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view src/gpf/tst/drv/tif2.c @ 246:d25af5b7e773
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author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Sun, 09 May 2021 20:38:06 +0000 |
parents | 4e78acac3d88 |
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/* +------------------------------------------------------------------------------ | File: tif.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 Modul contains the TIF driver +----------------------------------------------------------------------------- */ #ifndef __TIF_C__ #define __TIF_C__ #endif #include "typedefs.h" #include "string.h" #include "gdi.h" #include "vsi.h" #include "tools.h" #include "glob_defs.h" #include "ccdtable.h" #include "ccddata.h" #include "pcon.h" #include "p_mem.h" #include "drvconf.h" #include "tstheader.h" #ifdef _TOOLS_ #include "frame_const.h" #include <stdio.h> #endif /* _TOOLS_ */ #include "printtofile.h" #ifndef _TOOLS_ #if !defined (_SOLARIS_) && !defined (_LINUX_) #pragma pack(4) #endif #endif /*lint -e545 */ /*==== TYPES ======================================================*/ typedef struct { USHORT Handle; USHORT EnabledSignalType; T_DRV_CB_FUNC Callback; USHORT Config; } T_TIF_DATA; #ifdef _TOOLS_ typedef struct { unsigned int use_id; char *name; } T_RIV_USEID_TO_NAME; #endif /*==== CONSTANTS ==================================================*/ #define ALLOWED_TIF_SIGNALS (DRV_SIGTYPE_READ|DRV_SIGTYPE_CONNECT|DRV_SIGTYPE_DISCONNECT) #define NAME_LENGTH 4 #define TIF_RCV_CMD_SIZE 32 #define TIF_MAX_CMD (TIF_RCV_CMD_SIZE-1) #define STX 0x02 #define LF 0x0a #define PCON_ENABLED 0x0001 #define SYNC_MODE 0x0002 #undef VSI_CALLER #define VSI_CALLER TST_Handle, #ifdef _TOOLS_ const T_RIV_USEID_TO_NAME riv_use_id_to_name[] = { { 0x00010001, "RVM" }, { 0x00010002, "RVT" }, { 0x000A0001, "R2D" }, { 0x000A0002, "RTC" }, { 0x000A0004, "FFS" }, { 0x000A0008, "KPD" }, { 0x000A0010, "SPI" }, { 0x000A0020, "PWR" }, { 0x000A0040, "RGUI" }, { 0x00140001, "HCI" }, { 0x00140002, "L2CA" }, { 0x00140004, "BTCT" }, { 0x00140008, "RFC" }, { 0x00140010, "SPP" }, { 0x00140020, "HS" }, { 0x00140040, "HSG" }, { 0x00140080, "SDP" }, { 0x00140100, "DUN" }, { 0x00140200, "FAX" }, { 0x00140400, "OBX" }, { 0x00140800, "OPP" }, { 0x00141000, "FTP" }, { 0x00142000, "SYN" }, { 0x001E0001, "EXPL" }, { 0x001E0010, "AUDIO" }, { 0x001E0020, "ETM" }, { 0x001E0040, "DAR" }, { 0x001E0080, "MKS" }, { 0x001E0100, "MPM" }, { 0x001E0200, "LLS" }, { 0x001E0400, "ATP" }, { 0x001E0800, "ATPUART" }, { 0x001E2000, "MDC" }, { 0x001E4000, "TTY" }, { 0x001E8000, "DCM" }, { 0x00280001, "TEST" }, { 0x00280002, "TUT" }, { 0x00320001, "KIL" }, { 0x00320002, "KGC" }, { 0x00320004, "KCL" }, { 0x00320008, "KMM" }, { 0x00320010, "KNM" }, { 0x00320020, "UVM" }, { 0x00320040, "KZP" }, { 0x00320080, "KPG" }, { 0x00320100, "JTM" }, { 0x003C0001, "DEV1" }, { 0x003C0002, "DEV2" }, { 0x003C0003, "DEV3" }, { 0x00460001, "RNET" }, { 0x00460002, "RNET_WS" }, { 0x00460004, "RNET_RT" }, { 0x00460008, "RNET_BR" }, { 0x00640001, "MSME" }, { 0x00640002, "MSFE" }, { 0x00640004, "STKE" }, { 0x00640008, "BRSE" }, { 0x00640010, "BRAE" }, { 0x00640020, "PHSE" }, { 0x00640040, "IBSE" }, { 0x00640080, "MMSE" }, { 