/* * File expr.c - expression handling for Wine internal debugger. * * Copyright (C) 1997, Eric Youngdale. * */ #include #include #include #include #include #include #include "wine/winbase16.h" #include "module.h" #include "task.h" #include "selectors.h" #include "debugger.h" #include "xmalloc.h" #include "expr.h" #include struct expr { unsigned int perm; unsigned int type:31; union { struct { int value; } constant; struct { const char * str; } string; struct { unsigned int value; } u_const; struct { const char * name; } symbol; struct { enum debug_regs reg; int result; } rgister; struct { int unop_type; struct expr * exp1; int result; } unop; struct { int binop_type; int result; struct expr * exp1; struct expr * exp2; } binop; struct { struct datatype * cast; struct expr * expr; } cast; struct { struct expr * exp1; const char * element_name; int result; } structure; struct { struct expr * base; struct expr * index; } array; struct { const char * funcname; int nargs; int result; struct expr * arg[5]; } call; } un; }; #define EXPR_TYPE_CONST 0 #define EXPR_TYPE_US_CONST 1 #define EXPR_TYPE_SYMBOL 2 #define EXPR_TYPE_REGISTER 3 #define EXPR_TYPE_BINOP 4 #define EXPR_TYPE_UNOP 5 #define EXPR_TYPE_STRUCT 6 #define EXPR_TYPE_PSTRUCT 7 #define EXPR_TYPE_ARRAY 8 #define EXPR_TYPE_CALL 9 #define EXPR_TYPE_STRING 10 #define EXPR_TYPE_CAST 11 static char expr_list[4096]; static int next_expr_free = 0; /* * This is how we turn an expression address into the actual value. * This works well in the 32 bit domain - not sure at all about the * 16 bit world. */ #define VAL(_exp) DEBUG_GetExprValue(&_exp, NULL) static struct expr * DEBUG_GetFreeExpr() { struct expr * rtn; rtn = (struct expr *) &expr_list[next_expr_free]; next_expr_free += sizeof(struct expr); return rtn; } void DEBUG_FreeExprMem() { next_expr_free = 0; } struct expr * DEBUG_TypeCastExpr(struct datatype * dt, struct expr * exp) { struct expr * ex; ex = DEBUG_GetFreeExpr(); ex->type = EXPR_TYPE_CAST; ex->un.cast.cast = dt; ex->un.cast.expr = exp; return ex; } struct expr * DEBUG_RegisterExpr(enum debug_regs regno) { struct expr * ex; ex = DEBUG_GetFreeExpr(); ex->type = EXPR_TYPE_REGISTER; ex->un.rgister.reg = regno; return ex; } struct expr * DEBUG_SymbolExpr(const char * name) { struct expr * ex; ex = DEBUG_GetFreeExpr(); ex->type = EXPR_TYPE_SYMBOL; ex->un.symbol.name = name; return ex; } struct expr * DEBUG_ConstExpr(int value) { struct expr * ex; ex = DEBUG_GetFreeExpr(); ex->type = EXPR_TYPE_CONST; ex->un.constant.value = value; return ex; } struct expr * DEBUG_StringExpr(const char * str) { struct expr * ex; char * pnt; ex = DEBUG_GetFreeExpr(); ex->type = EXPR_TYPE_STRING; ex->un.string.str = str+1; pnt = strrchr(ex->un.string.str, '"'); if( pnt != NULL ) { *pnt = '\0'; } return ex; } struct expr * DEBUG_USConstExpr(unsigned int value) { struct expr * ex; ex = DEBUG_GetFreeExpr(); ex->type = EXPR_TYPE_CONST; ex->un.u_const.value = value; return ex; } struct expr * DEBUG_BinopExpr(int operator_type, struct expr * exp1, struct expr * exp2) { struct expr * ex; ex = DEBUG_GetFreeExpr(); ex->type = EXPR_TYPE_BINOP; ex->un.binop.binop_type = operator_type; ex->un.binop.exp1 = exp1; ex->un.binop.exp2 = exp2; return ex; } struct expr * DEBUG_UnopExpr(int operator_type, struct