROUTINE : vsi_o_func_itrace | +--------------------------------------------------------------------+ PURPOSE : traces a function name */ int vsi_o_func_itrace ( ULONG index, const char * const format, ... ) { va_list varpars; T_HANDLE Caller; Caller = e_running[os_MyHandle()]; if ( (Caller >= 0) && (TraceMask[Caller] & TC_FUNC) ) { va_start (varpars, format); return int_vsi_o_itrace ( Caller, TC_FUNC, index, format, varpars ); } return VSI_ERROR; } #endif #ifndef RUN_FLASH /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_TRC | | STATE : code ROUTINE : vsi_o_event_itrace | +--------------------------------------------------------------------+ PURPOSE : traces an event */ int vsi_o_event_itrace ( ULONG index, const char * const format, ... ) { va_list varpars; T_HANDLE Caller; Caller = e_running[os_MyHandle()]; if ( (Caller >= 0) && (TraceMask[Caller] & TC_EVENT) ) { va_start (varpars, format); return int_vsi_o_itrace ( Caller, TC_EVENT, index, format, varpars ); } return VSI_ERROR; } #endif #ifndef RUN_FLASH /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_TRC | | STATE : code ROUTINE : vsi_o_error_itrace | +--------------------------------------------------------------------+ PURPOSE : traces an error */ int vsi_o_error_itrace ( ULONG index, const char * const format, ... ) { va_list varpars; T_HANDLE Caller; Caller = e_running[os_MyHandle()]; if ( (Caller >= 0) && (TraceMask[Caller] & TC_ERROR) ) { va_start (varpars, format); int_vsi_o_itrace ( Caller, TC_ERROR, index, format, varpars ); os_GetTaskName ( Caller, Caller, TaskName ); vsi_o_ttrace ( NO_TASK, TC_ERROR, "TRACE ERROR in %s", pf_TaskTable[Caller].Name ); return VSI_OK; } return VSI_ERROR; } #endif #ifndef RUN_FLASH /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_TRC | | STATE : code ROUTINE : vsi_o_state_itrace | +--------------------------------------------------------------------+ PURPOSE : traces a dynamic string */ int vsi_o_state_itrace ( ULONG index, const char * const format, ... ) { va_list varpars; T_HANDLE Caller; Caller = e_running[os_MyHandle()]; if ( (Caller >= 0) && (TraceMask[Caller] & TC_STATE) ) { va_start (varpars, format); return int_vsi_o_itrace ( Caller, TC_STATE, index, format, varpars ); } return VSI_ERROR; } #endif #ifndef RUN_FLASH /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_TRC | | STATE : code ROUTINE : vsi_o_class_itrace | +--------------------------------------------------------------------+ PURPOSE : traces a dynamic string */ int vsi_o_class_itrace ( ULONG trace_class, ULONG Index, const char * const format, ... ) { va_list varpars; T_HANDLE Caller; Caller = e_running[os_MyHandle()]; if ( (Caller >= 0) && (TraceMask[Caller] & trace_class) ) { va_start (varpars, format); return int_vsi_o_itrace ( Caller, trace_class, Index, format, varpars ); } return VSI_ERROR; } #endif #ifndef RUN_FLASH /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_TRC | | STATE : code ROUTINE : vsi_o_ttrace | +--------------------------------------------------------------------+ PURPOSE : traces a dynamic string */ int vsi_o_itrace ( T_HANDLE Caller, ULONG TraceClass, ULONG Index, const char * const format, ... ) { va_list varpars; if ( (Caller >= 