FreeCalypso > hg > freecalypso-citrine
view gpf/tst_pei/tst_pei.c @ 46:38cf7fa65976
sprintf/float.c: rounding corner case bug
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Fri, 29 Sep 2017 03:23:01 +0000 |
parents | 75a11d740a02 |
children |
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/* +------------------------------------------------------------------------------ | File: tst_pei.c +------------------------------------------------------------------------------ | Copyright 2004 Texas Instruments Deutschland, 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 Deutschland, AG. +----------------------------------------------------------------------------- | Purpose : This Modul contains the PEI interface of TST +----------------------------------------------------------------------------- */ #ifndef __TST_PEI_C__ #define __TST_PEI_C__ #endif #define ENTITY_TST /*==== INCLUDES ===================================================*/ #include <string.h> #include <stdio.h> #include <stdlib.h> #include "gpfconf.h" #define _FF_RV_EXIST_ 1 #ifdef _TOOLS_ #include "frame_const.h" #include <stdlib.h> #endif /* _TOOLS_ */ #ifndef _TARGET_ #include "printtofile.h" #endif #include "typedefs.h" #include "vsi.h" #include "../frame/frame.h" #include "pei.h" #include "os.h" #include "tools.h" #include "gdi.h" #include "os.h" #include "frm_defs.h" #include "frm_types.h" #include "frm_glob.h" #include "../frame/route.h" #include "drvconf.h" #include "tstdriver.h" #include "tstheader.h" #include "tst_mux.h" #include "pcon.h" #ifdef CTB #include "tst_primitives.h" #endif #ifdef _PSOS_ #include "pna.h" #endif #ifdef _FF_RV_EXIST_ #include "../../services/ffs/ffs_api.h" #endif /*==== TYPES ======================================================*/ #undef VSI_CALLER #ifdef _TOOLS_ #define VSI_CALLER TST_Handle, #else #define VSI_CALLER e_running[os_MyHandle()], #endif /*==== CONSTANTS ==================================================*/ #ifdef _VXWORKS_ #define TST_STACKSIZE 8192 #define TST_PRIORITY 190 /* priority (1->high, 255->low) */ #else #ifdef _TOOLS_ #define TST_STACKSIZE 4096 #define TST_PRIORITY 15 #define TST_SND_PRIORITY 15 /* priority (1->low, 255->high) */ #define TST_RCV_PRIORITY 15 /* priority (1->low, 255->high) */ #else #define TST_STACKSIZE 1024 #define TST_PRIORITY 2 #define TST_SND_PRIORITY 6 /* priority (1->low, 255->high) */ #define TST_RCV_PRIORITY 7 /* priority (1->low, 255->high) */ #endif #endif #ifdef _TOOLS_ #define TST_TIMERS 2 #define GET_STACK_TIME_TIMER_INDEX 0 #define GET_STACK_TIME_TIMER_DURATION 60000 #define TST_SYNC_TIMER_INDEX 1 #define TST_SYNC_TIMER_DURATION 2000 #else #define TST_TIMERS 0 #endif #ifdef _FF_RV_EXIST_ #define TRACEMASKFILE "/var/dbg/tracemask" #endif #define DRV_CALLBACK_OPC 0 #ifdef _TOOLS_ #define TR_RCV_BUF_SIZE (MAX_PRIM_PARTITION_SIZE) #define TR_MAX_IND (TR_RCV_BUF_SIZE-1) USHORT MaxEntities = MAX_ENTITIES; #endif /* _TOOLS_ */ /*==== EXTERNALS ==================================================*/ #ifndef _TOOLS_ extern const T_PCON_PROPERTIES *pcon; extern const USHORT TST_SndQueueEntries; extern const USHORT TST_RcvQueueEntries; extern const USHORT TST_SndStacksize; extern const USHORT TST_RcvStacksize; extern UBYTE FrameEnv; #endif #ifdef _TOOLS_ __declspec (dllimport) UBYTE SuppressOK; #else extern char *str2ind_version; extern