%{ /* * Parser for command lines in the Wine debugger * * Copyright 1993 Eric Youngdale * Copyright 1995 Morten Welinder */ #include #include #include #include "class.h" #include "module.h" #include "options.h" #include "queue.h" #include "win.h" #include "winnt.h" #include "debugger.h" #include "expr.h" extern FILE * yyin; unsigned int dbg_mode = 0; int curr_frame = 0; static enum exec_mode dbg_exec_mode = EXEC_CONT; static int dbg_exec_count = 0; void issue_prompt(void); void mode_command(int); void flush_symbols(void); int yylex(void); int yyerror(char *); extern void VIRTUAL_Dump(void); /* memory/virtual.c */ %} %union { DBG_ADDR address; enum debug_regs reg; char * string; int integer; struct list_id listing; struct expr * expression; struct datatype * type; } %token tCONT tSTEP tLIST tNEXT tQUIT tHELP tBACKTRACE tINFO tWALK tUP tDOWN %token tENABLE tDISABLE tBREAK tDELETE tSET tMODE tPRINT tEXAM tABORT %token tCLASS tMAPS tMODULE tSTACK tSEGMENTS tREGS tWND tQUEUE tLOCAL %token tEOL tSTRING %token tFRAME tSHARE tCOND tDISPLAY tUNDISPLAY tDISASSEMBLE %token tSTEPI tNEXTI tFINISH tSHOW tDIR %token tPATH %token tIDENTIFIER tSTRING %token tNUM tFORMAT %token tREG %token tCHAR tSHORT tINT tLONG tFLOAT tDOUBLE tUNSIGNED tSIGNED %token tSTRUCT tUNION tENUM /* %left ',' */ /* %left '=' OP_OR_EQUAL OP_XOR_EQUAL OP_AND_EQUAL OP_SHL_EQUAL \ OP_SHR_EQUAL OP_PLUS_EQUAL OP_MINUS_EQUAL \ OP_TIMES_EQUAL OP_DIVIDE_EQUAL OP_MODULO_EQUAL */ /* %left OP_COND */ /* ... ? ... : ... */ %left OP_LOR %left OP_LAND %left '|' %left '^' %left '&' %left OP_EQ OP_NE %left '<' '>' OP_LE OP_GE %left OP_SHL OP_SHR %left '+' '-' %left '*' '/' '%' %left OP_SIGN '!' '~' OP_DEREF /* OP_INC OP_DEC OP_ADDR */ %left '.' '[' OP_DRF %nonassoc ':' %type expr lval lvalue %type type_cast type_expr %type
expr_addr lval_addr %type expr_value %type pathname %type list_arg %% input: line { issue_prompt(); } | input line { issue_prompt(); } line: command | tEOL | error tEOL { yyerrok; } command: tQUIT tEOL { exit(0); } | tHELP tEOL { DEBUG_Help(); } | tHELP tINFO tEOL { DEBUG_HelpInfo(); } | tCONT tEOL { dbg_exec_count = 1; dbg_exec_mode = EXEC_CONT; return 0; } | tCONT tNUM tEOL { dbg_exec_count = $2; dbg_exec_mode = EXEC_CONT; return 0; } | tSTEP tEOL { dbg_exec_count = 1; dbg_exec_mode = EXEC_STEP_INSTR; return 0; } | tNEXT tEOL { dbg_exec_count = 1; dbg_exec_mode = EXEC_STEP_OVER; return 0; } | tSTEP tNUM tEOL { dbg_exec_count = $2; dbg_exec_mode = EXEC_STEP_INSTR; return 0; } | tNEXT tNUM tEOL { dbg_exec_count = $2; dbg_exec_mode = EXEC_STEP_OVER; return 0; } | tSTEPI tEOL { dbg_exec_count = 1; dbg_exec_mode = EXEC_STEPI_INSTR; return 0; } | tNEXTI tEOL { dbg_exec_count = 1; dbg_exec_mode = EXEC_STEPI_OVER; return 0; } | tSTEPI tNUM tEOL { dbg_exec_count = $2; dbg_exec_mode = EXEC_STEPI_INSTR; return 0; } | tNEXTI tNUM tEOL { dbg_exec_count = $2; dbg_exec_mode = EXEC_STEPI_OVER; return 0; } | tABORT tEOL { kill(getpid(), SIGABRT); } | tMODE tNUM tEOL { mode_command($2); } | tENABLE tNUM tEOL { DEBUG_EnableBreakpoint( $2, TRUE ); } | tDISABLE tNUM tEOL { DEBUG_EnableBreakpoint( $2, FALSE ); } | tDELETE tBREAK tNUM tEOL { DEBUG_DelBreakpoint( $3 ); } | tBACKTRACE tEOL { DEBUG_BackTrace(); } | tUP tEOL { DEBUG_SetFrame( curr_frame + 1 ); } | tUP tNUM tEOL { DEBUG_SetFrame( curr_frame + $2 ); } | tDOWN tEOL { DEBUG_SetFrame( curr_frame - 1 ); } | tDOWN tNUM tEOL { DEBUG_SetFrame( curr_frame - $2 ); } | tFRAME tNUM tEOL { DEBUG_SetFrame( $2 ); } | tFINISH tEOL { dbg_exec_count = 0; dbg_exec_mode = EXEC_FINISH; return 0; } | tSHOW tDIR tEOL { DEBUG_ShowDir(); } | tDIR pathname tEOL { DEBUG_AddPath( $2 ); } | tDIR tEOL { DEBUG_NukePath(); } | tDISPLAY tEOL { DEBUG_InfoDisplay(); } | tDISPLAY expr tEOL { DEBUG_AddDisplay($2, 1, 0); } | tDISPLAY tFORMAT expr tEOL { DEBUG_AddDisplay($3, $2 >> 8, $2 & 0xff); } | tDELETE tDISPLAY tNUM tEOL { DEBUG_DelDisplay( $3 ); } | tDELETE tDISPLAY tEOL { DEBUG_DelDisplay( -1 ); } | tUNDISPLAY tNUM tEOL { DEBUG_DelDisplay( $2 ); } | tUNDISPLAY tEOL { DEBUG_DelDisplay( -1 ); } | tCOND tNUM tEOL { DEBUG_AddBPCondition($2, NULL); } | tCOND tNUM expr tEOL { DEBUG_AddBPCondition($2, $3); } | list_command | disassemble_command | set_command | x_command | print_command | break_command | info_command | walk_command set_command: tSET tREG '=' expr_value tEOL { DEBUG_SetRegister( $2, $4 ); DEBUG_FreeExprMem(); } | tSET lval_addr '=' expr_value tEOL { DEBUG_WriteMemory( &$2, $4 ); DEBUG_FreeExprMem(); } pathname: tIDENTIFIER { $$ = $1; } | tPATH { $$ = $1; } disassemble_command: tDISASSEMBLE tEOL { DEBUG_Disassemble( NULL, NULL, 10 ); } | tDISASSEMBLE expr_addr tEOL { DEBUG_Disassemble( & $2, NULL, 10 ); } | tDISASSEMBLE expr_addr ',' expr_addr tEOL { DEBUG_Disassemble( & $2, & $4, 0 ); } list_command: tLIST tEOL { DEBUG_List( NULL, NULL, 10 ); } | tLIST '-' tEOL { DEBUG_List( NULL, NULL, -10 ); } | tLIST list_arg tEOL { DEBUG_List( & $2, NULL, 10 ); } | tLIST ',' list_arg tEOL { DEBUG_List( NULL, & $3, -10 ); } | tLIST list_arg ',' list_arg tEOL { DEBUG_List( & $2, & $4, 0 ); } list_arg: tNUM { $$.sourcefile = NULL; $$.line = $1; } | pathname ':' tNUM { $$.sourcefile = $1; $$.line = $3; } | tIDENTIFIER { DEBUG_GetFuncInfo( & $$, NULL, $1); } | pathname ':' tIDENTIFIER { DEBUG_GetFuncInfo( & $$, $1, $3); } | '*' expr_addr { DEBUG_FindNearestSymbol( & $2, FALSE, NULL, 0, & $$ ); DEBUG_FreeExprMem(); } x_command: tEXAM expr_addr tEOL { DEBUG_ExamineMemory( &$2, 1, 'x'); DEBUG_FreeExprMem(); } | tEXAM tFORMAT expr_addr tEOL { DEBUG_ExamineMemory( &$3, $2>>8, $2&0xff ); DEBUG_FreeExprMem(); } print_command: tPRINT expr_addr tEOL { DEBUG_Print( &$2, 1, 0, 0 ); DEBUG_FreeExprMem(); } | tPRINT tFORMAT expr_addr tEOL { DEBUG_Print( &$3, $2 >> 8, $2 & 0xff, 0 ); DEBUG_FreeExprMem(); } break_command: tBREAK '*' expr_addr tEOL { DEBUG_AddBreakpoint( &$3 ); DEBUG_FreeExprMem(); } | tBREAK tIDENTIFIER tEOL { DBG_ADDR addr; if( DEBUG_GetSymbolValue($2, -1, &addr, TRUE) ) { DEBUG_AddBreakpoint( &addr ); } else { fprintf(stderr,"Unable to add breakpoint\n"); } } | tBREAK tIDENTIFIER ':' tNUM tEOL { DBG_ADDR addr; if( DEBUG_GetSymbolValue($2, $4, &addr, TRUE) ) { DEBUG_AddBreakpoint( &addr ); } else { fprintf(stderr,"Unable to add breakpoint\n"); } } | tBREAK tNUM tEOL { struct name_hash *nh; DBG_ADDR addr = { NULL, CS_reg(&DEBUG_context), EIP_reg(&DEBUG_context) }; DBG_FIX_ADDR_SEG( &addr, CS_reg(&DEBUG_context) ); DEBUG_FindNearestSymbol(&addr, TRUE, &nh, 0, NULL); if( nh != NULL ) { DEBUG_GetLineNumberAddr(nh, $2, &addr, TRUE); DEBUG_AddBreakpoint( &addr ); } else { fprintf(stderr,"Unable to add breakpoint\n"); } } | tBREAK tEOL { DBG_ADDR addr = { NULL, CS_reg(&DEBUG_context), EIP_reg(&DEBUG_context) }; DEBUG_AddBreakpoint( &addr ); } info_command: tINFO tBREAK tEOL { DEBUG_InfoBreakpoints(); } | tINFO tCLASS expr_value tEOL { CLASS_DumpClass( (CLASS *)$3 ); DEBUG_FreeExprMem(); } | tINFO tSHARE tEOL { DEBUG_InfoShare(); } | tINFO tMODULE expr_value tEOL { MODULE_DumpModule( $3 ); DEBUG_FreeExprMem(); } | tINFO tQUEUE expr_value tEOL { QUEUE_DumpQueue( $3 ); DEBUG_FreeExprMem(); } | tINFO tREGS tEOL { DEBUG_InfoRegisters(); } | tINFO tSEGMENTS expr_value tEOL { LDT_Print( SELECTOR_TO_ENTRY($3), 1 ); DEBUG_FreeExprMem(); } | tINFO tSEGMENTS tEOL { LDT_Print( 0, -1 ); } | tINFO tSTACK tEOL { DEBUG_InfoStack(); } | tINFO tMAPS tEOL { VIRTUAL_Dump(); } | tINFO tWND expr_value tEOL { WIN_DumpWindow( $3 ); DEBUG_FreeExprMem(); } | tINFO tLOCAL tEOL { DEBUG_InfoLocals(); } | tINFO tDISPLAY tEOL { DEBUG_InfoDisplay(); } walk_command: tWALK tCLASS tEOL { CLASS_WalkClasses(); } | tWALK tMODULE tEOL { MODULE_WalkModules(); } | tWALK tQUEUE tEOL { QUEUE_WalkQueues(); } | tWALK tWND tEOL { WIN_WalkWindows( 0, 0 ); } | tWALK tWND tNUM tEOL { WIN_WalkWindows( $3, 0 ); } type_cast: '(' type_expr ')' { $$ = $2; } type_expr: type_expr '*' { $$ = DEBUG_FindOrMakePointerType($1); } | tINT { $$ = DEBUG_TypeCast(BASIC, "int"); } | tCHAR { $$ = DEBUG_TypeCast(BASIC, "char"); } | tLONG tINT { $$ = DEBUG_TypeCast(BASIC, "long int"); } | tUNSIGNED tINT { $$ = DEBUG_TypeCast(BASIC, "unsigned int"); } | tLONG tUNSIGNED tINT { $$ = DEBUG_TypeCast(BASIC, "long unsigned int"); } | tLONG tLONG tINT { $$ = DEBUG_TypeCast(BASIC, "long long int"); } | tLONG tLONG tUNSIGNED tINT { $$ = DEBUG_TypeCast(BASIC, "long long unsigned int"); } | tSHORT tINT { $$ = DEBUG_TypeCast(BASIC, "short int"); } | tSHORT tUNSIGNED tINT { $$ = DEBUG_TypeCast(BASIC, "short unsigned int"); } | tSIGNED tCHAR { $$ = DEBUG_TypeCast(BASIC, "signed char"); } | tUNSIGNED tCHAR { $$ = DEBUG_TypeCast(BASIC, "unsigned char"); } | tFLOAT { $$ = DEBUG_TypeCast(BASIC, "float"); } | tDOUBLE { $$ = DEBUG_TypeCast(BASIC, "double"); } | tLONG tDOUBLE { $$ = DEBUG_TypeCast(BASIC, "long double"); } | tSTRUCT tIDENTIFIER { $$ = DEBUG_TypeCast(STRUCT, $2); } | tUNION tIDENTIFIER { $$ = DEBUG_TypeCast(STRUCT, $2); } | tENUM tIDENTIFIER { $$ = DEBUG_TypeCast(ENUM, $2); } expr_addr: expr { $$ = DEBUG_EvalExpr($1); } expr_value: expr { DBG_ADDR addr = DEBUG_EvalExpr($1); $$ = addr.off ? *(unsigned int *) addr.off : 0; } /* * The expr rule builds an expression tree. When we are done, we call * EvalExpr to evaluate the value of the expression. The advantage of * the two-step approach is that it is possible to save expressions for * use in 'display' commands, and in conditional watchpoints. */ expr: tNUM { $$ = DEBUG_ConstExpr($1); } | tSTRING { $$ = DEBUG_StringExpr($1); } | tREG { $$ = DEBUG_RegisterExpr($1); } | tIDENTIFIER { $$ = DEBUG_SymbolExpr($1); } | expr OP_DRF tIDENTIFIER { $$ = DEBUG_StructPExpr($1, $3); } | expr '.' tIDENTIFIER { $$ = DEBUG_StructExpr($1, $3); } | tIDENTIFIER '(' ')' { $$ = DEBUG_CallExpr($1, 0); } | tIDENTIFIER '(' expr ')' { $$ = DEBUG_CallExpr($1, 1, $3); } | tIDENTIFIER '(' expr ',' expr ')' { $$ = DEBUG_CallExpr($1, 2, $3, $5); } | tIDENTIFIER '(' expr ',' expr ',' expr ')' { $$ = DEBUG_CallExpr($1, 3, $3, $5, $7); } | tIDENTIFIER '(' expr ',' expr ',' expr ',' expr ')' { $$ = DEBUG_CallExpr($1, 3, $3, $5, $7, $9); } | tIDENTIFIER '(' expr ',' expr ',' expr ',' expr ',' expr ')' { $$ = DEBUG_CallExpr($1, 3, $3, $5, $7, $9, $11); } | expr '[' expr ']' { $$ = DEBUG_BinopExpr(EXP_OP_ARR, $1, $3); } | expr ':' expr { $$ = DEBUG_BinopExpr(EXP_OP_SEG, $1, $3); } | expr OP_LOR expr { $$ = DEBUG_BinopExpr(EXP_OP_LOR, $1, $3); } | expr OP_LAND expr { $$ = DEBUG_BinopExpr(EXP_OP_LAND, $1, $3); } | expr '|' expr { $$ = DEBUG_BinopExpr(EXP_OP_OR, $1, $3); } | expr '&' expr { $$ = DEBUG_BinopExpr(EXP_OP_AND, $1, $3); } | expr '^' expr { $$ = DEBUG_BinopExpr(EXP_OP_XOR, $1, $3); } | expr OP_EQ expr { $$ = DEBUG_BinopExpr(EXP_OP_EQ, $1, $3); } | expr '>' expr { $$ = DEBUG_BinopExpr(EXP_OP_GT, $1, $3); } | expr '<' expr { $$ = DEBUG_BinopExpr(EXP_OP_LT, $1, $3); } | expr OP_GE expr { $$ = DEBUG_BinopExpr(EXP_OP_GE, $1, $3); } | expr OP_LE expr { $$ = DEBUG_BinopExpr(EXP_OP_LE, $1, $3); } | expr OP_NE expr { $$ = DEBUG_BinopExpr(EXP_OP_NE, $1, $3); } | expr OP_SHL expr { $$ = DEBUG_BinopExpr(EXP_OP_SHL, $1, $3); } | expr OP_SHR expr { $$ = DEBUG_BinopExpr(EXP_OP_SHR, $1, $3); } | expr '+' expr { $$ = DEBUG_BinopExpr(EXP_OP_ADD, $1, $3); } | expr '-' expr { $$ = DEBUG_BinopExpr(EXP_OP_SUB, $1, $3); } | expr '*' expr { $$ = DEBUG_BinopExpr(EXP_OP_MUL, $1, $3); } | expr '/' expr { $$ = DEBUG_BinopExpr(EXP_OP_DIV, $1, $3); } | expr '%' expr { $$ = DEBUG_BinopExpr(EXP_OP_REM, $1, $3); } | '-' expr %prec OP_SIGN { $$ = DEBUG_UnopExpr(EXP_OP_NEG, $2); } | '+' expr %prec OP_SIGN { $$ = $2; } | '!' expr { $$ = DEBUG_UnopExpr(EXP_OP_NOT, $2); } | '~' expr { $$ = DEBUG_UnopExpr(EXP_OP_LNOT, $2); } | '(' expr ')' { $$ = $2; } | '*' expr %prec OP_DEREF { $$ = DEBUG_UnopExpr(EXP_OP_DEREF, $2); } | '&' expr %prec OP_DEREF { $$ = DEBUG_UnopExpr(EXP_OP_ADDR, $2); } | type_cast expr %prec OP_DEREF { $$ = DEBUG_TypeCastExpr($1, $2); } /* * The lvalue rule builds an expression tree. This is a limited form * of expression that is suitable to be used as an lvalue. */ lval_addr: lval { $$ = DEBUG_EvalExpr($1); } lval: lvalue { $$ = $1; } | '*' expr { $$ = DEBUG_UnopExpr(EXP_OP_FORCE_DEREF, $2); } lvalue: tNUM { $$ = DEBUG_ConstExpr($1); } | tREG { $$ = DEBUG_RegisterExpr($1); } | tIDENTIFIER { $$ = DEBUG_SymbolExpr($1); } | lvalue OP_DRF tIDENTIFIER { $$ = DEBUG_StructPExpr($1, $3); } | lvalue '.' tIDENTIFIER { $$ = DEBUG_StructExpr($1, $3); } | lvalue '[' expr ']' { $$ = DEBUG_BinopExpr(EXP_OP_ARR, $1, $3); } %% void issue_prompt(){ #ifdef DONT_USE_READLINE fprintf(stderr,"Wine-dbg>"); #endif } void mode_command(int newmode) { if ((newmode == 16) || (newmode == 32)) dbg_mode = newmode; else fprintf(stderr,"Invalid mode (use 16 or 32)\n"); } /*********************************************************************** * DEBUG_Main * * Debugger main loop. */ static void DEBUG_Main( int signal ) { static int loaded_symbols = 0; static BOOL32 in_debugger = FALSE; char SymbolTableFile[256]; int newmode; BOOL32 ret_ok; #ifdef YYDEBUG yydebug = 0; #endif if (in_debugger) { fprintf( stderr, "Segmentation fault inside debugger, exiting.\n" ); exit(1); } in_debugger = TRUE; yyin = stdin; DEBUG_SetBreakpoints( FALSE ); if (!loaded_symbols) { loaded_symbols++; /* * Initialize the type handling stuff. */ DEBUG_InitTypes(); /* * In some cases we can read the stabs information directly * from the executable. If this is the case, we don't need * to bother with trying to read a symbol file, as the stabs * also have line number and local variable information. * As long as gcc is used for the compiler, stabs will * be the default. On SVr4, DWARF could be used, but we * don't grok that yet, and in this case we fall back to using * the wine.sym file. */ fprintf(stderr,"Loading symbols: "); if( DEBUG_ReadExecutableDbgInfo() == FALSE ) { PROFILE_GetWineIniString( "wine", "SymbolTableFile", "wine.sym", SymbolTableFile, sizeof(SymbolTableFile)); DEBUG_ReadSymbolTable( SymbolTableFile ); } /* * Read COFF, MSC, etc debug information that we noted when we * started up the executable. */ DEBUG_ProcessDeferredDebug(); DEBUG_LoadEntryPoints(); fprintf(stderr,"\n"); } #if 0 fprintf(stderr, "Entering debugger PC=%x, mode=%d, count=%d\n", EIP_reg(&DEBUG_context), dbg_exec_mode, dbg_exec_count); sleep(1); #endif if ((signal != SIGTRAP) || !DEBUG_ShouldContinue( dbg_exec_mode, &dbg_exec_count )) { DBG_ADDR addr; addr.seg = CS_reg(&DEBUG_context); addr.off = EIP_reg(&DEBUG_context); addr.type = NULL; DBG_FIX_ADDR_SEG( &addr, 0 ); /* Put the display in a correct state */ XUngrabPointer( display, CurrentTime ); XUngrabServer( display ); XFlush( display ); if (!addr.seg) newmode = 32; else newmode = (GET_SEL_FLAGS(addr.seg) & LDT_FLAGS_32BIT) ? 