0x00640100, "SLSE" }, { 0x00640200, "SMAE" }, { 0x00640400, "MEAE" }, { 0x00640800, "SECE" }, { 0x00641000, "SELE" }, { 0x00642000, "PRSE" }, { 0x00644000, "JAAE" }, { 0x00648000, "JASE" }, { 0x006E0001, "IT1E" }, { 0x006E0002, "IT2E" }, { 0x006E0004, "IT0E" }, { 0x0, NULL} }; #endif /*==== EXTERNALS ==================================================*/ extern T_HANDLE TST_Handle; #ifndef _TOOLS_ extern const T_PCON_PROPERTIES *pcon; extern ULONG MaxPrimPartSize; extern const T_MEM_PROPERTIES *mem; #endif #ifdef CTB extern BOOL ctb_sent_to_tap; extern BOOL ctb_tick_enabled; #endif /*==== VARIABLES ==================================================*/ #ifndef RUN_INT_RAM char corruptWarning[] = "corrupt prim received: "; char wrongTSTWarning[] = "wrong (old) TST header used on toolside! "; T_TIF_DATA TIF_Data; static ULONG TIF_WrInd = 0; BOOL socket_flush = TRUE; #else extern T_TIF_DATA TIF_Data; extern BOOL socket_flush; #endif /* RUN_INT_RAM */ #ifdef _TOOLS_ char buffer[80]; const T_PCON_PROPERTIES pcon_export = { pcon_init_prim_coding, pcon_decodePrim, pcon_codePrim, pcon_make_filter, PCON_STACK_OFFSET }; T_PCON_PROPERTIES const *pcon = &pcon_export; #endif /*==== FUNCTIONS ==================================================*/ #ifndef RUN_INT_RAM USHORT TIF_Write ( void *Buffer, ULONG *BytesToWrite ); #endif #ifndef RUN_INT_RAM /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : TIF | | STATE : code ROUTINE : TIF_Exit | +--------------------------------------------------------------------+ PURPOSE : exit a driver */ LOCAL void TIF_Exit ( void ) { #ifdef _TOOLS_ ccddata_exit(); #endif /* _TOOLS_ */ } #endif #ifndef RUN_FLASH /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : TIF | | STATE : code ROUTINE : TIF_Write | +--------------------------------------------------------------------+ PURPOSE : write data to driver */ /* Lint is not able to analyze the program flow through if...else constructions and therefor bring a bunch of warnings.*/ /*lint -e645 suppress warning -- Symbol '...' may not have been initialized */ /*lint -e644 suppress warning -- Symbol '...' may not have been initialized */ /*lint -e613 suppress warning -- possibly use of NULL pointer '...' */ USHORT TIF_Write ( void *Buffer, ULONG *BytesToWrite ) { T_PRIM_HEADER *prim = (T_PRIM_HEADER*)Buffer; T_PRIM_HEADER *prim_ptr = NULL; TST_SMALL_HEADER *tst_header_ptr; T_S_HEADER *s_hdr; unsigned int bytes_to_write; unsigned int size; unsigned int name_len; unsigned int length; unsigned int org_rcv_len = 0; unsigned int opc_len = 0; unsigned int bytes_written = 0; unsigned int write_flag = 0; char *write_ptr; char *tst_data_ptr; char trace_opc=0; char Sender[RESOURCE_NAMELEN] = {0}; void *coded_prim; void *decoded_prim; int pcon_called = 0; int is_primitive = TRUE; int ret = DRV_OK; int sts; #ifdef _TOOLS_ int is_generated_primitive = FALSE; #endif /* _TOOLS_ */ s_hdr = (T_S_HEADER*)((ULONG*)prim + prim->sh_offset); if ( prim->opc & SYS_MASK ) { size = prim->len - sizeof(T_PRIM_HEADER); tst_data_ptr = (char*)P2D(prim); tst_header_ptr = (TST_SMALL_HEADER*) tst_data_ptr - 1; tst_header_ptr->combined[INFO_BYTE] = (~HDR_IDENT_MASK | IDENT_SYS_PRIM); InsertString(s_hdr->rcv, (char*)&tst_header_ptr->receiver, 