/* * Interp.c * * Execute the compiled version of a script * */ /* Control the execution trace printf's */ #define DEBUG_GROUP0 #include "lib/framework/frame.h" #include "interp.h" #include "stack.h" #include "codeprint.h" #include "script.h" #include "event.h" //needed for eventGetEventID() // the maximum number of instructions to execute before assuming // an infinite loop #define INTERP_MAXINSTRUCTIONS 100000 typedef struct { UDWORD CallerIndex; UDWORD *ReturnAddress; } ReturnAddressStack_t; /** * Reset the return address stack */ static inline void retStackReset(void); /** * Check whether the return address stack is empty * * \return True when empty, false otherwise */ static inline BOOL retStackIsEmpty(void); /** * Check whether the return address stack is full * * \return True when full, false otherwise */ static inline BOOL retStackIsFull(void); /** * Push a new address/event pair on the return address stack * * \param CallerIndex Index of the calling function * \param ReturnAddress Address to return to * \return False on failure (stack full) */ static BOOL retStackPush(UDWORD CallerIndex, UDWORD *ReturnAddress); /** * Pop an address/event pair from the return address stack * * \param CallerIndex Index of the calling function * \param ReturnAddress Address to return to * \return False on failure (stack empty) */ static BOOL retStackPop(UDWORD *CallerIndex, UDWORD **ReturnAddress); /* The size of each opcode */ SDWORD aOpSize[] = { 2, // OP_PUSH | type, value 2, // OP_PUSHREF | type, value 1, // OP_POP 1, // OP_PUSHGLOBAL | var_num 1, // OP_POPGLOBAL | var_num 1, // OP_PUSHARRAYGLOBAL | array_dimensions | array_base 1, // OP_POPARRAYGLOBAL | array_dimensions | array_base 2, // OP_CALL | func_pointer 2, // OP_VARCALL | func_pointer 1, // OP_JUMP | offset 1, // OP_JUMPTRUE | offset 1, // OP_JUMPFALSE | offset 1, // OP_BINARYOP | secondary op 1, // OP_UNARYOP | secondary op 1, // OP_EXIT 1, // OP_PAUSE -1, // OP_ADD -1, // OP_SUB -1, // OP_MUL -1, // OP_DIV -1, // OP_NEG -1, // OP_AND -1, // OP_OR -1, // OP_NOT -1, // OP_CANC -1, // OP_EQUAL -1, // OP_NOTEQUAL -1, // OP_GREATEREQUAL -1, // OP_LESSEQUAL -1, // OP_GREATER -1, // OP_LESS 2, // OP_FUNC | func_pointer 1, // OP_POPLOCAL 1, // OP_PUSHLOCAL 2, // OP_PUSHLOCALREF }; /* The type equivalence table */ static TYPE_EQUIV *asInterpTypeEquiv; // whether the interpreter is running static BOOL bInterpRunning = FALSE; /* Whether to output trace information */ BOOL interpTrace; /* Print out trace info if tracing is turned on */ #define TRCPRINTF(x) \ if (interpTrace) \ debug( LOG_NEVER, (#x)) #define TRCPRINTVAL(x) \ if (interpTrace) \ cpPrintVal(x) #define TRCPRINTMATHSOP(x) \ if (interpTrace) \ cpPrintMathsOp(x) #define TRCPRINTSTACKTOP() \ if (interpTrace) \ stackPrintTop() #define TRCPRINTFUNC(x) \ if (interpTrace) \ cpPrintFunc(x) #define TRCPRINTVARFUNC(x, data) \ if (interpTrace) \ cpPrintVarFunc(x, data) // TRUE if the interpreter is currently running BOOL interpProcessorActive(void) { return bInterpRunning; } /* Find the value store for a global variable */ static inline INTERP_VAL *interpGetVarData(VAL_CHUNK *psGlobals, UDWORD index) { VAL_CHUNK *psChunk; psChunk = psGlobals; while (index >= CONTEXT_VALS) { index -= CONTEXT_VALS; psChunk = psChunk->psNext; } return psChunk->asVals + index; } // get the array data for an array operation static BOOL interpGetArrayVarData(UDWORD **pip, VAL_CHUNK *psGlobals, SCRIPT_CODE *psProg, INTERP_VAL **ppsVal) { SDWORD i, dimensions, vals[VAR_MAX_DIMENSIONS]; UBYTE *elements; //[VAR_MAX_DIMENSIONS] SDWORD size, val;//, elementDWords; // UBYTE *pElem; UDWORD *InstrPointer = *pip; UDWORD base, index; // get the base index of the array base = (*InstrPointer) & ARRAY_BASE_MASK; // get the number of dimensions dimensions = ((*InstrPointer) & ARRAY_DIMENSION_MASK) >> ARRAY_DIMENSION_SHIFT; if (base >= psProg->numArrays) { ASSERT( FALSE, "interpGetArrayVarData: array base index out of range" ); return FALSE; } if (dimensions != psProg->psArrayInfo[base].dimensions) { ASSERT( FALSE, "interpGetArrayVarData: dimensions do not match" ); return FALSE; } // get the number of elements for each dimension elements = psProg->psArrayInfo[base].elements; /* pElem = (UBYTE *) (ip + 1); for(i=0; i=0; i-=1) { if (!stackPopParams(1, VAL_INT, &val)) { return FALSE; } if ( (val < 0) || (val >= elements[i]) ) { ASSERT( FALSE, "interpGetArrayVarData: Array index for dimension %d out of range (passed index = %d, max index = %d)", i , val, elements[i]); return FALSE; } index += val * size; size *= psProg->psArrayInfo[base].elements[i]; vals[i] = val; } // print out the debug trace if (interpTrace) { debug( LOG_NEVER, "%d->", base ); for(i=0; i psProg->arraySize) { ASSERT( FALSE, "interpGetArrayVarData: Array indexes out of variable space" ); return FALSE; } // get the variable data *ppsVal = interpGetVarData(psGlobals, psProg->psArrayInfo[base].base + index); // calculate the number of DWORDs needed to store the number of elements for each dimension of the array // elementDWords = (dimensions - 1)/4 + 1; // update the insrtuction pointer *pip += 1;// + elementDWords; return TRUE; } // Initialise the interpreter BOOL interpInitialise(void) { asInterpTypeEquiv = NULL; return TRUE; } /* Run a compiled script */ BOOL interpRunScript(SCRIPT_CONTEXT *psContext, INTERP_RUNTYPE runType, UDWORD index, UDWORD offset) { UDWORD *InstrPointer, opcode, data; INTERP_VAL sVal, *psVar; VAL_CHUNK *psGlobals; UDWORD numGlobals; UDWORD *pCodeStart, *pCodeEnd, *pCodeBase; SCRIPT_FUNC scriptFunc; SCRIPT_VARFUNC scriptVarFunc; SCRIPT_CODE *psProg; // SDWORD arrayIndex, dimensions, arrayElements[VAR_MAX_DIMENSIONS]; SDWORD instructionCount = 0; UDWORD CurEvent; BOOL bStop,bEvent; SDWORD callDepth; const STRING *pTrigLab, *pEventLab; //debug(LOG_SCRIPT, "interpRunScript 1"); ASSERT( PTRVALID(psContext, sizeof(SCRIPT_CONTEXT)), "interpRunScript: invalid context pointer" ); psProg=psContext->psCode; ASSERT( PTRVALID(psProg, sizeof(SCRIPT_CODE)), "interpRunScript: invalid script code pointer" ); if (bInterpRunning) { debug(LOG_ERROR,"interpRunScript: interpreter already running" " - callback being called from within a script function?"); ASSERT( FALSE, "interpRunScript: interpreter already running" " - callback being called from within a script function?" ); goto exit_with_error; } // note that the interpreter is running to stop recursive script calls bInterpRunning = TRUE; // Reset the stack in case another script messed up stackReset(); //reset return stack retStackReset(); // Turn off tracing initially interpTrace = FALSE; /* Get the global variables */ numGlobals = psProg->numGlobals; psGlobals = psContext->psGlobals; bEvent = FALSE; // Find the code range switch (runType) { case IRT_TRIGGER: if (index > psProg->numTriggers) { debug(LOG_ERROR,"interpRunScript: trigger index out of range"); ASSERT( FALSE, "interpRunScript: trigger index out of range" ); return FALSE; } pCodeBase = psProg->pCode + psProg->pTriggerTab[index]; pCodeStart = pCodeBase; pCodeEnd = psProg->pCode + psProg->pTriggerTab[index+1]; break; case IRT_EVENT: if (index > psProg->numEvents) { debug(LOG_ERROR,"interpRunScript: trigger index out of range"); ASSERT( FALSE, "interpRunScript: trigger index out of range" ); return FALSE; } pCodeBase = psProg->pCode + psProg->pEventTab[index]; pCodeStart = pCodeBase + offset; //offset only used for pause() script function pCodeEnd = psProg->pCode + psProg->pEventTab[index+1]; bEvent = TRUE; //remember it's an event break; default: debug(LOG_ERROR,"interpRunScript: unknown run type"); ASSERT( FALSE, "interpRunScript: unknown run type" ); return FALSE; } // Get the first opcode InstrPointer = pCodeStart; opcode = (*InstrPointer) >> OPCODE_SHIFT; instructionCount = 0; CurEvent = index; bStop = FALSE; //debug(LOG_SCRIPT, "interpRunScript 2"); while(!bStop) { // Run the code if (InstrPointer < pCodeEnd)// && opcode != OP_EXIT) { if (instructionCount > INTERP_MAXINSTRUCTIONS) { debug( LOG_ERROR, "interpRunScript: max instruction count exceeded - infinite loop ?" ); ASSERT( FALSE, "interpRunScript: max instruction count exceeded - infinite loop ?" ); goto exit_with_error; } instructionCount += 1; TRCPRINTF(("%-6d ", InstrPointer - psProg->pCode)); opcode = (*InstrPointer) >> OPCODE_SHIFT; data = (*InstrPointer) & OPCODE_DATAMASK; switch (opcode) { /* Custom function call */ case OP_FUNC: //debug( LOG_SCRIPT, "-OP_FUNC" ); //debug( LOG_SCRIPT, "OP_FUNC: remember event %d, ip=%d", CurEvent, (ip + 2) ); if(!retStackPush(CurEvent, (InstrPointer + aOpSize[opcode]))) //Remember where to jump back later { debug( LOG_ERROR, "interpRunScript() - retStackPush() failed."); return FALSE; } CurEvent = *(InstrPointer+1); //Current event = event to jump to if (CurEvent > psProg->numEvents) { debug( LOG_ERROR, "interpRunScript: trigger index out of range"); return FALSE; } //Set new code execution boundries //---------------------------------- pCodeBase = psProg->pCode + psProg->pEventTab[CurEvent]; pCodeStart = pCodeBase; pCodeEnd = psProg->pCode + psProg->pEventTab[CurEvent+1]; InstrPointer = pCodeStart; //Start at the beginning of the new event //debug( LOG_SCRIPT, "-OP_FUNC: jumped to event %d; ip=%d, numLocalVars: %d", CurEvent, ip, psContext->psCode->numLocalVars[CurEvent] ); //debug( LOG_SCRIPT, "-END OP_FUNC" ); break; //handle