/* * msvcrt.dll C++ objects * * Copyright 2000 Jon Griffiths * Copyright 2003, 2004 Alexandre Julliard * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #include "config.h" #include "wine/port.h" #include #include "windef.h" #include "winbase.h" #include "winreg.h" #include "winternl.h" #include "wine/exception.h" #include "excpt.h" #include "wine/debug.h" #include "msvcrt.h" #include "cppexcept.h" #include "mtdll.h" WINE_DEFAULT_DEBUG_CHANNEL(msvcrt); typedef exception bad_cast; typedef exception bad_typeid; typedef exception __non_rtti_object; typedef struct _rtti_base_descriptor { const type_info *type_descriptor; int num_base_classes; this_ptr_offsets offsets; /* offsets for computing the this pointer */ unsigned int attributes; } rtti_base_descriptor; typedef struct _rtti_base_array { const rtti_base_descriptor *bases[3]; /* First element is the class itself */ } rtti_base_array; typedef struct _rtti_object_hierarchy { unsigned int signature; unsigned int attributes; int array_len; /* Size of the array pointed to by 'base_classes' */ const rtti_base_array *base_classes; } rtti_object_hierarchy; typedef struct _rtti_object_locator { unsigned int signature; int base_class_offset; unsigned int flags; const type_info *type_descriptor; const rtti_object_hierarchy *type_hierarchy; } rtti_object_locator; #ifdef __i386__ /* thiscall functions are i386-specific */ #define THISCALL(func) __thiscall_ ## func #define THISCALL_NAME(func) __ASM_NAME("__thiscall_" #func) #define DEFINE_THISCALL_WRAPPER(func) \ extern void THISCALL(func)(); \ __ASM_GLOBAL_FUNC(__thiscall_ ## func, \ "popl %eax\n\t" \ "pushl %ecx\n\t" \ "pushl %eax\n\t" \ "jmp " __ASM_NAME(#func) ) #else /* __i386__ */ #define THISCALL(func) func #define THISCALL_NAME(func) __ASM_NAME(#func) #define DEFINE_THISCALL_WRAPPER(func) /* nothing */ #endif /* __i386__ */ extern const vtable_ptr MSVCRT_exception_vtable; extern const vtable_ptr MSVCRT_bad_typeid_vtable; extern const vtable_ptr MSVCRT_bad_cast_vtable; extern const vtable_ptr MSVCRT___non_rtti_object_vtable; extern const vtable_ptr MSVCRT_type_info_vtable; static inline const rtti_object_locator *get_obj_locator( void *cppobj ) { const vtable_ptr *vtable = get_vtable( cppobj ); return (const rtti_object_locator *)vtable[-1]; } static void dump_obj_locator( const rtti_object_locator *ptr ) { int i; const rtti_object_hierarchy *h = ptr->type_hierarchy; TRACE( "%p: sig=%08x base_offset=%08x flags=%08x type=%p %s hierarchy=%p\n", ptr, ptr->signature, ptr->base_class_offset, ptr->flags, ptr->type_descriptor, dbgstr_type_info(ptr->type_descriptor), ptr->type_hierarchy ); TRACE( " hierarchy: sig=%08x attr=%08x len=%d base classes=%p\n", h->signature, h->attributes, h->array_len, h->base_classes ); for (i = 0; i < h->array_len; i++) { TRACE( " base class %p: num %d off %d,%d,%d attr %08x type %p %s\n", h->base_classes->bases[i], h->base_classes->bases[i]->num_base_classes, h->base_classes->bases[i]->offsets.this_offset, h->base_classes->bases[i]->offsets.vbase_descr, h->base_classes->bases[i]->offsets.vbase_offset, h->base_classes->bases[i]->attributes, h->base_classes->bases[i]->type_descriptor, dbgstr_type_info(h->base_classes->bases[i]->type_descriptor) ); } } /* Internal common ctor for exception */ static void WINAPI EXCEPTION_ctor(exception *_this, const char** name) { _this->vtable = &MSVCRT_exception_vtable; if (*name) { size_t name_len = strlen(*name) + 1; _this->name = MSVCRT_malloc(name_len); memcpy(_this->name, *name, name_len); _this->do_free = TRUE; } else { _this->name = NULL; _this->do_free = FALSE; } } /****************************************************************** * ??0exception@@QAE@ABQBD@Z (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT_exception_ctor); exception * __stdcall MSVCRT_exception_ctor(exception * _this, const char ** name) { TRACE("(%p,%s)\n", _this, *name); EXCEPTION_ctor(_this, name); return _this; } /****************************************************************** * ??0exception@@QAE@ABV0@@Z (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT_exception_copy_ctor); exception * __stdcall MSVCRT_exception_copy_ctor(exception * _this, const exception * rhs) { TRACE("(%p,%p)\n", _this, rhs); if (!rhs->do_free) { _this->vtable = &MSVCRT_exception_vtable; _this->name = rhs->name; _this->do_free = FALSE; } else EXCEPTION_ctor(_this, (const char**)&rhs->name); TRACE("name = %s\n", _this->name); return _this; } /****************************************************************** * ??0exception@@QAE@XZ (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT_exception_default_ctor); exception * __stdcall MSVCRT_exception_default_ctor(exception * _this) { static const char* empty = NULL; TRACE("(%p)\n", _this); EXCEPTION_ctor(_this, &empty); return _this; } /****************************************************************** * ??1exception@@UAE@XZ (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT_exception_dtor); void __stdcall MSVCRT_exception_dtor(exception * _this) { TRACE("(%p)\n", _this); _this->vtable = &MSVCRT_exception_vtable; if (_this->do_free) MSVCRT_free(_this->name); } /****************************************************************** * ??4exception@@QAEAAV0@ABV0@@Z (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT_exception_opequals); exception * __stdcall MSVCRT_exception_opequals(exception * _this, const exception * rhs) { TRACE("(%p %p)\n", _this, rhs); if (_this != rhs) { MSVCRT_exception_dtor(_this); MSVCRT_exception_copy_ctor(_this, rhs); } TRACE("name = %s\n", _this->name); return _this; } /****************************************************************** * ??_Eexception@@UAEPAXI@Z (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT_exception_vector_dtor); void * __stdcall MSVCRT_exception_vector_dtor(exception * _this, unsigned int flags) { TRACE("(%p %x)\n", _this, flags); if (flags & 2) { /* we have an array, with the number of elements stored before the first object */ int i, *ptr = (int *)_this - 1; for (i = *ptr - 1; i >= 0; i--) MSVCRT_exception_dtor(_this + i); MSVCRT_operator_delete(ptr); } else { MSVCRT_exception_dtor(_this); if (flags & 1) MSVCRT_operator_delete(_this); } return _this; } /****************************************************************** * ??_Gexception@@UAEPAXI@Z (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT_exception_scalar_dtor); void * __stdcall MSVCRT_exception_scalar_dtor(exception * _this, unsigned int flags) { TRACE("(%p %x)\n", _this, flags); MSVCRT_exception_dtor(_this); if (flags & 1) MSVCRT_operator_delete(_this); return _this; } /****************************************************************** * ?what@exception@@UBEPBDXZ (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT_what_exception); const char * __stdcall MSVCRT_what_exception(exception * _this) { TRACE("(%p) returning %s\n", _this, _this->name); return _this->name ? _this->name : "Unknown exception"; } /****************************************************************** * ??0bad_typeid@@QAE@ABV0@@Z (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT_bad_typeid_copy_ctor); bad_typeid * __stdcall MSVCRT_bad_typeid_copy_ctor(bad_typeid * _this, const bad_typeid * rhs) { TRACE("(%p %p)\n", _this, rhs); MSVCRT_exception_copy_ctor(_this, rhs); _this->vtable = &MSVCRT_bad_typeid_vtable; return _this; } /****************************************************************** * ??0bad_typeid@@QAE@PBD@Z (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT_bad_typeid_ctor); bad_typeid * __stdcall MSVCRT_bad_typeid_ctor(bad_typeid * _this, const char * name) { TRACE("(%p %s)\n", _this, name); EXCEPTION_ctor(_this, &name); _this->vtable = &MSVCRT_bad_typeid_vtable; return _this; } /****************************************************************** * ??1bad_typeid@@UAE@XZ (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT_bad_typeid_dtor); void __stdcall MSVCRT_bad_typeid_dtor(bad_typeid * _this) { TRACE("(%p)\n", _this); MSVCRT_exception_dtor(_this); } /****************************************************************** * ??4bad_typeid@@QAEAAV0@ABV0@@Z (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT_bad_typeid_opequals); bad_typeid * __stdcall MSVCRT_bad_typeid_opequals(bad_typeid * _this, const bad_typeid * rhs) { TRACE("(%p %p)\n", _this, rhs); MSVCRT_exception_opequals(_this, rhs); return _this; } /****************************************************************** * ??_Ebad_typeid@@UAEPAXI@Z (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT_bad_typeid_vector_dtor); void * __stdcall MSVCRT_bad_typeid_vector_dtor(bad_typeid * _this, unsigned int flags) { TRACE("(%p %x)\n", _this, flags); if (flags & 2) { /* we have an array, with the number of elements stored before the first object */ int i, *ptr = (int *)_this - 1; for (i = *ptr - 1; i >= 0; i--) MSVCRT_bad_typeid_dtor(_this + i); MSVCRT_operator_delete(ptr); } else { MSVCRT_bad_typeid_dtor(_this); if (flags & 1) MSVCRT_operator_delete(_this); } return _this; } /****************************************************************** * ??_Gbad_typeid@@UAEPAXI@Z (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT_bad_typeid_scalar_dtor); void * __stdcall MSVCRT_bad_typeid_scalar_dtor(bad_typeid * _this, unsigned int flags) { TRACE("(%p %x)\n", _this, flags); MSVCRT_bad_typeid_dtor(_this); if (flags & 1) MSVCRT_operator_delete(_this); return _this; } /****************************************************************** * ??0__non_rtti_object@@QAE@ABV0@@Z (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT___non_rtti_object_copy_ctor); __non_rtti_object * __stdcall MSVCRT___non_rtti_object_copy_ctor(__non_rtti_object * _this, const __non_rtti_object * rhs) { TRACE("(%p %p)\n", _this, rhs); MSVCRT_bad_typeid_copy_ctor(_this, rhs); _this->vtable = &MSVCRT___non_rtti_object_vtable; return _this; } /****************************************************************** * ??0__non_rtti_object@@QAE@PBD@Z (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT___non_rtti_object_ctor); __non_rtti_object * __stdcall MSVCRT___non_rtti_object_ctor(__non_rtti_object * _this, const char * name) { TRACE("(%p %s)\n", _this, name); EXCEPTION_ctor(_this, &name); _this->vtable = &MSVCRT___non_rtti_object_vtable; return _this; } /****************************************************************** * ??1__non_rtti_object@@UAE@XZ (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT___non_rtti_object_dtor); void __stdcall MSVCRT___non_rtti_object_dtor(__non_rtti_object * _this) { TRACE("(%p)\n", _this); MSVCRT_bad_typeid_dtor(_this); } /****************************************************************** * ??4__non_rtti_object@@QAEAAV0@ABV0@@Z (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT___non_rtti_object_opequals); __non_rtti_object * __stdcall MSVCRT___non_rtti_object_opequals(__non_rtti_object * _this, const __non_rtti_object *rhs) { TRACE("(%p %p)\n", _this, rhs); MSVCRT_bad_typeid_opequals(_this, rhs); return _this; } /****************************************************************** * ??