0) && (TraceMask[Caller] & TraceClass) ) { va_start (varpars, format); return int_vsi_o_itrace ( Caller, TraceClass, Index, format, varpars ); } return VSI_ERROR; } #endif #ifndef RUN_FLASH /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_TRC | | STATE : code ROUTINE : int_vsi_o_itrace | +--------------------------------------------------------------------+ PURPOSE : traces a dynamic string */ int int_vsi_o_itrace ( T_HANDLE Caller, ULONG TraceClass, ULONG index, const char * const format, va_list varpars ) { T_PRIM_HEADER *prim; LONG Status; ULONG suspend; unsigned int offset = 0; unsigned int paramCount; unsigned int i; /* * the offset is calculated prior to the actual write operation * to avoid writing beyond the allocated size * * all write operation are addressed relatively to the precalculated * offset e.g. *(&Prim->Data + offset - 5) */ if ( (Caller >= 0) && (TraceMask[Caller] & TraceClass) ) { suspend = get_suspend_state(Caller,CHECK_TRC_SUSPEND); Status = os_AllocatePartition ( Caller, (T_VOID_STRUCT**)&prim, (ULONG)TextTracePartitionSize, suspend, TestGroupHandle ); if ( Status == OS_OK || Status == OS_WAITED || Status == OS_ALLOCATED_BIGGER ) { /* * the index preceded by % */ #if 0 /* be activated when PCO can handle this */ if ( TraceClass == TC_ERROR ) { *((char*)(P2D(prim))) = '#'; offset = 1; } #endif offset += 5; if(offset <= TextTracePartitionSize - sizeof(T_S_HEADER) - sizeof(T_PRIM_HEADER)) { *((char*)(P2D(prim)) + offset - 5) = '%'; if(trc_LittleEndian) { *((char*)(P2D(prim)) + offset - 4) = *((char *)&index); *((char*)(P2D(prim)) + offset - 3) = *(((char *)&index)+1); *((char*)(P2D(prim)) + offset - 2) = *(((char *)&index)+2); *((char*)(P2D(prim)) + offset - 1) = *(((char *)&index)+3); } else { *((char*)(P2D(prim)) + offset - 4) = *(((char *)&index)+3); *((char*)(P2D(prim)) + offset - 3) = *(((char *)&index)+2); *((char*)(P2D(prim)) + offset - 2) = *(((char *)&index)+1); *((char*)(P2D(prim)) + offset - 1) = *((char *)&index); } } /* * parse the format string */ paramCount = strlen(format); for (i=0; i<paramCount; i++) { switch(*(format+i)) { case 'c': /* one byte */ offset+=1; if(offset <= TextTracePartitionSize - sizeof(T_S_HEADER) - sizeof(T_PRIM_HEADER)) *((char*)(P2D(prim)) + offset - 1) = *((char *)varpars); va_arg(varpars, int); /* int, not char because of promotion */ break; case 'i': /* four bytes */ case 'p': case '*': offset+=4; if(offset <= TextTracePartitionSize - sizeof(T_S_HEADER) - sizeof(T_PRIM_HEADER)) { if(trc_LittleEndian) { *((char*)(P2D(prim)) + offset - 4) = *((char *)varpars); *((char*)(P2D(prim)) + offset - 3) = *(((char *)varpars)+1); *((char*)(P2D(prim)) + offset - 2) = *(((char *)varpars)+2); *((char*)(P2D(prim)) + offset - 1) = *(((char *)varpars)+3); } else { *((char*)(P2D(prim)) + offset - 4) = *(((char *)varpars)+3); *((char*)(P2D(prim)) + offset - 3) = *(((char *)varpars)+2); *((char*)(P2D(prim)) + offset - 2) = *(((char *)varpars)+1); *((char*)(P2D(prim)) + offset - 1) = *((char *)varpars); } } va_arg(varpars, int); break; case 'd': /* eigth bytes */ offset += 8; /* * TI and Microsoft represent double values differently * Double Host representation (address incressing from byte 1 to 8) layout