local variables case OP_PUSHLOCAL: //debug( LOG_SCRIPT, "OP_PUSHLOCAL"); //debug( LOG_SCRIPT, "OP_PUSHLOCAL, (CurEvent=%d, data =%d) num loc vars: %d; pushing: %d", CurEvent, data, psContext->psCode->numLocalVars[CurEvent], psContext->psCode->ppsLocalVarVal[CurEvent][data].v.ival); if (data >= psContext->psCode->numLocalVars[CurEvent]) { debug(LOG_ERROR, "interpRunScript: OP_PUSHLOCAL: variable index out of range"); ASSERT( FALSE, "interpRunScript: OP_PUSHLOCAL: variable index out of range" ); goto exit_with_error; } //debug( LOG_SCRIPT, "OP_PUSHLOCAL 2"); //debug(LOG_SCRIPT, "OP_PUSHLOCAL type: %d", psContext->psCode->ppsLocalVarVal[CurEvent][data].type); if (!stackPush( &(psContext->psCode->ppsLocalVarVal[CurEvent][data]) )) { debug(LOG_ERROR, "interpRunScript: OP_PUSHLOCAL: push failed"); goto exit_with_error; } //debug( LOG_SCRIPT, "OP_PUSHLOCAL 3"); InstrPointer += aOpSize[opcode]; break; case OP_POPLOCAL: //debug( LOG_SCRIPT, "OP_POPLOCAL, event index: '%d', data: '%d'", CurEvent, data); //debug( LOG_SCRIPT, "OP_POPLOCAL, numLocalVars: '%d'", psContext->psCode->numLocalVars[CurEvent]); if (data >= psContext->psCode->numLocalVars[CurEvent]) { debug(LOG_ERROR, "interpRunScript: OP_POPLOCAL: variable index out of range"); ASSERT( FALSE, "interpRunScript: variable index out of range" ); goto exit_with_error; } //debug( LOG_SCRIPT, "OP_POPLOCAL 2"); //DbgMsg("OP_POPLOCAL type: %d, CurEvent=%d, data=%d", psContext->psCode->ppsLocalVarVal[CurEvent][data].type, CurEvent, data); if (!stackPopType( &(psContext->psCode->ppsLocalVarVal[CurEvent][data]) )) { debug(LOG_ERROR, "interpRunScript: OP_POPLOCAL: pop failed"); goto exit_with_error; } //debug(LOG_SCRIPT, "OP_POPLOCAL: type=%d, val=%d", psContext->psCode->ppsLocalVarVal[CurEvent][data].type, psContext->psCode->ppsLocalVarVal[CurEvent][data].v.ival); //debug( LOG_SCRIPT, "OP_POPLOCAL 3"); InstrPointer += aOpSize[opcode]; break; case OP_PUSHLOCALREF: // The type of the variable is stored in with the opcode sVal.type = (INTERP_TYPE)((*InstrPointer) & OPCODE_DATAMASK); /* get local var index */ data = *(InstrPointer + 1); if (data >= psContext->psCode->numLocalVars[CurEvent]) { debug(LOG_ERROR, "interpRunScript: OP_PUSHLOCALREF: variable index out of range"); ASSERT( FALSE, "interpRunScript: OP_PUSHLOCALREF: variable index out of range" ); goto exit_with_error; } /* get local variable */ psVar = &(psContext->psCode->ppsLocalVarVal[CurEvent][data]); sVal.v.oval = &(psVar->v.ival); TRCPRINTF(("PUSHREF ")); TRCPRINTVAL(&sVal); TRCPRINTF(("\n")); if (!stackPush(&sVal)) { debug(LOG_ERROR, "interpRunScript: OP_PUSHLOCALREF: push failed"); goto exit_with_error; } InstrPointer += aOpSize[opcode]; break; case OP_PUSH: // The type of the value is stored in with the opcode sVal.type = (INTERP_TYPE)((*InstrPointer) & OPCODE_DATAMASK); // Copy the data as a DWORD sVal.v.ival = (SDWORD)(*(InstrPointer+1)); TRCPRINTF(("PUSH ")); TRCPRINTVAL(&sVal); TRCPRINTF(("\n")); if (!stackPush(&sVal)) { // Eeerk, out of memory debug( LOG_ERROR, "interpRunScript: out of memory!" ); ASSERT( FALSE, "interpRunScript: out of memory!" ); goto