4); is_primitive = FALSE; #ifdef _TOOLS_ if ( (length = GetNextToken (tst_data_ptr, buffer, " #")) > 0) { if ( !strcmp (buffer, FILTER) ) { void *filter_prim; if ( (pcon != NULL) && pcon->make_filter(tst_data_ptr+length+1, &filter_prim) == PCON_OK ) { prim = D2P(filter_prim); s_hdr = (T_S_HEADER*)((ULONG*)prim + prim->sh_offset); is_primitive = TRUE; is_generated_primitive = TRUE; } } } #endif } else if ( (SAP_NR(prim->opc)==TRACE_SAP) || (prim->opc==TRACE_OPC) ) { is_primitive = FALSE; size = prim->len - sizeof(T_PRIM_HEADER); tst_data_ptr = (char*)P2D(prim); if (prim->opc!=TRACE_OPC) { /* we have a traceclass id */ trace_opc=(char)PRIM_NR(prim->opc); } tst_header_ptr = (TST_SMALL_HEADER*) tst_data_ptr - 1; tst_header_ptr->combined[INFO_BYTE] = (~HDR_IDENT_MASK | IDENT_TRACE); InsertString(FRM_PCO_NAME, (char*)&tst_header_ptr->receiver, 4); } if ( is_primitive == TRUE ) { TST_BIG_HEADER tst_big_header; TST_BIG_HEADER *tst_big_header_ptr; #ifdef _TOOLS_ /* on the tool side the primitive to be duplicated is copied when sent to TST */ prim_ptr = prim; #else /* in the target a pointer to the primitive to be duplicated is transported in a carrier of type T_PRIM_X */ prim_ptr = (T_PRIM_HEADER*)((T_PRIM_X*)(prim))->prim_ptr; #endif size = prim_ptr->len - sizeof(T_PRIM_HEADER); tst_data_ptr = (char*)P2D(prim_ptr); tst_big_header_ptr = &tst_big_header; opc_len = 4; org_rcv_len = 4; if ( (pcon != NULL) && (TIF_Data.Config & PCON_ENABLED) && !(prim_ptr->opc & VIRTUAL_OPC) ) { decoded_prim = P2D(prim_ptr); if ( (sts = (int)(pcon->code_prim( prim_ptr->opc, decoded_prim, &coded_prim, (ULONG*)&size, 0, s_hdr->rcv ))) != PCON_OK ) { vsi_o_ttrace (NO_TASK, TC_SYSTEM,"PCON Code Error %d, TIF_Write() aborted", sts ); return DRV_INTERNAL_ERROR; } else { prim_ptr = D2P(coded_prim); tst_data_ptr = coded_prim; pcon_called = 1; } } EXCHANGE_4BYTES_ENDIANESS(&prim_ptr->opc); tst_big_header_ptr->opc = prim_ptr->opc; tst_big_header_ptr->combined[INFO_BYTE] = (~HDR_IDENT_MASK | IDENT_PS_PRIM); InsertString(s_hdr->rcv, (char*) &tst_big_header_ptr->receiver, 4); InsertString(s_hdr->org_rcv, (char*) &tst_big_header_ptr->orgreceiver, 4); socket_flush = TRUE; tst_header_ptr = (TST_SMALL_HEADER*) tst_big_header_ptr; } tst_header_ptr->combined[INFO_BYTE] = ((tst_header_ptr->combined[INFO_BYTE] & (~HDR_VERSION_MASK)) | HDR_VALID_VERSION_1); tst_header_ptr->combined[INFO_BYTE] = ((tst_header_ptr->combined[INFO_BYTE] & (~HDR_TIME_MASK)) | HDR_TIME_MS); tst_header_ptr->time = s_hdr->time; EXCHANGE_4BYTES_ENDIANESS(&tst_header_ptr->time); tst_header_ptr->sender[0] = 0; if ( s_hdr->snd[0] == 0 ) { if ( *tst_data_ptr == '~') { name_len = GetNextToken ((char*)(tst_data_ptr), Sender, "~"); InsertString(Sender, (char*) &tst_header_ptr->sender, 4); size -= 2+name_len; /* rub out a leading ~NAM~ in data field: */ memcpy ( tst_data_ptr, tst_data_ptr + 2 + name_len, size ); } else { InsertString(FRM_SYST_NAME, (char*)&tst_header_ptr->sender, 4); } } else { T_HANDLE TaskHandle; if ( s_hdr->snd[0] & ~HANDLE_MASK ) { TaskHandle = (T_HANDLE)(s_hdr->snd[0]&HANDLE_MASK); vsi_e_name ( TST_Handle, TaskHandle, Sender ); InsertString(Sender, (char*)&tst_header_ptr->sender, 4); } else { InsertString(s_hdr->snd, (char*)&tst_header_ptr->sender, 4); } } length = size + TST_HEADER_TRAILING_FIELDS + org_rcv_len + opc_len + (trace_opc ? 