Microsoft TMS470x SEEEEEEE byte 8 byte 4 EEMMMMMM byte 7 byte 3 MMMMMMMM byte 6 byte 2 MMMMMMMM byte 5 byte 1 MMMMMMMM byte 4 byte 8 MMMMMMMM byte 3 byte 7 MMMMMMMM byte 2 byte 6 MMMMMMMM byte 1 byte 5 S - sign bit E - exponent bits M - mantissa bits * * double */ if(offset <= TextTracePartitionSize - sizeof(T_S_HEADER) - sizeof(T_PRIM_HEADER)) { #ifdef _TARGET_ /* TI TMS470 Compiler */ *((char*)(P2D(prim)) + offset - 4) = *((char *)varpars); *((char*)(P2D(prim)) + offset - 3) = *(((char *)varpars)+1); *((char*)(P2D(prim)) + offset - 2) = *(((char *)varpars)+2); *((char*)(P2D(prim)) + offset - 1) = *(((char *)varpars)+3); *((char*)(P2D(prim)) + offset - 8) = *(((char *)varpars)+4); *((char*)(P2D(prim)) + offset - 7) = *(((char *)varpars)+5); *((char*)(P2D(prim)) + offset - 6) = *(((char *)varpars)+6); *((char*)(P2D(prim)) + offset - 5) = *(((char *)varpars)+7); #else /* * This should work as well, since no reordering is done. * Don't believe the VC5/6 manual which states a complete * different byte order :( * */ /* PC- Simulation */ *((char*)(P2D(prim)) + offset - 8) = *((char *)varpars); *((char*)(P2D(prim)) + offset - 7) = *(((char *)varpars)+1); *((char*)(P2D(prim)) + offset - 6) = *(((char *)varpars)+2); *((char*)(P2D(prim)) + offset - 5) = *(((char *)varpars)+3); *((char*)(P2D(prim)) + offset - 4) = *(((char *)varpars)+4); *((char*)(P2D(prim)) + offset - 3) = *(((char *)varpars)+5); *((char*)(P2D(prim)) + offset - 2) = *(((char *)varpars)+6); *((char*)(P2D(prim)) + offset - 1) = *(((char *)varpars)+7); #endif /* _TARGET_ */ } va_arg(varpars, double); break; case 's': /* a string of bytes */ { /* * copy the string including the terminating NULL */ unsigned int len = strlen(*((char **)varpars)) + 1; offset += len; if(offset <= TextTracePartitionSize - sizeof(T_S_HEADER) - sizeof(T_PRIM_HEADER)) { memcpy((char*)(P2D(prim)) + offset - len, *((char **)varpars), len); } va_arg(varpars, char **); } break; default: /* unknown type */ vsi_o_assert ( NO_TASK, OS_SYST_ERR_STR_TOO_LONG, __FILE__, __LINE__, "Unknown Trace Format" ); break; } } va_end (varpars); /* * if the amount of trace data was bigger than the allocated * size - discard the trace and send an error trace instead */ if (offset > TextTracePartitionSize - sizeof(T_S_HEADER) - sizeof(T_PRIM_HEADER)) { unsigned int n = (unsigned int)sprintf ((char*)P2D(prim),"ERROR: Compressed trace (index %d) too long (%d bytes). Trace discarded !!!",index, offset); prim->len = n + sizeof(T_PRIM_HEADER); } else { prim->len = offset + sizeof(T_PRIM_HEADER); } prim->opc = int_vsi_tc2trace_opc(TraceClass); prim->sh_offset = S_HDR_OFFSET(prim->len); return ( vsi_o_trace ( Caller, prim, suspend ) ); } if ( FrameEnv == ENV_STACK ) { TracesAborted[Caller]++; } } return VSI_ERROR; } #endif #ifndef RUN_FLASH /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_TRC | | STATE : code ROUTINE : vsi_o_ptrace | +--------------------------------------------------------------------+ PURPOSE : traces a primitive opc and direction */ int vsi_o_ptrace ( T_HANDLE Caller, ULONG opc, UBYTE dir ) { T_PRIM_HEADER *prim; ULONG suspend; LONG Status; ULONG size; int opc_len; if ( (Caller >= 0) && (TraceMask[Caller] & TC_PRIM) #ifdef _TOOLS_ && (SAP_NR(opc)!