UBYTE SuppressOK; #endif #ifdef CTB static T_HANDLE hCommIDLE = VSI_ERROR; extern short idle_pei_create (T_PEI_INFO const ** info); #endif #ifdef _FF_RV_EXIST_ extern char TaskName[]; #endif /*==== VARIABLES ==================================================*/ #ifndef RUN_INT_RAM T_HANDLE TST_Handle; T_HANDLE RCV_Handle; T_HANDLE TIF_Handle; UBYTE TST_DrvState = TST_DRV_DISCONNECTED; static char const *ok_string = "OK"; static UBYTE frmenv; #ifdef _TOOLS_ ULONG TR_RcvBufferSize = TR_RCV_BUF_SIZE; ULONG TR_MaxInd = TR_MAX_IND; int tst_syncronized = 0; int tst_message_received = 0; int tst_sync_timeout_cnt = 0; int tst_max_sync_timeout = 0; int tst_sync_mode = 0; int tst_sync_sucess = 1; int tst_sync_started = 0; int tst_status_received = 0; T_HANDLE tst_sync_req_handle = VSI_ERROR; char sync_req_name[RESOURCE_NAMELEN]; char sync_req_time[16]; #endif /* _TOOLS_ */ GLOBAL USHORT tst_task_priority = TST_PRIORITY; GLOBAL ULONG tst_task_stack_size = TST_STACKSIZE; extern SHORT tst_pei_primitive (void *primitive); #endif /* RUN_INT_RAM */ #ifdef RUN_INT_RAM extern T_HANDLE TST_Handle; extern T_HANDLE RCV_Handle; extern T_HANDLE TIF_Handle; extern UBYTE TST_DrvState; #endif #ifdef CTB static char ctb_rcv[4]; static U32 ctb_remaining_tick_time=0; BOOL ctb_tick_enabled = FALSE; BOOL ctb_sent_to_tap = FALSE; T_HANDLE idle_handle; #endif /*==== FUNCTIONS ==================================================*/ #ifndef RUN_FLASH /* +--------------------------------------------------------------------+ | PROJECT : GSM-GPF (8415) MODULE : TST_PEI | | STATE : code ROUTINE : pei_primitive | +--------------------------------------------------------------------+ */ SHORT tst_pei_primitive (void *primitive) { T_PRIM_HEADER *prim = (T_PRIM_HEADER*)primitive; #ifndef _TOOLS_ T_VOID_STRUCT *prim_ptr = NULL; #endif SHORT ret = PEI_OK; #ifdef _TOOLS_ if ( ((SAP_NR(prim->opc)==TRACE_SAP) || (prim->opc==TRACE_OPC)) && (P_SHO(prim)!=0) ) { prim->opc = SYS_MASK; } #endif if ( (SAP_NR(prim->opc)!=TRACE_SAP) && (prim->opc!=TRACE_OPC) && !(prim->opc & SYS_MASK) ) { #ifndef _TOOLS_ prim_ptr = (T_VOID_STRUCT*)(((T_PRIM_X*)prim)->prim_ptr); #endif VSI_PPM_RCV(prim_ptr); PTRACE_OUT(prim->opc ); } if ( TST_DrvState == TST_DRV_CONNECTED ) { if ( vsi_d_write ( TST_Handle, TIF_Handle, primitive, prim->len ) != VSI_OK ) ret = PEI_ERROR; #ifdef _TOOLS_ vsi_t_sleep(TST_Handle,10); #endif } #ifndef _TOOLS_ if ( prim_ptr != NULL ) { FREE(P2D(prim_ptr)); } #endif vsi_trc_free (0, (T_VOID_STRUCT**)&prim); return ( ret ); } #endif #ifndef RUN_INT_RAM /* +--------------------------------------------------------------------+ | PROJECT : GSM-GPF (8415) MODULE : TST_PEI | | STATE : code ROUTINE : pei_init | +--------------------------------------------------------------------+ */ LOCAL SHORT pei_init ( T_HANDLE handle ) { #ifdef _TOOLS_ T_HANDLE h_pco; #endif #ifdef _FF_RV_EXIST_ T_HANDLE entityTraceMask; ULONG actual; T_FFS_FD fd; T_RV_RETURN retPath; BOOL gotAll = TRUE; #endif TST_Handle = handle; #ifdef _TOOLS_ while (vsi_c_open (0, FRM_RCV_NAME) < VSI_OK) { vsi_t_sleep(0,100); } frmenv = (UBYTE) pf_get_frameenv (); if ( os_OpenQueue (0, FRM_PCO_NAME, &h_pco) == OS_OK || os_create_extq (FRM_PCO_NAME, &h_pco) == OS_OK) { vsi_o_set_htrace (h_pco); #ifdef _DEBUG fprintf (stdout,"TST: %s commH set to %d\n", FRM_PCO_NAME,h_pco); #endif } vsi_t_start ( handle, GET_STACK_TIME_TIMER_INDEX, GET_STACK_TIME_TIMER_DURATION ); #else if ( vsi_c_open (TST_Handle, FRM_RCV_NAME) < VSI_OK ) return PEI_ERROR; RCV_Handle = vsi_e_handle ( TST_Handle, FRM_RCV_NAME ); frmenv = FrameEnv; #endif #ifndef _TARGET_ initPrintToFile(); #endif if ( vsi_d_init ( TST_Handle ) != VSI_OK ) { #ifndef _TARGET_ printf("SYSTEM ERROR: Driver initialization failed\n"); vsi_o_assert ( TST_Handle, OS_SYST_ERR, __FILE__, __LINE__, "SYSTEM ERROR: Testinterface driver initialization failed" ); #else ; #endif } TIF_Handle = vsi_d_open ( TST_Handle, (char*)TIF_NAME ); vsi_d_setsignal ( TST_Handle, 0, DRV_SIGTYPE_READ|DRV_SIGTYPE_CONNECT|DRV_SIGTYPE_DISCONNECT); vsi_d_setconfig ( TST_Handle, 0, NULL ); vsi_trcsuspend ( TST_Handle, TST_Handle, OS_NO_SUSPEND ); SuppressOK = FALSE; tst_mux_init(); #ifdef _FF_RV_EXIST_ fd = ffs_open(TRACEMASKFILE, FFS_O_RDONLY); if (fd < 0) { // could not open nor create /var/dbg/tracemask warning vsi_o_ttrace(NO_TASK, TC_SYSTEM, "pei_init: no trace mask in FFS"); } else { InitializeTrace(); TraceMask[0] = 0; TraceMask[0] |= TC_SYSTEM|TC_ERROR; for (entityTraceMask = 0; entityTraceMask < (MaxEntities + 1); entityTraceMask++) { actual = TraceMask[entityTraceMask]; if (ffs_read(fd, (void*)&TraceMask[entityTraceMask], sizeof(ULONG) ) != sizeof(ULONG) ) { gotAll = FALSE; } else { if (entityTraceMask == 0) // first element { TraceMask[0] = 0; TraceMask[0] |= TC_SYSTEM|TC_ERROR; } if (actual != TraceMask[entityTraceMask]) { // not the default trace mask, generate warning if ( vsi_e_name ( 0, entityTraceMask, TaskName ) == VSI_OK ) { vsi_o_ttrace(NO_TASK, TC_SYSTEM, "pei_init: FFS trace mask gave 0x%08x for %s (default 0x%08x)", TraceMask[entityTraceMask], TaskName, actual); } } } } } ffs_close(fd); if (!gotAll) { vsi_o_ttrace(NO_TASK, TC_SYSTEM, "pei_init: some trace masks can't be read from FFS"); } #endif return PEI_OK; } #endif #ifndef RUN_INT_RAM /* +--------------------------------------------------------------------+ | PROJECT : GSM-GPF (8415) MODULE : TST_PEI | | STATE : code ROUTINE : pei_exit | +--------------------------------------------------------------------+ */ static SHORT pei_exit (void) { #ifdef _TOOLS_ T_HANDLE rcvh=vsi_p_handle (0, FRM_RCV_NAME); if (rcvh > VSI_OK) { /* exit RCV process */ vsi_p_exit ( TST_Handle, vsi_p_handle (0, FRM_RCV_NAME)); } /* exit all drivers */ vsi_d_exit ( TST_Handle, 0); #endif /* _TOOLS_ */ return PEI_OK; } #endif #ifndef RUN_INT_RAM #ifdef _TOOLS_ /* +--------------------------------------------------------------------+ | PROJECT : GSM-GPF (8415) MODULE : TST_PEI | | STATE : code ROUTINE : pei_timeout | +--------------------------------------------------------------------+ */ LOCAL SHORT pei_timeout (USHORT index) { switch ( index ) { case GET_STACK_TIME_TIMER_INDEX: #if 0 if ( tst_message_received == 1 ) { tst_drv_write ( NO_TASK, SYS_MASK, FRM_TST_NAME, (char*)SYSPRIM_GET_STACK_TIME ); } vsi_t_start ( VSI_CALLER GET_STACK_TIME_TIMER_INDEX, GET_STACK_TIME_TIMER_DURATION ); #endif break; case TST_SYNC_TIMER_INDEX: if ( tst_sync_timeout_cnt++ >= tst_max_sync_timeout-1 ) { T_HANDLE tif_handle; T_VOID_STRUCT *ptr; tst_status_received = 0; tst_sync_timeout_cnt = 0; tst_sync_mode = 0; tst_sync_sucess = 0; tif_handle = vsi_d_open ( TST_Handle, (char*)TIF_NAME ); vsi_d_setconfig ( TST_Handle, tif_handle, DISABLE_SYNC_MODE ); vsi_t_stop ( TST_Handle, TST_SYNC_TIMER_INDEX ); ptr = vsi_c_pnew ( sizeof(T_PRIM_HEADER)+strlen(SYSPRIM_TST_SYNC_REJ), 0x8000 FILE_LINE ); strcpy ( (char*)ptr, SYSPRIM_TST_SYNC_REJ ); vsi_c_psend ( tst_sync_req_handle, ptr ); } else { if ( tst_syncronized == 0 ) { T_HANDLE tif_handle; tst_sync_sucess = 1; tst_status_received = 0; tif_handle = vsi_d_open ( TST_Handle, (char*)TIF_NAME ); vsi_d_setconfig ( TST_Handle, tif_handle, ENABLE_SYNC_MODE ); tst_drv_write ( NO_TASK, SYS_MASK, FRM_RCV_NAME, (char*)"TRACECLASS 0x10" ); vsi_t_sleep ( TST_Handle, 100 ); tst_drv_write ( NO_TASK, SYS_MASK, FRM_RCV_NAME, (char*)"STATUS TASK" ); vsi_t_start ( TST_Handle, TST_SYNC_TIMER_INDEX, TST_SYNC_TIMER_DURATION ); vsi_t_sleep ( TST_Handle, 200 ); tst_drv_write ( NO_TASK, SYS_MASK, FRM_RCV_NAME, (char*)"ROUTING" ); } } break; default: break; } return PEI_OK; } #endif #endif #ifndef RUN_INT_RAM /* +--------------------------------------------------------------------+ | PROJECT : GSM-GPF (8415) MODULE : TST_PEI | | STATE : code ROUTINE : pei_signal | +--------------------------------------------------------------------+ */ LOCAL SHORT pei_signal (ULONG SignalType, void *ptr) { /* * the following line of code causes a warning on tms470 compiler, that cannot be avoided * without changing the PEI interface. Warning will not cause a problem */ T_VOID_STRUCT *sig_ptr = (T_VOID_STRUCT*)ptr; T_PRIM_HEADER *prim; T_S_HEADER *s_hdr; T_HANDLE DestTaskHandle, DestComHandle; T_HANDLE min, max, i; unsigned int Length; ULONG Suspend, TraceMask, OldTraceMask; unsigned int Offset = 0; char token[81]; UBYTE FreePrim = 1; SHORT ret = PEI_OK; USHORT processed = FALSE; switch ( SignalType ) { case DRV_SIGTYPE_READ: VSI_PPM_RCV(sig_ptr); if ( (prim = ((T_PRIM_X*)sig_ptr)->prim_ptr) != NULL ) { VSI_PPM_RCV (prim); s_hdr = (T_S_HEADER*)((ULONG*)prim + prim->sh_offset); DestTaskHandle = vsi_e_handle ( TST_Handle, s_hdr->rcv ); if ( DestTaskHandle == VSI_ERROR ) { if ( !strcmp ( "IRQ", s_hdr->rcv ) ) { DestTaskHandle = 0; OldTraceMask = TC_SYSTEM; TraceMask = 0; } else { if ( !strcmp ( "SYST", s_hdr->rcv ) ) { DestTaskHandle = 0; vsi_gettracemask ( DestTaskHandle, 0, &OldTraceMask); TraceMask = TC_SYSTEM; } else { OldTraceMask = 0; TraceMask = 0; } } } else { /* to satisfy LINT */ OldTraceMask = 0; TraceMask = 0; } if ( DestTaskHandle != VSI_ERROR ) { if ( prim->opc & SYS_MASK ) { Length = GetNextToken ((char*)(P2D(prim)), token, " #"); Offset = Length+1; if ( frmenv == ENV_STACK ) { /* Set Traceclass for non-frame tasks/HISRs */ if ( DestTaskHandle == 0 && !strcmp (token, SYSPRIM_TRACECLASS_TOKEN) ) { Length = GetNextToken ((char *)(P2D(prim))+Offset, token, " #"); TraceMask = ASCIIToHex(token, CHARS_FOR_32BIT); vsi_settracemask ( DestTaskHandle, 0, TraceMask|OldTraceMask); /* it is not allowed to switch of system traces */ sprintf ( token, "%s (%s %s)", ok_string, (char*)(P2D(prim)), s_hdr->rcv ); tst_drv_write ( NO_TASK, 0, NULL, token ); processed = TRUE; } if (!strcmp (token, SYSPRIM_TRC_SUSPEND)) { processed = TRUE; /* * set suspend for traces to SUSPEND or NO_SUSPEND */ Length = GetNextToken ((char *)(P2D(prim))+Offset, token, " #"); Offset += (Length+1); if ( !strcmp ( token, "ALL" ) ) { min = 1; max = MaxEntities; GetNextToken ((char *)(P2D(prim))+Offset, token, " #"); } else { min = DestTaskHandle; max = min; } if ( !strcmp ( token, "YES" ) ) Suspend = 0xffffffff; else Suspend = 0; for ( i = min; i <= max; i++ ) vsi_trcsuspend ( TST_Handle, i, Suspend ); sprintf ( token, "%s (%s %s)", ok_string, (char*)(P2D(prim)), s_hdr->rcv ); tst_drv_write ( NO_TASK, 0, NULL, token ); } else if (!strcmp (token, SYSPRIM_MEMCHECK_TOKEN)) { processed = TRUE; /* * Memory Check */ for ( i = 1; i <= MaxEntities; i++ ) { if ( vsi_object_info (TST_Handle, OS_OBJTASK, (USHORT)i, token, sizeof(token)) != VSI_ERROR ) { tst_drv_write ( NO_TASK, 0, NULL, token ); } } } #ifdef CTB #ifndef _TOOLS_ else if (!strcmp (token, SYSPRIM_TIMER_TICK_REQ)) { processed = TRUE; ctb_sent_to_tap = FALSE; if(strlen(ctb_rcv)<3) { strcpy(ctb_rcv, P_SND(prim)); } ctb_remaining_tick_time = P_TIME(prim); //The time parameter is sent in the time stap. /*sprintf ( token, "Requesting ticking for %d from %s", ctb_remaining_tick_time, ctb_rcv); tst_drv_write ( NO_TASK, 0, NULL, token );*/ PSIGNAL(hCommIDLE, IDLE_REQ, NULL); } else if (!strcmp (token, SYSPRIM_INT_TICK_MODE_REQ)) { processed = TRUE; if(ctb_tick_enabled) { vsi_p_delete (TST_Handle,idle_handle); ctb_tick_enabled = FALSE; ctb_sent_to_tap = FALSE; sprintf ( token, "Disabling Common Timer Base"); ctb_rcv[0]='\0'; os_StartTicking(); } else sprintf ( token, "Common Timer Base already disabled"); tst_drv_write ( NO_TASK, 0, NULL, token ); if(!strcmp(P_SND(prim), "TAP")) { tst_drv_write ( NO_TASK, SYS_MASK, "TAP", "INT_TICK_MODE_CNF"); } } else if (!strcmp (token, SYSPRIM_EXT_TICK_MODE_REQ)) { processed = TRUE; if(!ctb_tick_enabled) { if ( (idle_handle = vsi_p_create (TST_Handle, idle_pei_create, NULL, 1)) == VSI_ERROR ) { vsi_o_assert ( TST_Handle, OS_SYST_ERR, __FILE__, __LINE__, "CTB: Cannot create IDLE task" ); } vsi_p_start (TST_Handle, idle_handle); while ( (hCommIDLE = vsi_e_handle ( TST_Handle, "IDLE" ))<VSI_OK) { vsi_t_sleep(0,1000); } os_StopTicking(); sprintf ( token, "Enabling Common Timer Base"); ctb_tick_enabled = TRUE; } else sprintf ( token, "Common Timer Base already enabled"); tst_drv_write ( NO_TASK, 0, NULL, token ); if(!strcmp(P_SND(prim), "TAP")) { char send_str[50]; char tmp_str[8]; //Get process id and put in this syst primitive. strcpy(send_str,"EXT_TICK_MODE_CNF#"); _itoa(os_GetProcessId(), tmp_str, 10); strcat(send_str, tmp_str); tst_drv_write ( NO_TASK, SYS_MASK, "TAP", send_str); } } #endif #endif //CTB #ifndef _TARGET_ else if (!strcmp (token, SYSPRIM_SUPPRESS_OK)) { processed = TRUE; SuppressOK = TRUE; } #endif else if (!strcmp (token, SYSPRIM_GET_STACK_TIME)) { processed = TRUE; tst_drv_write ( NO_TASK, SYS_MASK, FRM_TST_NAME, (char*)SYSPRIM_IS_STACK_TIME ); } else if (!strcmp (token, SYSPRIM_READ_ROUTING)) { processed = TRUE; i = 0; while ( rt_RouteRead ( DestTaskHandle, token ) != RT_ERROR ) { tst_drv_write ( NO_TASK, 0, NULL, token ); i++; } if ( !i ) { sprintf ( token, "NO %s ROUTINGS STORED", s_hdr->rcv ); tst_drv_write ( NO_TASK, 0, NULL, token ); } } #ifndef _TOOLS_ else if (!strcmp (token, SYSPRIM_STR2IND_VERSION)) { processed = TRUE; tst_drv_write ( NO_TASK, 0, NULL, str2ind_version ); } #endif } } } #ifdef _TOOLS_ else { /* synchronization with protocol stack */ if ( tst_sync_mode == 1 ) { char *pos; char task_status; T_VOID_STRUCT *cmd_ptr; pos = strstr ( (char*)(P2D(prim)), "Name:" ); if ( pos != NULL ) { tst_sync_started = 1; GetNextToken ((char *)(P2D(prim))+strlen("Name:"), token, " #"); if ( strcmp(token,FRM_RCV_NAME) && strcmp(token,FRM_TST_NAME) && strcmp(token,"EXTR") ) { pos = strstr ( (char*)(P2D(prim)), "Stat:" ); if ( pos != NULL ) { tst_status_received = 1; task_status = atoi(pos+strlen("Stat:")); if ( task_status != 6 ) { tst_sync_sucess = 0; } } } } else { if ( tst_sync_started == 1 ) { pos = strstr ( (char*)(P2D(prim)), "ROUTING" ); if ( pos != NULL ) { if ( tst_sync_sucess == 1 && tst_status_received == 1 ) { T_HANDLE tif_handle = vsi_d_open ( TST_Handle, (char*)TIF_NAME ); vsi_d_setconfig ( TST_Handle, tif_handle, DISABLE_SYNC_MODE ); vsi_t_stop ( TST_Handle, TST_SYNC_TIMER_INDEX ); cmd_ptr = vsi_c_pnew ( sizeof(T_PRIM_HEADER)+strlen(SYSPRIM_TST_SYNC_CNF), 0x8000 FILE_LINE ); strcpy ( (char*)cmd_ptr, SYSPRIM_TST_SYNC_CNF ); vsi_o_ttrace ( TST_Handle, TC_TIMER, "SYNC DONE") ; vsi_c_psend ( tst_sync_req_handle, cmd_ptr ); tst_sync_mode = 0; tst_sync_timeout_cnt = 0; tst_syncronized = 1; } } } } } } #endif /* _TOOLS_ */ if ( processed == FALSE ) { if ( ( DestComHandle = vsi_c_open ( TST_Handle, s_hdr->rcv ) ) != VSI_ERROR ) { /* free carrier */ PFREE(P2D(sig_ptr)); FreePrim = 0; vsi_c_psend (DestComHandle, (T_VOID_STRUCT*)P2D(prim) FILE_LINE_MACRO); } else { #ifndef _TOOLS_ if ( frmenv == ENV_STACK ) { sprintf ( token, "SYSTEM WARNING: Receiver Process '%s' unknown", s_hdr->rcv ); tst_drv_write ( NO_TASK, 0, NULL, token ); ret = PEI_ERROR; } #endif /* _TOOLS_ */ /* free dyn_ptr if unknown receiver */ FREE(P2D(prim)); } } else { /* free dyn_ptr if processed in TST */ FREE(P2D(prim)); } } if ( FreePrim ) { /* free carrier */ PFREE(P2D(sig_ptr)); } break; case DRV_SIGTYPE_CONNECT: TST_DrvState = TST_DRV_CONNECTED; #ifndef _TOOLS_ tst_drv_write ( NO_TASK, SYS_MASK, FRM_TST_NAME, (char*)SYSPRIM_IS_STACK_TIME ); tst_drv_write ( NO_TASK, 0, NULL, str2ind_version ); #endif break; case DRV_SIGTYPE_DISCONNECT: TST_DrvState = TST_DRV_DISCONNECTED; #ifdef _PSOS_ /* for pSOS: send empty message to TST */ if ( vsi_d_open ( TST_Handle, "SOCKET" ) != VSI_ERROR ) { T_QMSG Message; static T_HANDLE tst_handle = 0; if( TST_Handle > 0 ) { Message.MsgType = MSG_PRIMITIVE; Message.Msg.Primitive.Prim = NULL; Message.Msg.Primitive.PrimLen = 0; #ifdef MEMORY_SUPERVISION vsi_c_send (TST_Handle, TST_Handle, &Message, __FILE__, __LINE__); #else vsi_c_send (TST_Handle, TST_Handle, &Message); #endif } } #endif break; #ifdef CTB case IDLE_CNF: if(ctb_remaining_tick_time > 0 && ctb_tick_enabled && !ctb_sent_to_tap) { os_Tick(); PSIGNAL(hCommIDLE, IDLE_REQ, NULL); ctb_remaining_tick_time = ctb_remaining_tick_time-50; } else { /*sprintf ( token, "Ticking finished - remaining time %d", ctb_remaining_tick_time); tst_drv_write ( NO_TASK, 0, NULL, token );*/ if(!strcmp(ctb_rcv, "TAP")) tst_drv_write ( NO_TASK, SYS_MASK, FRM_TST_NAME, SYSPRIM_IS_STACK_TIME ); //Synchronize time with tools tst_drv_write ( NO_TASK, SYS_MASK, ctb_rcv, "TIMER_TICK_CNF"); } break; #endif default: sprintf ( token, "Unhandled PSIGNAL"); tst_drv_write ( NO_TASK, 0, NULL, token ); break; } return ( ret ); } #endif #ifndef RUN_INT_RAM /* +--------------------------------------------------------------------+ | PROJECT : GSM-GPF (8415) MODULE : TST_PEI | | STATE : code ROUTINE : pei_config | +--------------------------------------------------------------------+ */ LOCAL SHORT pei_config (char * inString) { T_HANDLE drv_handle; char token[80]; unsigned int length, offset; BOOL select = 0,config = 0; T_TST_DRV_ENTRY *tst_drv_info; length = GetNextToken (inString, token, " #"); offset = length+1; if ( !strcmp ( token, "DRIVER") ) { length = GetNextToken (inString+offset, token, " #"); offset += (length+1); if ( !strcmp ( token, "FLUSH") ) { vsi_d_flush ( TST_Handle, 0 ); } if ( !strcmp ( token, "SELECT") ) { select = 1; } if ( !strcmp ( token, "CONFIG") ) { config = 1; #ifdef _TOOLS_ tst_syncronized = 0; #endif } length = GetNextToken (inString+offset, token, " #"); offset += (length+1); if ( select ) { #ifdef _TOOLS_ if ( !strcmp(NODRV_NAME,token) ) { if ( tst_drv_open ( token, &tst_drv_info ) == VSI_ERROR || vsi_d_create ( TST_Handle, tst_drv_info ) == VSI_ERROR) { return PEI_ERROR; } PrintToFile("TST: all drivers unloaded\n"); } else #endif { /* check if driver is already loaded */ if ( (drv_handle = vsi_d_open ( TST_Handle, token )) == VSI_ERROR ) { if ( tst_drv_open ( token, &tst_drv_info ) == VSI_ERROR || vsi_d_create ( TST_Handle, tst_drv_info ) == VSI_ERROR ) { return PEI_ERROR; } } else { #ifdef _TOOLS_ #ifdef _DEBUG PrintToFile("TST: keeping %s loaded\n",token); #endif #endif vsi_d_close( TST_Handle, drv_handle ); } } } if ( config ) { if ( ( drv_handle = vsi_d_open ( TST_Handle, token ) ) == VSI_ERROR ) { return PEI_ERROR; } if (vsi_d_setconfig ( TST_Handle, drv_handle, inString+offset) != VSI_OK) { #ifdef _TOOLS_ char text[99]; _snprintf(text,98,"TST: Error configuring driver %s with \"%s\" :-(",token, inString+offset); vsi_o_ttrace(NO_TASK, TC_SYSTEM, text); #endif /* _TOOLS_ */ } vsi_d_close( TST_Handle, drv_handle ); } } else if ( !strcmp ( token, "THIF") ) { T_HANDLE tif_handle; tif_handle = vsi_d_open ( TST_Handle, (char*)TIF_NAME ); length = GetNextToken (inString+offset, token, " #"); offset += (length+1); if ( !strcmp ( token, "OPEN") ) { vsi_d_setconfig ( TST_Handle, tif_handle, token ); } else if ( !strcmp ( token, "CLOSE") ) { vsi_d_setconfig ( TST_Handle, tif_handle, token ); } } #ifdef _TOOLS_ else if ( !strcmp ( token, SYSPRIM_TST_SYNC_REQ) ) { T_HANDLE tif_handle; unsigned int len; len = GetNextToken (inString+offset, sync_req_name, " #"); offset += len; len = GetNextToken (inString+offset, sync_req_time, " #"); tst_max_sync_timeout = (atoi(sync_req_time) - 1000)/TST_SYNC_TIMER_DURATION; tst_sync_req_handle = vsi_c_open ( TST_Handle, sync_req_name ); if ( tst_sync_req_handle != VSI_ERROR ) { if ( tst_syncronized == 0 ) { tst_sync_started = 0; tst_status_received = 0; tst_sync_mode = 1; tst_sync_sucess = 1; tif_handle = vsi_d_open ( TST_Handle, (char*)TIF_NAME ); vsi_d_setconfig ( TST_Handle, tif_handle, ENABLE_SYNC_MODE ); tst_drv_write ( NO_TASK, SYS_MASK, FRM_RCV_NAME, (char*)"TRACECLASS 0x10" ); vsi_t_sleep ( TST_Handle, 100 ); tst_drv_write ( NO_TASK, SYS_MASK, FRM_RCV_NAME, (char*)"STATUS TASK" ); vsi_t_start ( TST_Handle, TST_SYNC_TIMER_INDEX, TST_SYNC_TIMER_DURATION ); vsi_t_sleep ( TST_Handle, 200 ); tst_drv_write ( NO_TASK, SYS_MASK, FRM_RCV_NAME, (char*)"ROUTING" ); } } } #endif #ifdef _FF_RV_EXIST_ else if ( !strcmp ( token, "TRACEMASK_IN_FFS") ) { int amount; T_FFS_FD fd; T_FFS_RET ret; T_FFS_SIZE written; T_FFS_DIR dir; BOOL writeFailed = FALSE; if (vsi_e_handle ( TST_Handle, FRM_RCV_NAME ) == e_running[os_MyHandle()]) // config prim processing only allowed in RCV, not TST! { fd = ffs_open(TRACEMASKFILE, FFS_O_RDWR | FFS_O_CREATE | FFS_O_TRUNC); if (fd < 0) { // could not open nor create /var/dbg/tracemask warning vsi_o_ttrace(NO_TASK, TC_SYSTEM, "pei_config: could not open/create FFS trace mask, reason is 0x%x", fd); } else { TraceMask[0] = 0; TraceMask[0] |= TC_SYSTEM|TC_ERROR; amount = sizeof(ULONG) * (MaxEntities + 1); written = ffs_write(fd, (void*)&TraceMask[0], amount); if (written != amount) { if (written >= 0) { amount -= written; vsi_o_ttrace(NO_TASK, TC_SYSTEM, "pei_config: writing to FFS, second try"); written = ffs_write(fd, (void*)&TraceMask[0], amount); if (written != amount) { writeFailed = TRUE; } } else { writeFailed = TRUE; } } if (writeFailed) { vsi_o_ttrace(NO_TASK, TC_SYSTEM, "pei_config: ffs_write to FFS failed with 0x%x, did open with", written, fd); } else { if (ffs_fdatasync(fd) == EFFS_OK) { vsi_o_ttrace(NO_TASK, TC_SYSTEM, "pei_config: successfully written trace mask to FFS"); } else { vsi_o_ttrace(NO_TASK, TC_SYSTEM, "pei_config: flushing FFS trace mask failed!"); } } ffs_close(fd); } } } else if ( !strcmp ( token, "NO_TRACEMASK_IN_FFS") ) { T_FFS_RET ret; InitializeTrace(); TraceMask[0] = 0; TraceMask[0] |= TC_SYSTEM|TC_ERROR; if (vsi_e_handle ( TST_Handle, FRM_RCV_NAME ) == e_running[os_MyHandle()]) // config prim processing only allowed in RCV, not TST! { ret = ffs_remove(TRACEMASKFILE); if (ret != EFFS_OK) { vsi_o_ttrace(NO_TASK, TC_SYSTEM, "pei_config: failed to remove FFS trace mask, reason is 0x%x", ret); } else { vsi_o_ttrace(NO_TASK, TC_SYSTEM, "pei_config: successfully removed FFS trace mask"); } } } #endif return PEI_OK; } #endif #ifndef RUN_INT_RAM GLOBAL SHORT tstsnd_pei_create ( T_PEI_INFO ** info) { static T_PEI_INFO data = { "TST", { pei_init, pei_exit, tst_pei_primitive, #ifdef _TOOLS_ pei_timeout, #else NULL, #endif NULL, NULL, pei_config, NULL }, TST_STACKSIZE, 0, TST_SND_PRIORITY, TST_TIMERS, (PASSIVE_BODY|COPY_BY_REF|SYSTEM_PROCESS|TRC_NO_SUSPEND) }; #ifdef _TOOLS_ data.QueueEntries = TST_QUEUE_ENTRIES; #else data.QueueEntries = TST_SndQueueEntries; /* * This way of setting the TST and RCV stacksize is chosen to keep it backwardscompatible, * i.e. not change the behavior if the stacksizes are not define in the configuration * file xxxconst.h. */ if ( TST_SndStacksize > 0 ) { data.StackSize = TST_SndStacksize; } if ( pcon != NULL ) { data.StackSize += pcon->stack_offset; } #endif *info = &data; return PEI_OK; } #endif #ifndef RUN_INT_RAM GLOBAL SHORT tstrcv_pei_create ( T_PEI_INFO ** info) { static T_PEI_INFO data = { "RCV", { NULL, NULL, NULL, NULL, pei_signal, NULL, pei_config, NULL }, TST_STACKSIZE, 0, TST_RCV_PRIORITY, TST_TIMERS, (PASSIVE_BODY|COPY_BY_REF|SYSTEM_PROCESS|TRC_NO_SUSPEND) }; #ifdef _TOOLS_ data.QueueEntries = TST_QUEUE_ENTRIES; #else data.QueueEntries = TST_RcvQueueEntries; /* * This way of setting the TST and RCV stacksize is chosen to keep it backwardscompatible, * i.e. not change the behavior if the stacksizes are not define in the configuration * file xxxconst.h. */ if ( TST_RcvStacksize > 0 ) { data.StackSize = TST_RcvStacksize; } if ( pcon != NULL ) { data.StackSize += pcon->stack_offset; } #endif *info = &data; return PEI_OK; } #endif