1 : 0); tst_header_ptr->combined[FIRST_BYTE] = (UBYTE) (LOW_MASK & length); tst_header_ptr->combined[SECOND_BYTE] = (UBYTE) (LOW_MASK & (length >> 8)); bytes_to_write = length + TST_HEADER_LEADING_FIELDS; write_ptr = (char*)&tst_header_ptr->combined[INFO_BYTE]; if (trace_opc) { /* move small header 1 byte to the left and insert trace class id */ char *trace_opc_ptr=tst_data_ptr-1; write_ptr = (char*)tst_header_ptr; memcpy(write_ptr,(char*)tst_header_ptr+1,sizeof(TST_SMALL_HEADER)-1); *trace_opc_ptr=trace_opc; length++; } else if ( prim_ptr != NULL ) { bytes_written = TST_BIG_HEADER_SIZE; if ( vsi_d_write ( TIF_Data.Handle, 0, write_ptr, bytes_written | PRIM_HEADER_FLAG ) != VSI_OK ) { ret = DRV_INTERNAL_ERROR; *BytesToWrite = 0; } write_ptr = tst_data_ptr; write_flag = PRIM_DATA_FLAG; } if (ret==DRV_OK) { #if defined (_TOOLS_) || defined (_LINUX_) || defined (_SOLARIS_) socket_flush = TRUE; /* flush socket always on tool side */ #endif if ( vsi_d_write ( TIF_Data.Handle, 0, write_ptr, (bytes_to_write - bytes_written) | write_flag ) != VSI_OK ) { ret = DRV_INTERNAL_ERROR; *BytesToWrite = 0; } } if ( pcon_called ) { PFREE(P2D((T_VOID_STRUCT*)prim_ptr)); } #ifdef _TOOLS_ if ( is_generated_primitive == TRUE ) { vsi_c_free ( TST_Handle, (T_VOID_STRUCT**)&prim ); } #else /* _TOOLS_ */ if (prim->opc & MEMHANDLE_OPC) { M_FREE(P_MEMHANDLE_SDU(((T_PRIM_X*)(prim))->prim_ptr)); } #endif /* _TOOLS_ */ #if defined _NUCLEUS_ && !defined _TARGET_ #ifdef CTB if(ctb_tick_enabled && !ctb_sent_to_tap && !strncmp(tst_header_ptr->receiver,"TAP",3)) { ctb_sent_to_tap = TRUE; } #endif #endif return ( (USHORT)ret ); } /*lint +e645 */ /*lint +e613 */ #endif #ifndef RUN_INT_RAM /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : TIF | | STATE : code ROUTINE : TIF_SetSignal | +--------------------------------------------------------------------+ PURPOSE : enable signal for the driver */ LOCAL USHORT TIF_SetSignal ( USHORT SignalType ) { if ( !(SignalType & ALLOWED_TIF_SIGNALS) ) return DRV_INVALID_PARAMS; else TIF_Data.EnabledSignalType |= SignalType; return DRV_OK; } #endif #ifndef RUN_INT_RAM /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : TIF | | STATE : code ROUTINE : TIF_ResetSignal | +--------------------------------------------------------------------+ PURPOSE : disable signal for the driver */ LOCAL USHORT TIF_ResetSignal ( USHORT SignalType ) { if ( !(SignalType & ALLOWED_TIF_SIGNALS) ) return DRV_INVALID_PARAMS; else TIF_Data.EnabledSignalType &= ~SignalType; return DRV_OK; } #endif #ifndef RUN_INT_RAM /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : TIF | | STATE : code ROUTINE : TIF_SetConfig | +--------------------------------------------------------------------+ PURPOSE : set configuration for the driver */ /*lint -esym(715,Buffer), suppress Info -- Symbol 'Buffer' not referenced) */ LOCAL USHORT TIF_SetConfig ( char *Buffer ) { if ( !strcmp ( TIF_PCON_ENABLE, Buffer ) ) { if ( TIF_Data.Config & PCON_ENABLED) { /* already in PCON mode */ return DRV_OK; } #ifdef _TOOLS_ switch (ccddata_init(NULL,0,NULL,NULL)) { case CCDDATA_DLL_OK: case CCDDATA_DLL_ALREADY: break; default: return DRV_INTERNAL_ERROR; } #endif TIF_Data.Config |= PCON_ENABLED; #ifdef _TOOLS_ printf("TIF: PCON mode selected\n"); #endif return DRV_OK; } else if ( !strcmp ( DRV_DEFAULT, Buffer ) ) { if ( !