_E__non_rtti_object@@UAEPAXI@Z (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT___non_rtti_object_vector_dtor); void * __stdcall MSVCRT___non_rtti_object_vector_dtor(__non_rtti_object * _this, unsigned int flags) { TRACE("(%p %x)\n", _this, flags); if (flags & 2) { /* we have an array, with the number of elements stored before the first object */ int i, *ptr = (int *)_this - 1; for (i = *ptr - 1; i >= 0; i--) MSVCRT___non_rtti_object_dtor(_this + i); MSVCRT_operator_delete(ptr); } else { MSVCRT___non_rtti_object_dtor(_this); if (flags & 1) MSVCRT_operator_delete(_this); } return _this; } /****************************************************************** * ??_G__non_rtti_object@@UAEPAXI@Z (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT___non_rtti_object_scalar_dtor); void * __stdcall MSVCRT___non_rtti_object_scalar_dtor(__non_rtti_object * _this, unsigned int flags) { TRACE("(%p %x)\n", _this, flags); MSVCRT___non_rtti_object_dtor(_this); if (flags & 1) MSVCRT_operator_delete(_this); return _this; } /****************************************************************** * ??0bad_cast@@QAE@ABQBD@Z (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT_bad_cast_ctor); bad_cast * __stdcall MSVCRT_bad_cast_ctor(bad_cast * _this, const char ** name) { TRACE("(%p %s)\n", _this, *name); EXCEPTION_ctor(_this, name); _this->vtable = &MSVCRT_bad_cast_vtable; return _this; } /****************************************************************** * ??0bad_cast@@QAE@ABV0@@Z (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT_bad_cast_copy_ctor); bad_cast * __stdcall MSVCRT_bad_cast_copy_ctor(bad_cast * _this, const bad_cast * rhs) { TRACE("(%p %p)\n", _this, rhs); MSVCRT_exception_copy_ctor(_this, rhs); _this->vtable = &MSVCRT_bad_cast_vtable; return _this; } /****************************************************************** * ??1bad_cast@@UAE@XZ (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT_bad_cast_dtor); void __stdcall MSVCRT_bad_cast_dtor(bad_cast * _this) { TRACE("(%p)\n", _this); MSVCRT_exception_dtor(_this); } /****************************************************************** * ??4bad_cast@@QAEAAV0@ABV0@@Z (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT_bad_cast_opequals); bad_cast * __stdcall MSVCRT_bad_cast_opequals(bad_cast * _this, const bad_cast * rhs) { TRACE("(%p %p)\n", _this, rhs); MSVCRT_exception_opequals(_this, rhs); return _this; } /****************************************************************** * ??_Ebad_cast@@UAEPAXI@Z (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT_bad_cast_vector_dtor); void * __stdcall MSVCRT_bad_cast_vector_dtor(bad_cast * _this, unsigned int flags) { TRACE("(%p %x)\n", _this, flags); if (flags & 2) { /* we have an array, with the number of elements stored before the first object */ int i, *ptr = (int *)_this - 1; for (i = *ptr - 1; i >= 0; i--) MSVCRT_bad_cast_dtor(_this + i); MSVCRT_operator_delete(ptr); } else { MSVCRT_bad_cast_dtor(_this); if (flags & 1) MSVCRT_operator_delete(_this); } return _this; } /****************************************************************** * ??