exit_with_error; } InstrPointer += aOpSize[opcode]; break; case OP_PUSHREF: // The type of the variable is stored in with the opcode sVal.type = (INTERP_TYPE)((*InstrPointer) & OPCODE_DATAMASK); // store the pointer psVar = interpGetVarData(psGlobals, *(InstrPointer + 1)); sVal.v.oval = &(psVar->v.ival); TRCPRINTF(("PUSHREF ")); TRCPRINTVAL(&sVal); TRCPRINTF(("\n")); if (!stackPush(&sVal)) { // Eeerk, out of memory debug( LOG_ERROR, "interpRunScript: out of memory!" ); ASSERT( FALSE, "interpRunScript: out of memory!" ); goto exit_with_error; } InstrPointer += aOpSize[opcode]; break; case OP_POP: TRCPRINTF(("POP\n")); if (!stackPop(&sVal)) { debug( LOG_ERROR, "interpRunScript: could not do stack pop" ); ASSERT( FALSE, "interpRunScript: could not do stack pop" ); goto exit_with_error; } InstrPointer += aOpSize[opcode]; break; case OP_BINARYOP: TRCPRINTMATHSOP(data); if (!stackBinaryOp((OPCODE)data)) { debug( LOG_ERROR, "interpRunScript: could not do binary op" ); ASSERT( FALSE, "interpRunScript: could not do binary op" ); goto exit_with_error; } TRCPRINTSTACKTOP(); TRCPRINTF(("\n")); InstrPointer += aOpSize[opcode]; break; case OP_UNARYOP: TRCPRINTMATHSOP(data); if (!stackUnaryOp((OPCODE)data)) { debug( LOG_ERROR, "interpRunScript: could not do unary op" ); ASSERT( FALSE, "interpRunScript: could not do unary op" ); goto exit_with_error; } TRCPRINTSTACKTOP(); TRCPRINTF(("\n")); InstrPointer += aOpSize[opcode]; break; case OP_PUSHGLOBAL: TRCPRINTF(("PUSHGLOBAL %d\n", data)); if (data >= numGlobals) { debug( LOG_ERROR, "interpRunScript: variable index out of range" ); ASSERT( FALSE, "interpRunScript: variable index out of range" ); goto exit_with_error; } if (!stackPush(interpGetVarData(psGlobals, data))) { debug( LOG_ERROR, "interpRunScript: could not do stack push" ); ASSERT( FALSE, "interpRunScript: could not do stack push" ); goto exit_with_error; } InstrPointer += aOpSize[opcode]; break; case OP_POPGLOBAL: TRCPRINTF(("POPGLOBAL %d ", data)); TRCPRINTSTACKTOP(); TRCPRINTF(("\n")); if (data >= numGlobals) { debug( LOG_ERROR, "interpRunScript: variable index out of range" ); ASSERT( FALSE, "interpRunScript: variable index out of range" ); goto exit_with_error; } if (!stackPopType(interpGetVarData(psGlobals, data))) { debug( LOG_ERROR, "interpRunScript: could not do stack pop" ); ASSERT( FALSE, "interpRunScript: could not do stack pop" ); goto exit_with_error; } InstrPointer += aOpSize[opcode]; break; case OP_PUSHARRAYGLOBAL: // get the number of array elements // arrayElements = (data & ARRAY_ELEMENT_MASK) >> ARRAY_ELEMENT_SHIFT; // data = data & ARRAY_INDEX_MASK; // get the array index // if (!stackPopParams(1, VAL_INT, &arrayIndex)) // { // goto exit_with_error; // } // TRCPRINTF(("PUSHARRAYGLOBAL [%d] %d(+%d)\n", arrayIndex, data, arrayElements)); // if (data + arrayElements > numGlobals) // { // ASSERT( FALSE, "interpRunScript: variable index out of range" ); // goto exit_with_error; // } // if (arrayIndex < 0 || arrayIndex >= arrayElements) // { // ASSERT( FALSE, "interpRunScript: array index out of range" ); // goto exit_with_error; // } TRCPRINTF(("PUSHARRAYGLOBAL ")); if (!interpGetArrayVarData(&InstrPointer, psGlobals, psProg, &psVar)) { debug( LOG_ERROR, "interpRunScript: could not get array var data, CurEvent=%d", CurEvent ); ASSERT( FALSE, "interpRunScript: could not get array var data" ); goto exit_with_error; } TRCPRINTF(("\n")); if (!stackPush(psVar)) { debug( LOG_ERROR, "interpRunScript: could not do stack push" ); ASSERT( FALSE, "interpRunScript: could not do stack push" ); goto exit_with_error; } break; case OP_POPARRAYGLOBAL: // get the number of array elements // arrayElements = (data & ARRAY_ELEMENT_MASK) >> ARRAY_ELEMENT_SHIFT; // data = data & ARRAY_INDEX_MASK; // get the array index /* if (!stackPopParams(1, VAL_INT, &arrayIndex)) { ASSERT( FALSE, "interpRunScript: could not do pop of params" ); goto exit_with_error; } TRCPRINTF(("POPARRAYGLOBAL [%d] %d(+%d) ", arrayIndex, data, arrayElements)); TRCPRINTSTACKTOP(); TRCPRINTF(("\n")); if (data + arrayElements > numGlobals) { ASSERT( FALSE, "interpRunScript: variable index out of range" ); goto exit_with_error; } if (arrayIndex < 0 || arrayIndex >= arrayElements) { ASSERT( FALSE, "interpRunScript: array index out of range" ); goto exit_with_error; } if (!stackPopType(interpGetVarData(psGlobals, data + arrayIndex))) { ASSERT( FALSE, "interpRunScript: could not do pop stack of type" ); goto exit_with_error; } ip += aOpSize[opcode];*/ TRCPRINTF(("POPARRAYGLOBAL ")); if (!interpGetArrayVarData(&InstrPointer, psGlobals, psProg, &psVar)) { debug( LOG_ERROR, "interpRunScript: could not get array var data" ); ASSERT( FALSE, "interpRunScript: could not get array var data" ); goto exit_with_error; } TRCPRINTSTACKTOP(); TRCPRINTF(("\n")); if (!stackPopType(psVar)) { debug( LOG_ERROR, "interpRunScript: could not do pop stack of type" ); ASSERT( FALSE, "interpRunScript: could not do pop stack of type" ); goto exit_with_error; } break; case OP_JUMPFALSE: TRCPRINTF(("JUMPFALSE %d (%d)", (SWORD)data, InstrPointer - psProg->pCode + (SWORD)data)); if (!stackPop(&sVal)) { debug( LOG_ERROR, "interpRunScript: could not do pop of stack" ); ASSERT( FALSE, "interpRunScript: could not do pop of stack" ); goto exit_with_error; } if (!sVal.v.bval) { // Do the jump TRCPRINTF((" - done -\n")); InstrPointer += (SWORD)data; if (InstrPointer < pCodeStart || InstrPointer > pCodeEnd) { debug( LOG_ERROR, "interpRunScript: jump out of range" ); ASSERT( FALSE, "interpRunScript: jump out of range" ); goto exit_with_error; } } else { TRCPRINTF(("\n")); InstrPointer += aOpSize[opcode]; } break; case OP_JUMP: TRCPRINTF(("JUMP %d (%d)\n", (SWORD)data, InstrPointer - psProg->pCode + (SWORD)data)); // Do the jump InstrPointer += (SWORD)data; if (InstrPointer < pCodeStart || InstrPointer > pCodeEnd) { debug( LOG_ERROR, "interpRunScript: jump out of range" ); ASSERT( FALSE, "interpRunScript: jump out of range" ); goto exit_with_error; } break; case OP_CALL: //debug(LOG_SCRIPT, "OP_CALL"); TRCPRINTFUNC( (SCRIPT_FUNC)(*(InstrPointer+1)) ); TRCPRINTF(("\n")); scriptFunc = (SCRIPT_FUNC)*(InstrPointer+1); //debug(LOG_SCRIPT, "OP_CALL 1"); if (!scriptFunc()) { debug( LOG_ERROR, "interpRunScript: could not do func" ); ASSERT( FALSE, "interpRunScript: could not do func" ); goto exit_with_error; } //debug(LOG_SCRIPT, "OP_CALL 2"); InstrPointer += aOpSize[opcode]; //debug(LOG_SCRIPT, "OP_CALL 3"); break; case OP_VARCALL: TRCPRINTF(("VARCALL ")); TRCPRINTVARFUNC( (SCRIPT_VARFUNC)(*(InstrPointer+1)), data ); TRCPRINTF(("(%d)\n", data)); scriptVarFunc = (SCRIPT_VARFUNC)*(InstrPointer+1); if (!scriptVarFunc(data)) { debug( LOG_ERROR, "interpRunScript: could not do var func" ); ASSERT( FALSE, "interpRunScript: could not do var func" ); goto exit_with_error; } InstrPointer += aOpSize[opcode]; break; case OP_EXIT: // jump out of the code InstrPointer = pCodeEnd; break; case OP_PAUSE: TRCPRINTF(("PAUSE %d\n", data)); ASSERT( stackEmpty(), "interpRunScript: OP_PAUSE without empty stack" ); InstrPointer += aOpSize[opcode]; // tell the event system to reschedule this event if (!eventAddPauseTrigger(psContext, index, InstrPointer - pCodeBase, data)) { debug( LOG_ERROR, "interpRunScript: could not add pause trigger" ); ASSERT( FALSE, "interpRunScript: could not add pause trigger" ); goto exit_with_error; } // now jump out of the event InstrPointer = pCodeEnd; break; default: debug(LOG_ERROR, "interpRunScript: unknown opcode: %d", opcode); ASSERT( FALSE, "interpRunScript: unknown opcode: %d", opcode ); goto exit_with_error; break; } } else //End of the event reached, see if we have to jump back to the caller function or just exit { //debug(LOG_SCRIPT, "End of event reached"); if(!retStackIsEmpty()) //There was a caller function before this one { //debug(LOG_SCRIPT, "GetCallDepth = %d", GetCallDepth()); //reset local vars (since trigger can't be called, only local vars of an event can be reset here) if(!resetLocalVars(psProg, CurEvent)) { debug( LOG_ERROR, "interpRunScript: could not reset local vars for event %d", CurEvent ); goto exit_with_error; } //pop caller function index and return address if (!retStackPop(&CurEvent, &InstrPointer)) { debug( LOG_ERROR, "interpRunScript() - retStackPop() failed."); return FALSE; } //debug( LOG_SCRIPT, "RETURNED TO CALLER EVENT %d", CurEvent ); //Set new boundries //-------------------------- if(retStackIsEmpty()) //if we jumped back to the original caller { if(!bEvent) //original caller was a trigger (is it possible at all?) { pCodeBase = psProg->pCode + psProg->pTriggerTab[CurEvent]; pCodeStart = pCodeBase; pCodeEnd = psProg->pCode + psProg->pTriggerTab[CurEvent+1]; } else //original caller was an event { pCodeBase = psProg->pCode + psProg->pEventTab[CurEvent]; pCodeStart = pCodeBase + offset; //also use the offset passed, since it's an original caller event (offset is used for pause() ) pCodeEnd = psProg->pCode + psProg->pEventTab[CurEvent+1]; } } else //we are still jumping thru functions (this can't be a callback, since it can't/should not be called) { pCodeBase = psProg->pCode + psProg->pEventTab[CurEvent]; pCodeStart = pCodeBase; pCodeEnd = psProg->pCode + psProg->pEventTab[CurEvent+1]; } } else { //debug( LOG_SCRIPT, " *** CALL STACK EMPTY ***" ); //reset local vars only if original caller was an event, not a