=TRACE_SAP) && (opc!=TRACE_OPC) #endif ) { suspend = get_suspend_state(Caller,CHECK_TRC_SUSPEND); size = S_ALLOC_SIZE(PTRACE_LEN_OPC32); Status = os_AllocatePartition ( Caller, (T_VOID_STRUCT**)&prim, size, suspend, TestGroupHandle ); if ( Status == OS_OK || Status == OS_WAITED || Status == OS_ALLOCATED_BIGGER ) { prim->opc = int_vsi_tc2trace_opc(TC_PRIM); if ( dir ) strcpy ( (char*)P2D(prim),"$---OUT:$p0x123456789" ); else strcpy ( (char*)P2D(prim),"$--- IN:$p0x123456789" ); if ( OPC32BIT(opc) ) { opc_len = CHARS_FOR_32BIT; prim->len = PTRACE_LEN_OPC32; } else { opc_len = CHARS_FOR_16BIT; prim->len = PTRACE_LEN_OPC16; } prim->len = prim->len + sizeof(T_PRIM_HEADER); HexToASCII ( opc, (char*)P2D(prim) + 12, opc_len ); strcpy (((char*)P2D(prim) + 12 + opc_len), "$" ); prim->sh_offset = S_HDR_OFFSET(prim->len); return ( vsi_o_trace ( Caller, prim, suspend ) ); } TracesAborted[Caller]++; } return VSI_ERROR; } #endif #ifndef RUN_FLASH /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_TRC | | STATE : code ROUTINE : vsi_o_strace | +--------------------------------------------------------------------+ PURPOSE : traces a state and state transition */ int vsi_o_strace (T_HANDLE Caller, const char *const machine, const char *const curstate, const char *const newstate) { T_PRIM_HEADER *prim; LONG Status; ULONG size; ULONG suspend; if ( (Caller >= 0) && (TraceMask[Caller] & TC_STATE) ) { suspend = get_suspend_state(Caller,CHECK_TRC_SUSPEND); size = S_ALLOC_SIZE(STRACE_LEN); Status = os_AllocatePartition ( Caller, (T_VOID_STRUCT**)&prim, size, suspend, TestGroupHandle ); if ( Status == OS_OK || Status == OS_WAITED || Status == OS_ALLOCATED_BIGGER ) { strcpy ( (char *)P2D(prim), machine ); strcat ( (char *)P2D(prim), ":" ); strcat ( (char *)P2D(prim), curstate ); if ( newstate != NULL ) { strcat ( (char *)P2D(prim), " -> " ); strcat ( (char *)P2D(prim), newstate ); } prim->opc = int_vsi_tc2trace_opc(TC_STATE); prim->len = strlen((char*)P2D(prim)) + sizeof(T_PRIM_HEADER); prim->sh_offset = S_HDR_OFFSET(prim->len); return ( vsi_o_trace ( Caller, prim, suspend ) ); } TracesAborted[Caller]++; } return VSI_ERROR; } #endif #ifndef RUN_INT_RAM /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_TRC | | STATE : code ROUTINE : vsi_o_assert | +--------------------------------------------------------------------+ PURPOSE : assert */ /*lint -esym(715,cause) suppress Info -- Symbol 'cause' not referenced */ int vsi_o_assert (T_HANDLE Caller, USHORT cause, const char *file, int line, const char * const format,...) { va_list varpars; #ifdef _TARGET_ OS_QDATA Msg; while ( os_ReceiveFromQueue( Caller, pf_TaskTable[trc_hCommTrace].QueueHandle, &Msg, OS_NO_SUSPEND ) == OS_OK ) { tst_pei_primitive (Msg.ptr); } #endif strcpy ( TraceBuffer, "SYSTEM ERROR: " ); va_start (varpars, format); vsprintf (TraceBuffer+strlen("SYSTEM ERROR: "), format, varpars); va_end (varpars); sprintf (TraceBuffer+strlen(TraceBuffer), ", %s(%d)", file, line ); #ifdef _TOOLS_ vsi_o_ttrace ( NO_TASK, TC_SYSTEM, TraceBuffer ); #else if ( cause & OS_SYST_ERR ) emergeny_trace = 1; tst_drv_write ( NO_TASK, 0, NULL, TraceBuffer ); if ( error_ind_dst[0] != 0 ) { frm_error_ind->error_code = cause; strncpy ((char*)frm_error_ind->error_string, TraceBuffer, FRM_PRIM_STR_SIZE); frm_error_ind->error_string[FRM_PRIM_STR_SIZE-1] = 0; tst_drv_write ( NO_TASK, FRM_ERROR_IND, error_ind_dst, (char*)frm_error_ind ); } #endif #if defined _NUCLEUS_ && !defined _TARGET_ printf ("%s\n",TraceBuffer); printf ( "Task %s suspended\n", pf_TaskTable[Caller].Name ); #endif if ( ext_trace_func.trace_assert != NULL ) { /* in case of OS_SYST_ERR_QUEUE_FULL we should not to send the trace to ACI, because ACI will probably no longer be scheduled. in case of OS_SYST_ERR_NO_PARTITION the PALLOC in ACI fails and will probably hide the root cause of the problem. */ if ( cause != OS_SYST_ERR_QUEUE_FULL && cause != OS_SYST_ERR_NO_PARTITION ) { ext_trace_func.trace_assert ( format, varpars ); os_SuspendTask ( Caller, 1000 ); } } #ifdef _NUCLEUS_ os_SystemError ( os_MyHandle(), cause, TraceBuffer ); #endif return VSI_OK; } #endif #ifndef RUN_INT_RAM /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_TRC | | STATE : code ROUTINE : vsi_settracemask | +--------------------------------------------------------------------+ PURPOSE : set trace mask */ int vsi_settracemask ( T_HANDLE Caller, T_HANDLE Handle, ULONG Mask ) { if ( Handle == 0 || pf_TaskTable[Handle].Name[0] != 0 ) { TraceMask[Handle] = Mask; TraceMask[0] |= TC_SYSTEM; return VSI_OK; } else return VSI_ERROR; } #endif #ifndef RUN_INT_RAM /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_TRC | | STATE : code ROUTINE : vsi_gettracemask | +--------------------------------------------------------------------+ PURPOSE : get trace mask */ int vsi_gettracemask ( T_HANDLE Caller, T_HANDLE Handle, ULONG *Mask ) { if ( Handle == 0 || pf_TaskTable[Handle].Name[0] != 0 ) { *Mask = TraceMask[Handle]; return VSI_OK; } else return VSI_ERROR; } #endif #ifndef RUN_INT_RAM /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_TRC | | STATE : code ROUTINE : vsi_trcsuspend | +--------------------------------------------------------------------+ PURPOSE : set suspend for traces */ int vsi_trcsuspend ( T_HANDLE Caller, T_HANDLE Handle, ULONG Suspend ) { /* SuspendTrace[Handle] = Suspend; */ return VSI_OK; } #endif #ifndef RUN_FLASH /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_TRC | | STATE : code ROUTINE : vsi_trc_free | +--------------------------------------------------------------------+ PURPOSE : monitor test interface partition allocation */ int vsi_trc_free ( T_HANDLE Caller, T_VOID_STRUCT **Prim ) { if ( os_DeallocatePartition ( Caller, *Prim ) != OS_ERROR ) { *Prim = NULL; return VSI_OK; } return VSI_ERROR; } #endif #ifndef RUN_INT_RAM /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_TRC | | STATE : code ROUTINE : InitializeTestpools | +--------------------------------------------------------------------+ PURPOSE : initialize supervision, write index to each partition. */ void InitializeTrace ( void ) { USHORT i; ULONG ByteOrder; /* * test the byte order */ ByteOrder = 0x11223344; if(*((char *) &ByteOrder) == 0x44) trc_LittleEndian = TRUE; else if (*((char *) &ByteOrder) == 0x11) trc_LittleEndian = FALSE; else vsi_o_assert ( NO_TASK, OS_SYST_ERR_STR_TOO_LONG, __FILE__, __LINE__, "Unknown Byte