(TIF_Data.Config & PCON_ENABLED)) { /* already in default mode */ return DRV_OK; } #ifdef _TOOLS_ ccddata_exit(); #endif TIF_Data.Config &= ~PCON_ENABLED; #ifdef _TOOLS_ printf("TIF: default mode selected\n"); #endif return DRV_OK; } #ifdef _TOOLS_ else if ( !strcmp ( ENABLE_SYNC_MODE, Buffer ) ) { TIF_Data.Config |= SYNC_MODE; PrintToFile("TIF: sync mode enabled\n"); return DRV_OK; } else if ( !strcmp ( DISABLE_SYNC_MODE, Buffer ) ) { TIF_Data.Config &= ~SYNC_MODE; PrintToFile("TIF: sync mode disabled\n"); return DRV_OK; } return DRV_INVALID_PARAMS; #else return DRV_OK; #endif } #endif #ifndef RUN_INT_RAM /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : TIF | | STATE : code ROUTINE : Callback | +--------------------------------------------------------------------+ PURPOSE : callback function of the driver */ /* Lint is not able to analyze the program flow through if...else constructions and therefor bring a bunch of warnings.*/ /*lint -esym(645,opc_str) suppress warning -- Symbol 'opc_str' may not have been initialized */ LOCAL void TIF_Callback ( T_DRV_SIGNAL *Signal ) { T_PRIM_HEADER *prim; T_S_HEADER *s_hdr; T_PRIM_X *sys_prim; T_DRV_SIGNAL TIF_Signal; TST_BIG_HEADER tst_header; unsigned int CorruptByteOffset = 0; unsigned int length; unsigned int BytesToRead = 0; unsigned int BytesRead; unsigned int Bytes = 0; unsigned int i; unsigned int opc_len = 0; unsigned int org_rcv_len = 0; unsigned int alloc_size; int sts; int WrongTSTHeader = FALSE; char *target; void *decoded_prim; char opc_str[4]; #ifdef _TOOLS_ int l1_sigtype = 0; #endif switch ( Signal->SignalType ) { #ifdef _TOOLS_ case DRV_SIGTYPE_READ_L1: l1_sigtype = 1; /*lint -fallthrough*/ case DRV_SIGTYPE_READ_RIV: if ( vsi_d_read ( TIF_Data.Handle, 0, NULL, &BytesToRead ) != DRV_OK ) return; alloc_size = S_ALLOC_SIZE(BytesToRead + 1); if ( ( prim = (T_PRIM_HEADER*)vsi_c_new ( TST_Handle, alloc_size, 0 FILE_LINE_MACRO )) != NULL ) { TIF_WrInd = 0; Bytes = 0; BytesRead = BytesToRead; do { vsi_d_read ( TIF_Data.Handle, 0, (void*)((char*)P2D(prim)+TIF_WrInd), &BytesRead ); Bytes += BytesRead; if ( Bytes < BytesToRead ) { TIF_WrInd += BytesRead; BytesRead = BytesToRead - BytesRead; } } while ( Bytes < BytesToRead ); prim->sh_offset = S_HDR_OFFSET(alloc_size - sizeof(T_S_HEADER)); s_hdr = (T_S_HEADER*)((ULONG*)prim + prim->sh_offset); s_hdr->time = 0; s_hdr->org_rcv[0] = 0; if ( l1_sigtype == 1 ) { strcpy ( s_hdr->snd, "L1" ); } else { int i = 0; unsigned int use_id = 0; unsigned char *p = (unsigned char*)P2D(prim); use_id = use_id | *p++ << 24; use_id = use_id | *p++ << 16; use_id = use_id | *p++ << 8; use_id = use_id | *p; do { if ( riv_use_id_to_name[i].use_id == use_id ) { strcpy ( s_hdr->snd, riv_use_id_to_name[i].name ); break; } if ( riv_use_id_to_name[i+1].use_id == 0 ) strcpy ( s_hdr->snd, "RIV" ); } while ( riv_use_id_to_name[++i].use_id != 0 ); memcpy ( (char*)P2D(prim), (char*)P2D(prim)+5, BytesToRead); } strcpy ( s_hdr->rcv, FRM_PCO_NAME ); sys_prim = (T_PRIM_X*) vsi_c_new ( TST_Handle, alloc_size, 0 FILE_LINE_MACRO ); sys_prim->prim_ptr = prim; prim->opc = 0; prim->len = BytesToRead + sizeof(T_PRIM_HEADER); if ( TIF_Data.EnabledSignalType & DRV_SIGTYPE_READ ) { VSI_PPM_SEND ( (T_PRIM_HEADER*)sys_prim, TST_Handle ); VSI_PPM_SEND ( (T_PRIM_HEADER*)sys_prim->prim_ptr, TST_Handle ); TIF_Signal.SignalType = DRV_SIGTYPE_READ; TIF_Signal.DrvHandle = TIF_Data.Handle; TIF_Signal.UserData = (T_VOID_STRUCT*)sys_prim; (TIF_Data.Callback)( &TIF_Signal ); } } break; #endif case DRV_SIGTYPE_READ: /* * Get the size of the needed buffer to store the data */ if ( vsi_d_read ( TIF_Data.Handle, 0, NULL, (ULONG*)&BytesToRead ) != DRV_OK ) return; if ( BytesToRead ) { if ( BytesToRead >= TST_SMALL_HEADER_SIZE ) BytesToRead -= TST_SMALL_HEADER_SIZE; Bytes = 0; TIF_WrInd = 0; BytesRead = TST_SMALL_HEADER_SIZE; do { vsi_d_read ( TIF_Data.Handle, 0, (void*)((char*)&tst_header.combined[INFO_BYTE]+TIF_WrInd), (ULONG*)&BytesRead ); Bytes += BytesRead; if ( Bytes < TST_SMALL_HEADER_SIZE ) { TIF_WrInd += BytesRead; BytesRead = TST_SMALL_HEADER_SIZE - BytesRead; } } while ( Bytes < TST_SMALL_HEADER_SIZE ); alloc_size = ALIGN(sizeof(T_PRIM_X)); sys_prim = (T_PRIM_X*) vsi_c_new ( TST_Handle, alloc_size, 0 FILE_LINE_MACRO ); switch (tst_header.combined[INFO_BYTE] & HDR_IDENT_MASK) { case IDENT_ABORT: tst_header.combined[INFO_BYTE] = ((tst_header.combined[INFO_BYTE] & ~HDR_IDENT_MASK) | IDENT_TRACE); #ifdef _TOOLS_ /* TR did loose byte(s)! Primitive is corrupt, no header val can be guaranteed to be valid. Create a HUGE trace prim with zero time, sender tst, receiver pco, org_receiver tst TRACE DATA will contain: a "corrupt prim received: " string, the already received part of the prim and all the rest */ CorruptByteOffset = TST_SMALL_HEADER_SIZE + strlen(corruptWarning) + 1; #else /* TR did receive a prim from tool side old TST header format and swiched to new. Now we have to TRACE the wrong tool side format, because the prim is lost. */ WrongTSTHeader = TRUE; BytesToRead = 0; CorruptByteOffset = strlen(wrongTSTWarning) + 1; #endif break; case IDENT_PS_PRIM: opc_len = 4; org_rcv_len = 4; break; default: break; } if ( (BytesRead = org_rcv_len) > 0 ) { if ( BytesToRead >= org_rcv_len ) BytesToRead -= org_rcv_len; Bytes = 0; TIF_WrInd = 0; do { vsi_d_read ( TIF_Data.Handle, 0, (void*)((char*)&tst_header.orgreceiver+TIF_WrInd), (ULONG*)&BytesRead ); Bytes += BytesRead; if ( Bytes < org_rcv_len ) { TIF_WrInd += BytesRead; BytesRead = org_rcv_len - BytesRead; } } while ( Bytes < org_rcv_len ); } if ( (BytesRead = opc_len) > 0 ) { if ( BytesToRead >= opc_len ) BytesToRead -= opc_len; Bytes = 0; TIF_WrInd = 0; do { vsi_d_read ( TIF_Data.Handle, 0, (void*)(opc_str+TIF_WrInd), (ULONG*)&BytesRead ); Bytes += BytesRead; if ( Bytes < opc_len ) { TIF_WrInd += BytesRead; BytesRead = opc_len - BytesRead; } } while ( Bytes < opc_len ); } alloc_size = S_ALLOC_SIZE(CorruptByteOffset + BytesToRead + 1); #ifdef _TOOLS_ if ( alloc_size > MAX_PRIM_PARTITION_SIZE - sizeof(T_PRIM_HEADER) - sizeof(T_S_HEADER)) alloc_size = MAX_PRIM_PARTITION_SIZE - sizeof(T_PRIM_HEADER) - sizeof(T_S_HEADER); #else if ( alloc_size > MaxPrimPartSize - sizeof(T_PRIM_HEADER) - sizeof(T_S_HEADER) ) alloc_size = MaxPrimPartSize - sizeof(T_PRIM_HEADER) - sizeof(T_S_HEADER); #endif if ( ( prim = (T_PRIM_HEADER*)vsi_c_new ( TST_Handle, alloc_size, 0 FILE_LINE_MACRO )) != NULL ) { TIF_WrInd = 0; Bytes = 0; if ((BytesToRead + CorruptByteOffset) > alloc_size) { #ifdef _TOOLS_ PrintToFile("TIF: Reduced a new Prim's size\n"); #endif BytesToRead = alloc_size - CorruptByteOffset; } BytesRead = BytesToRead; target = (char*) P2D(prim); if (WrongTSTHeader) { memcpy(target, wrongTSTWarning, strlen(wrongTSTWarning)); target += strlen(wrongTSTWarning); } else if (CorruptByteOffset) { #ifdef _TOOLS_ PrintToFile("TIF: Byte(s) lost\n"); #endif memcpy(target, corruptWarning, strlen(corruptWarning)); target += strlen(corruptWarning); /*lint -e420, suppress Warning -- Apparent access beyond array for function 'memcpy(...*/ memcpy(target,&tst_header.combined[INFO_BYTE], TST_SMALL_HEADER_SIZE-1); /*lint +e420 */ target += TST_SMALL_HEADER_SIZE - 1; } if (WrongTSTHeader == FALSE && BytesToRead) { if ( (tst_header.combined[INFO_BYTE] & HDR_IDENT_MASK)==IDENT_TRACE ) { /* we read the first bytes in advance in case the trace class is carried */ ULONG bread=1; vsi_d_read ( TIF_Data.Handle, 0, (void*)((char*)target+TIF_WrInd), &bread ); if (bread==1 && *((char*)target)<0x20) /* no character -> assume traceclass id */ { opc_str[0]=*((char*)target); opc_len=1; BytesToRead -= bread; } else { /* ok, we have no traceclass info :-( */ TIF_WrInd += bread; Bytes += bread; } BytesRead = BytesToRead - Bytes; } do { vsi_d_read ( TIF_Data.Handle, 0, (void*)((char*)target+TIF_WrInd), (ULONG*)&BytesRead ); Bytes += BytesRead; if ( Bytes < BytesToRead ) { TIF_WrInd += BytesRead; BytesRead = BytesToRead - Bytes; } } while ( Bytes < BytesToRead ); } *((char*)target + Bytes) = 0; prim->sh_offset = S_HDR_OFFSET(alloc_size - sizeof(T_S_HEADER)); s_hdr = (T_S_HEADER*)((ULONG*)prim + prim->sh_offset); switch (tst_header.combined[INFO_BYTE] & HDR_IDENT_MASK) { case IDENT_PS_PRIM: EXCHANGE_4BYTES_ENDIANESS(opc_str); memcpy((char*)&prim->opc, opc_str, 4); if ( (pcon != NULL) && (TIF_Data.Config & PCON_ENABLED) ) { if ( (sts = (int)pcon->decode_prim ( prim->opc, &decoded_prim, (void*)((char*)prim+sizeof(T_PRIM_HEADER)), (ULONG*)&length, 0 )) != PCON_OK ) { if ( sts != PCON_CONFIG_PRIM ) { vsi_o_ttrace (NO_TASK, TC_SYSTEM,"PCON Deode Error %d, TIF_Callback() aborted", sts ); } PFREE(P2D(sys_prim)); PFREE(P2D(prim)); return; } PFREE(P2D((T_VOID_STRUCT*)prim)); sys_prim->prim_ptr = D2P(decoded_prim); } else { sys_prim->prim_ptr = prim; length = BytesToRead; } sys_prim->prim_ptr->sh_offset = S_HDR_OFFSET(length+sizeof(T_PRIM_HEADER)); sys_prim->prim_ptr->len = length + sizeof(T_PRIM_HEADER); s_hdr = (T_S_HEADER*)((ULONG*)sys_prim->prim_ptr + sys_prim->prim_ptr->sh_offset); #ifndef _TOOLS_ /* evtl. convert aux sdu to mem handle */ if (sys_prim->prim_ptr->opc & MEMHANDLE_OPC && mem!