expr * exp1) { struct expr * ex; ex = DEBUG_GetFreeExpr(); ex->type = EXPR_TYPE_UNOP; ex->un.unop.unop_type = operator_type; ex->un.unop.exp1 = exp1; return ex; } struct expr * DEBUG_StructExpr(struct expr * exp, const char * element) { struct expr * ex; ex = DEBUG_GetFreeExpr(); ex->type = EXPR_TYPE_STRUCT; ex->un.structure.exp1 = exp; ex->un.structure.element_name = element; return ex; } struct expr * DEBUG_StructPExpr(struct expr * exp, const char * element) { struct expr * ex; ex = DEBUG_GetFreeExpr(); ex->type = EXPR_TYPE_PSTRUCT; ex->un.structure.exp1 = exp; ex->un.structure.element_name = element; return ex; } struct expr * DEBUG_CallExpr(const char * funcname, int nargs, ...) { struct expr * ex; va_list ap; int i; ex = DEBUG_GetFreeExpr(); ex->type = EXPR_TYPE_CALL; ex->un.call.funcname = funcname; ex->un.call.nargs = nargs; va_start(ap, nargs); for(i=0; i < nargs; i++) { ex->un.call.arg[i] = va_arg(ap, struct expr *); } va_end(ap); return ex; } DBG_ADDR DEBUG_EvalExpr(struct expr * exp) { DBG_ADDR rtn; int i; DBG_ADDR exp1; DBG_ADDR exp2; unsigned int cexp[5]; int (*fptr)(); int scale1; int scale2; int scale3; struct datatype * type1; struct datatype * type2; rtn.type = NULL; rtn.off = NULL; rtn.seg = NULL; switch(exp->type) { case EXPR_TYPE_CAST: rtn = DEBUG_EvalExpr(exp->un.cast.expr); rtn.type = exp->un.cast.cast; break; case EXPR_TYPE_STRING: rtn.type = DEBUG_TypeString; rtn.off = (unsigned int) &exp->un.string.str; rtn.seg = 0; break; case EXPR_TYPE_CONST: rtn.type = DEBUG_TypeIntConst; rtn.off = (unsigned int) &exp->un.constant.value; rtn.seg = 0; break; case EXPR_TYPE_US_CONST: rtn.type = DEBUG_TypeUSInt; rtn.off = (unsigned int) &exp->un.u_const.value; rtn.seg = 0; break; case EXPR_TYPE_SYMBOL: if( !DEBUG_GetSymbolValue(exp->un.symbol.name, -1, &rtn, FALSE ) ) { rtn.type = NULL; rtn.off = 0; rtn.seg = 0; }; break; case EXPR_TYPE_PSTRUCT: exp1 = DEBUG_EvalExpr(exp->un.structure.exp1); if( exp1.type == NULL ) { break; } rtn.off = DEBUG_TypeDerefPointer(&exp1, &type1); if( type1 == NULL ) { break; } rtn.type = type1; DEBUG_FindStructElement(&rtn, exp->un.structure.element_name, &exp->un.structure.result); break; case EXPR_TYPE_STRUCT: exp1 = DEBUG_EvalExpr(exp->un.structure.exp1); if( exp1.type == NULL ) { break; } rtn = exp1; DEBUG_FindStructElement(&rtn, exp->un.structure.element_name, &exp->un.structure.result); break; case EXPR_TYPE_CALL: /* * First, evaluate all of the arguments. If any of them are not * evaluable, then bail. */ for(i=0; i < exp->un.call.nargs; i++) { exp1 = DEBUG_EvalExpr(exp->un.call.arg[i]); if( exp1.type == NULL ) { return rtn; } cexp[i] = DEBUG_GetExprValue(&exp1, NULL); } /* * Now look up the address of the function itself. */ if( !DEBUG_GetSymbolValue(exp->un.call.funcname, -1, &rtn, FALSE ) ) { fprintf(stderr, "Failed to find symbol\n"); break; }; fptr = (int (*)()) rtn.off; switch(exp->un.call.nargs) { case 0: exp->un.call.result = (*fptr)(); break; case 1: exp->un.call.result = (*fptr)(cexp[0]); break; case 2: exp->un.call.result = (*fptr)(cexp[0], cexp[1]); break; case 3: exp->un.call.result = (*fptr)(cexp[0], cexp[1], cexp[2]); break; case 4: exp->un.call.result = (*fptr)(cexp[0], cexp[1], cexp[2], cexp[3]); break; case 5: exp->un.call.result = (*fptr)(cexp[0], cexp[1], cexp[2], cexp[3], cexp[4]); break; } rtn.type = DEBUG_TypeInt; rtn.off = (unsigned int) &exp->un.call.result; break; case EXPR_TYPE_REGISTER: rtn.type = DEBUG_TypeIntConst; exp->un.rgister.result = DEBUG_GetRegister(exp->un.rgister.reg); rtn.off = (unsigned int) &exp->un.rgister.result; if( exp->un.rgister.reg == REG_EIP ) rtn.seg = CS_reg(&DEBUG_context); else rtn.seg = DS_reg(&DEBUG_context); DBG_FIX_ADDR_SEG( &rtn, 0 ); break; case EXPR_TYPE_BINOP: exp1 = DEBUG_EvalExpr(exp->un.binop.exp1); exp2 = DEBUG_EvalExpr(exp->un.binop.exp2); if( exp1.type == NULL || exp2.type == NULL ) { break; } if( exp1.type == DEBUG_TypeIntConst && exp2.type == DEBUG_TypeIntConst ) { rtn.type = exp1.type; } else { rtn.type = DEBUG_TypeInt; } rtn.off = (unsigned int) &exp->un.binop.result; switch(exp->un.binop.binop_type) { case EXP_OP_ADD: type1 = DEBUG_GetPointerType(exp1.type); type2 = DEBUG_GetPointerType(exp2.type); scale1 = 1; scale2 = 1; if( type1 != NULL && type2 != NULL ) { break; } else if( type1 != NULL ) { scale2 = DEBUG_GetObjectSize(type1); rtn.type = exp1.type; } else if( type2 != NULL ) { scale1 = DEBUG_GetObjectSize(type2); rtn.type = exp2.type; } rtn.seg = 0; exp->un.binop.result = (VAL(exp1) * scale1 + scale2 * VAL(exp2)); break; case EXP_OP_SUB: type1 = DEBUG_GetPointerType(exp1.type); type2 = DEBUG_GetPointerType(exp2.type); scale1 = 1; scale2 = 1; scale3 = 1; if( type1 != NULL && type2 != NULL ) { if( type1 != type2 ) { break; } scale3 = DEBUG_GetObjectSize(type1); } else if( type1 != NULL ) { scale2 = DEBUG_GetObjectSize(type1); rtn.type = exp1.type; } else if( type2 != NULL ) { scale1 = DEBUG_GetObjectSize(type2); rtn.type = exp2.type; } rtn.seg = 0; exp->un.binop.result = (VAL(exp1) - VAL(exp2)) / scale3; break; case EXP_OP_SEG: rtn.seg = VAL(exp1); exp->un.binop.result = VAL(exp2); if (ISV86(&DEBUG_context)) { TDB *pTask = (TDB*)GlobalLock16( GetCurrentTask() ); rtn.seg |= (DWORD)(pTask?(pTask->hModule):0)<<16; GlobalUnlock16( GetCurrentTask() ); } break; case EXP_OP_LOR: rtn.seg = 0; exp->un.binop.result = (VAL(exp1) || VAL(exp2)); break; case EXP_OP_LAND: rtn.seg = 0; exp->un.binop.result = (VAL(exp1) && VAL(exp2)); break; case EXP_OP_OR: rtn.seg = 0; exp->un.binop.result = (VAL(exp1) | VAL(exp2)); break; case EXP_OP_AND: rtn.seg = 0; exp->un.binop.result = (VAL(exp1) & VAL(exp2)); break; case EXP_OP_XOR: rtn.seg = 0; exp->un.binop.result = (VAL(exp1) ^ VAL(exp2)); break; case EXP_OP_EQ: rtn.seg = 0; exp->un.binop.result = (VAL(exp1) == VAL(exp2)); break; case EXP_OP_GT: rtn.seg = 0; exp->un.binop.result = (VAL(exp1) > VAL(exp2)); break; case EXP_OP_LT: rtn.seg = 0; exp->un.binop.result = (VAL(exp1) < VAL(exp2)); break; case EXP_OP_GE: rtn.seg = 0; exp->un.binop.result = (VAL(exp1) >= VAL(exp2)); break; case EXP_OP_LE: rtn.seg = 0; exp->un.binop.result = (VAL(exp1) <= VAL(exp2)); break; case EXP_OP_NE: rtn.seg = 0; exp->un.binop.result = (VAL(exp1) != VAL(exp2)); break; case EXP_OP_SHL: rtn.seg = 0; exp->un.binop.result = ((unsigned) VAL(exp1) << VAL(exp2)); break; case EXP_OP_SHR: rtn.seg = 0; exp->un.binop.result = ((unsigned) VAL(exp1) >> VAL(exp2)); break; case EXP_OP_MUL: rtn.seg = 0; exp->un.binop.result = (VAL(exp1) * VAL(exp2)); break; case EXP_OP_DIV: if( VAL(exp2) != 0 ) { rtn.seg = 