32 : 16; if (newmode != dbg_mode) fprintf(stderr,"In %d bit mode.\n", dbg_mode = newmode); DEBUG_DoDisplay(); if (signal != SIGTRAP) /* This is a real crash, dump some info */ { DEBUG_InfoRegisters(); DEBUG_InfoStack(); if (dbg_mode == 16) { LDT_Print( SELECTOR_TO_ENTRY(DS_reg(&DEBUG_context)), 1 ); if (ES_reg(&DEBUG_context) != DS_reg(&DEBUG_context)) LDT_Print( SELECTOR_TO_ENTRY(ES_reg(&DEBUG_context)), 1 ); } DEBUG_BackTrace(); } else { /* * Do a quiet backtrace so that we have an idea of what the situation * is WRT the source files. */ DEBUG_SilentBackTrace(); } if ((signal != SIGTRAP) || (dbg_exec_mode == EXEC_STEPI_OVER) || (dbg_exec_mode == EXEC_STEPI_INSTR)) { /* Show where we crashed */ curr_frame = 0; DEBUG_PrintAddress( &addr, dbg_mode, TRUE ); fprintf(stderr,": "); if (DBG_CHECK_READ_PTR( &addr, 1 )) { DEBUG_Disasm( &addr, TRUE ); fprintf(stderr,"\n"); } } ret_ok = 0; do { issue_prompt(); yyparse(); flush_symbols(); addr.seg = CS_reg(&DEBUG_context); addr.off = EIP_reg(&DEBUG_context); DBG_FIX_ADDR_SEG( &addr, 0 ); ret_ok = DEBUG_ValidateRegisters(); if (ret_ok) ret_ok = DBG_CHECK_READ_PTR( &addr, 1 ); } while (!ret_ok); } dbg_exec_mode = DEBUG_RestartExecution( dbg_exec_mode, dbg_exec_count ); /* * This will have gotten absorbed into the breakpoint info * if it was used. Otherwise it would have been ignored. * In any case, we don't mess with it any more. */ if( dbg_exec_mode == EXEC_CONT ) { dbg_exec_count = 0; } in_debugger = FALSE; } /*********************************************************************** * DebugBreak32 (KERNEL32) */ void DebugBreak32( CONTEXT *regs ) { const char *module = MODULE_GetModuleName( GetCurrentTask() ); fprintf( stderr, "%s called DebugBreak\n", module ? module : "???" ); DEBUG_context = *regs; DEBUG_Main( SIGTRAP ); } /*********************************************************************** * DebugBreak16 (KERNEL.203) */ void DebugBreak16( CONTEXT *regs ) { const char *module = MODULE_GetModuleName( GetCurrentTask() ); fprintf( stderr, "%s called DebugBreak\n", module ? module : "???" ); DEBUG_context = *regs; DEBUG_Main( SIGTRAP ); } void wine_debug( int signal, SIGCONTEXT *regs ) { DEBUG_SetSigContext( regs ); #if 0 DWORD *stack = (DWORD *)ESP_reg(&DEBUG_context); *(--stack) = 0; *(--stack) = 0; *(--stack) = EH_NONCONTINUABLE; *(--stack) = EXCEPTION_ACCESS_VIOLATION; *(--stack) = EIP_reg(&DEBUG_context); ESP_reg(&DEBUG_context) = (DWORD)stack; EIP_reg(&DEBUG_context) = GetProcAddress32( GetModuleHandle("KERNEL32"), "RaiseException" ); #endif DEBUG_Main( signal ); DEBUG_GetSigContext( regs ); } int yyerror(char * s) { fprintf(stderr,"%s\n", s); return 0; }