Order" ); emergeny_trace = 0; trc_hCommTrace = VSI_ERROR;; for ( i = 0; i <= MaxEntities; i++ ) { TracesAborted[i] = 0; #ifdef _TARGET_ TraceMask[i] = TC_SYSTEM|TC_ERROR; #else /* _TARGET_ */ TraceMask[i] = 0xffffffff & ~TC_CCD; #endif /* _TARGET_ */ } #ifdef _TARGET_ #endif ext_trace_func.magic_nr = 0; ext_trace_init(); } #endif #ifndef RUN_FLASH /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : VSI_TRC | | STATE : code ROUTINE : get_suspend_state | +--------------------------------------------------------------------+ PURPOSE : check if suspend is allowed. */ ULONG get_suspend_state ( T_HANDLE caller, int type ) { if ( caller != 0 ) { #ifdef _TARGET_ if ( type == CHECK_TRC_SUSPEND ) { if ( pf_TaskTable[caller].Flags & TRC_NO_SUSPEND ) { return OS_NO_SUSPEND; } else { return OS_SUSPEND; } } else if ( type == CHECK_PRIM_SUSPEND ) { if ( pf_TaskTable[caller].Flags & PRIM_NO_SUSPEND ) { return OS_NO_SUSPEND; } else { return OS_SUSPEND; } } else { return OS_NO_SUSPEND; } #else /* It is checked if the caller is a SYSTEM_PROCESS to ensure that TST and RCV do not block while tracing to avoid a deadlock. */ if ( pf_TaskTable[caller].Flags & SYSTEM_PROCESS ) return OS_NO_SUSPEND; else return OS_SUSPEND; #endif } else { #ifdef _TARGET_ return OS_NO_SUSPEND; #else return OS_SUSPEND; #endif } } #endif /* ------------------------------------------------------------------------- External Trace functions ----------------------------------------------------------------------------*/ #ifdef TEST_EXT_TRACE #ifndef RUN_INT_RAM void trace_error ( const char * const format, va_list varpars ) { #ifndef _TARGET_ char buf[99]; vsprintf (buf, format, varpars); printf ("%s\n",buf); #endif } #endif #ifndef RUN_INT_RAM void trace_assert ( const char * const format, va_list varpars ) { #ifndef _TARGET_ char buf[99]; vsprintf (buf, format, varpars); printf ("%s\n",buf); #endif } #endif #endif /* TEST_EXT_TRACE */ #ifndef RUN_INT_RAM /* +------------------------------------------------------------------------------ | Function : ext_trace_register +------------------------------------------------------------------------------ | Description : register the external trace functions. | | Parameters : func - pointer to API function pointer table | | Return : void +------------------------------------------------------------------------------ */ void vsi_ext_trace_register ( T_EXT_TRACE_FUNC * func ) { ext_trace_func.trace_error = func->trace_error; ext_trace_func.trace_assert = func->trace_assert; ext_trace_func.magic_nr = EXT_TRACE_INITIALIZED; } #endif #ifndef RUN_INT_RAM /* +------------------------------------------------------------------------------ | Function : ext_trace_init +------------------------------------------------------------------------------ | Description : initialize external trace function pointer table. | | Parameters : void | | Return : void +------------------------------------------------------------------------------ */ void ext_trace_init ( void ) { #ifdef TEST_EXT_TRACE vsi_ext_trace_register ( &ext_trace_functions ); #endif if ( ext_trace_func.magic_nr != EXT_TRACE_INITIALIZED ) { ext_trace_func.trace_error = NULL; ext_trace_func.trace_assert = NULL; } } #endif