0; exp->un.binop.result = (VAL(exp1) / VAL(exp2)); } else { rtn.seg = 0; rtn.type = NULL; rtn.off = 0; } break; case EXP_OP_REM: if( VAL(exp2) != 0 ) { rtn.seg = 0; exp->un.binop.result = (VAL(exp1) % VAL(exp2)); } else { rtn.seg = 0; rtn.type = NULL; rtn.off = 0; } break; case EXP_OP_ARR: DEBUG_ArrayIndex(&exp1, &rtn, VAL(exp2)); break; default: break; } break; case EXPR_TYPE_UNOP: exp1 = DEBUG_EvalExpr(exp->un.unop.exp1); if( exp1.type == NULL ) { break; } rtn.off = (unsigned int) &exp->un.unop.result; if( exp1.type == DEBUG_TypeIntConst ) { rtn.type = exp1.type; } else { rtn.type = DEBUG_TypeInt; } switch(exp->un.binop.binop_type) { case EXP_OP_NEG: rtn.seg = 0; exp->un.unop.result = -VAL(exp1); break; case EXP_OP_NOT: rtn.seg = 0; exp->un.unop.result = !VAL(exp1); break; case EXP_OP_LNOT: rtn.seg = 0; exp->un.unop.result = ~VAL(exp1); break; case EXP_OP_DEREF: rtn.seg = 0; rtn.off = (unsigned int) DEBUG_TypeDerefPointer(&exp1, &rtn.type); break; case EXP_OP_FORCE_DEREF: rtn.seg = 0; rtn.off = *(unsigned int *) exp1.off; break; case EXP_OP_ADDR: rtn.seg = 0; rtn.type = DEBUG_FindOrMakePointerType(exp1.type); exp->un.unop.result = exp1.off; break; } break; default: fprintf(stderr,"Unexpected expression.\n"); exit(123); break; } return rtn; } int DEBUG_DisplayExpr(struct expr * exp) { int i; switch(exp->type) { case EXPR_TYPE_CAST: fprintf(stderr, "(("); DEBUG_PrintTypeCast(exp->un.cast.cast); fprintf(stderr, ")"); DEBUG_DisplayExpr(exp->un.cast.expr); fprintf(stderr, ")"); break; case EXPR_TYPE_REGISTER: DEBUG_PrintRegister(exp->un.rgister.reg); break; case EXPR_TYPE_US_CONST: fprintf(stderr, "%ud", exp->un.u_const.value); break; case EXPR_TYPE_CONST: fprintf(stderr, "%d", exp->un.u_const.value); break; case EXPR_TYPE_STRING: fprintf(stderr, "\"%s\"", exp->un.string.str); break; case EXPR_TYPE_SYMBOL: fprintf(stderr, "%s" , exp->un.symbol.name); break; case EXPR_TYPE_PSTRUCT: DEBUG_DisplayExpr(exp->un.structure.exp1); fprintf(stderr, "->%s", exp->un.structure.element_name); break; case EXPR_TYPE_STRUCT: DEBUG_DisplayExpr(exp->un.structure.exp1); fprintf(stderr, ".%s", exp->un.structure.element_name); break; case EXPR_TYPE_CALL: /* * First, evaluate all of the arguments. If any of them are not * evaluable, then bail. */ fprintf(stderr, "%s(",exp->un.call.funcname); for(i=0; i < exp->un.call.nargs; i++) { DEBUG_DisplayExpr(exp->un.call.arg[i]); if( i != exp->un.call.nargs - 1 ) { fprintf(stderr, ", "); } } fprintf(stderr, ")"); break; case EXPR_TYPE_BINOP: fprintf(stderr, "( "); DEBUG_DisplayExpr(exp->un.binop.exp1); switch(exp->un.binop.binop_type) { case EXP_OP_ADD: fprintf(stderr, " + "); break; case EXP_OP_SUB: fprintf(stderr, " - "); break; case EXP_OP_SEG: fprintf(stderr, ":"); break; case EXP_OP_LOR: fprintf(stderr, " || "); break; case EXP_OP_LAND: fprintf(stderr, " && "); break; case EXP_OP_OR: fprintf(stderr, " | "); break; case EXP_OP_AND: fprintf(stderr, " & "); break; case EXP_OP_XOR: fprintf(stderr, " ^ "); break; case EXP_OP_EQ: fprintf(stderr, " == "); break; case EXP_OP_GT: fprintf(stderr, " > "); break; case EXP_OP_LT: fprintf(stderr, " < "); break; case EXP_OP_GE: fprintf(stderr, " >= "); break; case EXP_OP_LE: fprintf(stderr, " <= "); break; case EXP_OP_NE: fprintf(stderr, " != "); break; case