=NULL) { if (P_MEMHANDLE_SDU(sys_prim->prim_ptr)) { U32 mem_handle; U8 buffer_handle; U8 user_handle; U8 *user_data; T_sdu *sdu; U16 len; sdu=(T_sdu *)P_MEMHANDLE_SDU(sys_prim->prim_ptr); len=(sdu->l_buf + 7)/8; buffer_handle=mem->create_buffer(MEM_UNORDERED_BUFFER, len); user_handle = mem->create_user(buffer_handle, 23, "TST"); user_data=mem->alloc(user_handle,len,&mem_handle); memcpy(user_data,sdu->buf+(sdu->o_buf+7)/8,len); P_MEMHANDLE(sys_prim->prim_ptr)=mem_handle; mem->delete_user(user_handle); mem->delete_buffer(buffer_handle); } } #endif break; case IDENT_SYS_PRIM: sys_prim->prim_ptr = prim; prim->opc = SYS_MASK; prim->len = BytesToRead + sizeof(T_PRIM_HEADER); break; case IDENT_TRACE: sys_prim->prim_ptr = prim; if (opc_len) { /* nice, we found a traceclass info */ prim->opc = opc_str[0]; prim->opc = prim->opc << 16; prim->opc |= EXTENDED_OPC | VIRTUAL_OPC | TRACE_SAP; } else { prim->opc = TRACE_OPC; } prim->len = CorruptByteOffset + BytesToRead + sizeof(T_PRIM_HEADER); break; default: break; } /* * Extract Sender and Receiverfrom header */ if (CorruptByteOffset) { s_hdr->time = NULL; #ifndef _TOOLS_ memcpy ( s_hdr->snd, "~TST", 4 ); memcpy ( s_hdr->rcv, FRM_TST_NAME, 4 ); #else memcpy ( s_hdr->snd, FRM_TST_NAME, 4 ); memcpy ( s_hdr->rcv, FRM_PCO_NAME, 4 ); #endif memcpy ( s_hdr->org_rcv, "TST", 4 ); } else { s_hdr->time = tst_header.time; i = 0; do { s_hdr->snd[i] = tst_header.sender[i]; i++; } while ( tst_header.sender[i] != 0x20 && i < 4 ); s_hdr->snd[i] = 0; i = 0; do { s_hdr->rcv[i] = tst_header.receiver[i]; i++; } while ( tst_header.receiver[i] != 0x20 && i < 4 ); s_hdr->rcv[i] = 0; if (org_rcv_len) { i = 0; do { s_hdr->org_rcv[i] = tst_header.orgreceiver[i]; i++; } while ( tst_header.orgreceiver[i] != 0x20 && i < 4 ); s_hdr->org_rcv[i] = 0; } } if ( TIF_Data.EnabledSignalType & DRV_SIGTYPE_READ ) { VSI_PPM_SEND ( (T_PRIM_HEADER*)sys_prim, TST_Handle ); VSI_PPM_SEND ( (T_PRIM_HEADER*)sys_prim->prim_ptr, TST_Handle ); TIF_Signal.SignalType = DRV_SIGTYPE_READ; TIF_Signal.DrvHandle = TIF_Data.Handle; TIF_Signal.UserData = (T_VOID_STRUCT*)sys_prim; (TIF_Data.Callback)( &TIF_Signal ); } } } /* if ( BytesToRead ) */ break; case DRV_SIGTYPE_CONNECT: case DRV_SIGTYPE_DISCONNECT: if ( TIF_Data.EnabledSignalType & Signal->SignalType ) { TIF_Signal.SignalType = Signal->SignalType; TIF_Signal.DrvHandle = TIF_Data.Handle; TIF_Signal.UserData = NULL; (TIF_Data.Callback)( &TIF_Signal ); } break; default: break; } } #endif #ifndef RUN_INT_RAM /* +--------------------------------------------------------------------+ | PROJECT : GSM-Frame (8415) MODULE : TIF | | STATE : code ROUTINE : TIF_Init | +--------------------------------------------------------------------+ PURPOSE : initialize driver */ GLOBAL USHORT TIF_Init ( USHORT DrvHandle, T_DRV_CB_FUNC CallbackFunc, T_DRV_EXPORT const **DrvInfo ) { static const T_DRV_EXPORT TIF_Info = { TIF_NAME, 0, { #ifdef _TOOLS_ TIF_Init, #endif TIF_Exit, NULL, TIF_Write, NULL, NULL, NULL, TIF_SetSignal, TIF_ResetSignal, TIF_SetConfig, NULL, TIF_Callback, } }; #ifndef _TOOLS_ union { USHORT s; UBYTE b[2]; } test; #endif /* !_TOOLS_ */ TIF_Data.Handle = DrvHandle; TIF_Data.EnabledSignalType = 0; TIF_Data.Config = 0; TIF_Data.Callback = CallbackFunc; #ifdef _TOOLS_ switch (ccddata_init(NULL,0,NULL,NULL)) { case CCDDATA_DLL_OK: case CCDDATA_DLL_ALREADY: break; default: return DRV_INITFAILURE; } #else /* _TOOLS_ */ test.s = 1; if ( pcon != NULL ) { ULONG sts = pcon->init_prim_coding ( TST_Handle,(UBYTE)((test.b[0]==1) ? PCON_LITTLE : PCON_BIG)); #ifndef _TARGET_ vsi_pcheck_register (pcon->pcheck, PCON_OK); #endif /* !_TARGET_ */ } #endif /* !_TOOLS_ */ *DrvInfo = &TIF_Info; return DRV_OK; } #endif