trigger if(bEvent) { if(!resetLocalVars(psProg, index)) { debug( LOG_ERROR, "interpRunScript: could not reset local vars" ); goto exit_with_error; } } bStop = TRUE; //Stop execution of this event here, no more calling functions stored } } } //debug(LOG_SCRIPT, "interpRunScript 3"); TRCPRINTF(("%-6d EXIT\n", InstrPointer - psProg->pCode)); bInterpRunning = FALSE; return TRUE; exit_with_error: // Deal with the script crashing or running out of memory debug(LOG_ERROR,"interpRunScript: *** ERROR EXIT *** (CurEvent=%d)", CurEvent); if(bEvent) debug(LOG_ERROR,"Original event ID: %d (of %d)", index, psProg->numEvents); else debug(LOG_ERROR,"Original trigger ID: %d (of %d)", index, psProg->numTriggers); debug(LOG_ERROR,"Current event ID: %d (of %d)", CurEvent, psProg->numEvents); callDepth = retStackCallDepth(); debug(LOG_ERROR,"Call depth : %d", callDepth); if(psProg->psDebug != NULL) { debug(LOG_ERROR,"Displaying debug info:"); if(bEvent) { // find the debug info for the original (caller) event pEventLab = eventGetEventID(psProg, index); debug(LOG_ERROR,"Original event name: %s", pEventLab); pEventLab = eventGetEventID(psProg, CurEvent); debug(LOG_ERROR,"Current event name: %s", pEventLab); } else { // find the debug info for the trigger pTrigLab = eventGetTriggerID(psProg, index); debug(LOG_ERROR,"Trigger: %s", pTrigLab); } } TRCPRINTF(("*** ERROR EXIT ***\n")); bInterpRunning = FALSE; return FALSE; } /* Set the type equivalence table */ void scriptSetTypeEquiv(TYPE_EQUIV *psTypeTab) { #ifdef DEBUG SDWORD i; for(i=0; psTypeTab[i].base != 0; i++) { ASSERT( psTypeTab[i].base >= VAL_USERTYPESTART, "scriptSetTypeEquiv: can only set type equivalence for user types" ); } #endif asInterpTypeEquiv = psTypeTab; } /* Check if two types are equivalent */ BOOL interpCheckEquiv(INTERP_TYPE to, INTERP_TYPE from) { SDWORD i,j; BOOL toRef = FALSE, fromRef = FALSE; // check for the VAL_REF flag if (to & VAL_REF) { toRef = TRUE; to = (INTERP_TYPE)(to & ~VAL_REF); } if (from & VAL_REF) { fromRef = TRUE; from = (INTERP_TYPE)(from & ~VAL_REF); } if (toRef != fromRef) { return FALSE; } if (to == from) { return TRUE; } else if (asInterpTypeEquiv) { for(i=0; asInterpTypeEquiv[i].base != 0; i++) { if (asInterpTypeEquiv[i].base == to) { for(j=0; j= RETSTACK_SIZE) return TRUE; return FALSE; } static BOOL retStackPush(UDWORD CallerIndex, UDWORD *ReturnAddress) { if (retStackIsFull()) { debug( LOG_ERROR, "retStackPush(): return address stack is full"); return FALSE; // Stack full } retStackPos++; retStack[retStackPos].CallerIndex = CallerIndex; retStack[retStackPos].ReturnAddress = ReturnAddress; //debug( LOG_SCRIPT, "retStackPush: Event=%i Address=%p, ", CallerIndex, ReturnAddress); return TRUE; } static BOOL retStackPop(UDWORD *CallerIndex, UDWORD **ReturnAddress) { if (retStackIsEmpty()) { debug( LOG_ERROR, "retStackPop(): return address stack is empty"); return FALSE; } *CallerIndex = retStack[retStackPos].CallerIndex; *ReturnAddress = retStack[retStackPos].ReturnAddress; retStackPos--; //debug( LOG_SCRIPT, "retStackPop: Event=%i Address=%p", *EventTrigIndex, *ReturnAddress); return TRUE; }