EXP_OP_SHL: fprintf(stderr, " << "); break; case EXP_OP_SHR: fprintf(stderr, " >> "); break; case EXP_OP_MUL: fprintf(stderr, " * "); break; case EXP_OP_DIV: fprintf(stderr, " / "); break; case EXP_OP_REM: fprintf(stderr, " %% "); break; case EXP_OP_ARR: fprintf(stderr, "["); break; default: break; } DEBUG_DisplayExpr(exp->un.binop.exp2); if( exp->un.binop.binop_type == EXP_OP_ARR ) { fprintf(stderr, "]"); } fprintf(stderr, " )"); break; case EXPR_TYPE_UNOP: switch(exp->un.binop.binop_type) { case EXP_OP_NEG: fprintf(stderr, "-"); break; case EXP_OP_NOT: fprintf(stderr, "!"); break; case EXP_OP_LNOT: fprintf(stderr, "~"); break; case EXP_OP_DEREF: fprintf(stderr, "*"); break; case EXP_OP_ADDR: fprintf(stderr, "&"); break; } DEBUG_DisplayExpr(exp->un.unop.exp1); break; default: fprintf(stderr,"Unexpected expression.\n"); exit(123); break; } return TRUE; } struct expr * DEBUG_CloneExpr(struct expr * exp) { int i; struct expr * rtn; rtn = (struct expr *) xmalloc(sizeof(struct expr)); /* * First copy the contents of the expression itself. */ *rtn = *exp; switch(exp->type) { case EXPR_TYPE_CAST: rtn->un.cast.expr = DEBUG_CloneExpr(exp->un.cast.expr); break; case EXPR_TYPE_REGISTER: case EXPR_TYPE_US_CONST: case EXPR_TYPE_CONST: break; case EXPR_TYPE_STRING: rtn->un.string.str = xstrdup(exp->un.string.str); break; case EXPR_TYPE_SYMBOL: rtn->un.symbol.name = xstrdup(exp->un.symbol.name); break; case EXPR_TYPE_PSTRUCT: case EXPR_TYPE_STRUCT: rtn->un.structure.exp1 = DEBUG_CloneExpr(exp->un.structure.exp1); rtn->un.structure.element_name = xstrdup(exp->un.structure.element_name); break; case EXPR_TYPE_CALL: /* * First, evaluate all of the arguments. If any of them are not * evaluable, then bail. */ for(i=0; i < exp->un.call.nargs; i++) { rtn->un.call.arg[i] = DEBUG_CloneExpr(exp->un.call.arg[i]); } rtn->un.call.funcname = xstrdup(exp->un.call.funcname); break; case EXPR_TYPE_BINOP: rtn->un.binop.exp1 = DEBUG_CloneExpr(exp->un.binop.exp1); rtn->un.binop.exp2 = DEBUG_CloneExpr(exp->un.binop.exp2); break; case EXPR_TYPE_UNOP: rtn->un.unop.exp1 = DEBUG_CloneExpr(exp->un.unop.exp1); break; default: fprintf(stderr,"Unexpected expression.\n"); exit(123); break; } return rtn; } /* * Recursively go through an expression tree and free all memory associated * with it. */ int DEBUG_FreeExpr(struct expr * exp) { int i; switch(exp->type) { case EXPR_TYPE_CAST: DEBUG_FreeExpr(exp->un.cast.expr); break; case EXPR_TYPE_REGISTER: case EXPR_TYPE_US_CONST: case EXPR_TYPE_CONST: break; case EXPR_TYPE_STRING: free((char *) exp->un.string.str); break; case EXPR_TYPE_SYMBOL: free((char *) exp->un.symbol.name); break; case EXPR_TYPE_PSTRUCT: case EXPR_TYPE_STRUCT: DEBUG_FreeExpr(exp->un.structure.exp1); free((char *) exp->un.structure.element_name); break; case EXPR_TYPE_CALL: /* * First, evaluate all of the arguments. If any of them are not * evaluable, then bail. */ for(i=0; i < exp->un.call.nargs; i++) { DEBUG_FreeExpr(exp->un.call.arg[i]); } free((char *) exp->un.call.funcname); break; case EXPR_TYPE_BINOP: DEBUG_FreeExpr(exp->un.binop.exp1); DEBUG_FreeExpr(exp->un.binop.exp2); break; case EXPR_TYPE_UNOP: DEBUG_FreeExpr(exp->un.unop.exp1); break; default: fprintf(stderr,"Unexpected expression.\n"); exit(123); break; } free(exp); return TRUE; }