_Gbad_cast@@UAEPAXI@Z (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT_bad_cast_scalar_dtor); void * __stdcall MSVCRT_bad_cast_scalar_dtor(bad_cast * _this, unsigned int flags) { TRACE("(%p %x)\n", _this, flags); MSVCRT_bad_cast_dtor(_this); if (flags & 1) MSVCRT_operator_delete(_this); return _this; } /****************************************************************** * ??8type_info@@QBEHABV0@@Z (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT_type_info_opequals_equals); int __stdcall MSVCRT_type_info_opequals_equals(type_info * _this, const type_info * rhs) { int ret = !strcmp(_this->mangled + 1, rhs->mangled + 1); TRACE("(%p %p) returning %d\n", _this, rhs, ret); return ret; } /****************************************************************** * ??9type_info@@QBEHABV0@@Z (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT_type_info_opnot_equals); int __stdcall MSVCRT_type_info_opnot_equals(type_info * _this, const type_info * rhs) { int ret = !!strcmp(_this->mangled + 1, rhs->mangled + 1); TRACE("(%p %p) returning %d\n", _this, rhs, ret); return ret; } /****************************************************************** * ?before@type_info@@QBEHABV1@@Z (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT_type_info_before); int __stdcall MSVCRT_type_info_before(type_info * _this, const type_info * rhs) { int ret = strcmp(_this->mangled + 1, rhs->mangled + 1) < 0; TRACE("(%p %p) returning %d\n", _this, rhs, ret); return ret; } /****************************************************************** * ??1type_info@@UAE@XZ (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT_type_info_dtor); void __stdcall MSVCRT_type_info_dtor(type_info * _this) { TRACE("(%p)\n", _this); MSVCRT_free(_this->name); } /****************************************************************** * ?name@type_info@@QBEPBDXZ (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT_type_info_name); const char * __stdcall MSVCRT_type_info_name(type_info * _this) { if (!_this->name) { /* Create and set the demangled name */ /* Nota: mangled name in type_info struct always start with a '.', while * it isn't valid for mangled name. * Is this '.' really part of the mangled name, or has it some other meaning ? */ char* name = __unDName(0, _this->mangled + 1, 0, MSVCRT_malloc, MSVCRT_free, 0x2800); if (name) { unsigned int len = strlen(name); /* It seems _unDName may leave blanks at the end of the demangled name */ while (len && name[--len] == ' ') name[len] = '\0'; _mlock(_EXIT_LOCK2); if (_this->name) { /* Another thread set this member since we checked above - use it */ MSVCRT_free(name); } else _this->name = name; _munlock(_EXIT_LOCK2); } } TRACE("(%p) returning %s\n", _this, _this->name); return _this->name; } /****************************************************************** * ?raw_name@type_info@@QBEPBDXZ (MSVCRT.@) */ DEFINE_THISCALL_WRAPPER(MSVCRT_type_info_raw_name); const char * __stdcall MSVCRT_type_info_raw_name(type_info * _this) { TRACE("(%p) returning %s\n", _this, _this->mangled); return _this->mangled; } /* Unexported */ DEFINE_THISCALL_WRAPPER(MSVCRT_type_info_vector_dtor); void * __stdcall MSVCRT_type_info_vector_dtor(type_info * _this, unsigned int flags) { TRACE("(%p %x)\n", _this, flags); if (flags & 2) { /* we have an array, with the number of elements stored before the first object */ int i, *ptr = (int *)_this - 1; for (i = *ptr - 1; i >= 0; i--) MSVCRT_type_info_dtor(_this + i); MSVCRT_operator_delete(ptr); } else { MSVCRT_type_info_dtor(_this); if (flags & 1) MSVCRT_operator_delete(_this); } return _this; } /* vtables */ #define __ASM_VTABLE(name,funcs) \ __asm__(".data\n" \ "\t.align 4\n" \ "\t.long " __ASM_NAME(#name "_rtti") "\n" \ "\t.globl " __ASM_NAME("MSVCRT_" #name "_vtable") "\n" \ __ASM_NAME("MSVCRT_" #name "_vtable") ":\n" \ "\t.long " THISCALL_NAME(MSVCRT_ ## name ## _vector_dtor) "\n" \ funcs "\n\t.text"); #define __ASM_EXCEPTION_VTABLE(name) \ __ASM_VTABLE(name, "\t.long " THISCALL_NAME(MSVCRT_what_exception) ); #ifndef __GNUC__ void __asm_dummy_vtables(void) { #endif __ASM_VTABLE(type_info,""); __ASM_EXCEPTION_VTABLE(exception); __ASM_EXCEPTION_VTABLE(bad_typeid); __ASM_EXCEPTION_VTABLE(bad_cast); __ASM_EXCEPTION_VTABLE(__non_rtti_object); #ifndef __GNUC__ } #endif /* Static RTTI for exported objects */ static const type_info exception_type_info = { &MSVCRT_type_info_vtable, NULL, ".?AVexception@@" }; static const rtti_base_descriptor exception_rtti_base_descriptor = { &exception_type_info, 0, { 0, -1, 0 }, 0 }; static const rtti_base_array exception_rtti_base_array = { { &exception_rtti_base_descriptor, NULL, NULL } }; static const rtti_object_hierarchy exception_type_hierarchy = { 0, 0, 1, &exception_rtti_base_array }; const rtti_object_locator exception_rtti = { 0, 0, 0, &exception_type_info, &exception_type_hierarchy }; static const cxx_type_info exception_cxx_type_info = { 0, &exception_type_info, { 0, -1, 0 }, sizeof(exception), (cxx_copy_ctor)THISCALL(MSVCRT_exception_copy_ctor) }; static const type_info bad_typeid_type_info = { &MSVCRT_type_info_vtable, NULL, ".?AVbad_typeid@@" }; static const rtti_base_descriptor bad_typeid_rtti_base_descriptor = { &bad_typeid_type_info, 1, { 0, -1, 0 }, 0 }; static const rtti_base_array bad_typeid_rtti_base_array = { { &bad_typeid_rtti_base_descriptor, &exception_rtti_base_descriptor, NULL } }; static const rtti_object_hierarchy bad_typeid_type_hierarchy = { 0, 0, 2, &bad_typeid_rtti_base_array }; const rtti_object_locator bad_typeid_rtti = { 0, 0, 0, &bad_typeid_type_info, &bad_typeid_type_hierarchy }; static const cxx_type_info bad_typeid_cxx_type_info = { 0, &bad_typeid_type_info, { 0, -1, 0 }, sizeof(exception), (cxx_copy_ctor)THISCALL(MSVCRT_bad_typeid_copy_ctor) }; static const type_info bad_cast_type_info = { &MSVCRT_type_info_vtable, NULL, ".?AVbad_cast@@" }; static const rtti_base_descriptor bad_cast_rtti_base_descriptor = { &bad_cast_type_info, 1, { 0, -1, 0 }, 0 }; static const rtti_base_array bad_cast_rtti_base_array = { { &bad_cast_rtti_base_descriptor, &exception_rtti_base_descriptor, NULL } }; static const rtti_object_hierarchy bad_cast_type_hierarchy = { 0, 0, 2, &bad_cast_rtti_base_array }; const rtti_object_locator bad_cast_rtti = { 0, 0, 0, &bad_cast_type_info, &bad_cast_type_hierarchy }; static const cxx_type_info bad_cast_cxx_type_info = { 0, &bad_cast_type_info, { 0, -1, 0 }, sizeof(exception), (cxx_copy_ctor)THISCALL(MSVCRT_bad_cast_copy_ctor) }; static const type_info __non_rtti_object_type_info = { &MSVCRT_type_info_vtable, NULL, ".?AV__non_rtti_object@@" }; static const rtti_base_descriptor __non_rtti_object_rtti_base_descriptor = { &__non_rtti_object_type_info, 2, { 0, -1, 0 }, 0 }; static const rtti_base_array __non_rtti_object_rtti_base_array = { { &__non_rtti_object_rtti_base_descriptor, &bad_typeid_rtti_base_descriptor, &exception_rtti_base_descriptor } }; static const rtti_object_hierarchy __non_rtti_object_type_hierarchy = { 0, 0, 3, &__non_rtti_object_rtti_base_array }; const rtti_object_locator __non_rtti_object_rtti = { 0, 0, 0, &__non_rtti_object_type_info, &__non_rtti_object_type_hierarchy }; static const cxx_type_info __non_rtti_object_cxx_type_info = { 0, &__non_rtti_object_type_info, { 0, -1, 0 }, sizeof(exception), (cxx_copy_ctor)THISCALL(MSVCRT___non_rtti_object_copy_ctor) }; static const type_info type_info_type_info = { &MSVCRT_type_info_vtable, NULL, ".?AVtype_info@@" }; static const rtti_base_descriptor type_info_rtti_base_descriptor = { &type_info_type_info, 0, { 0, -1, 0 }, 0 }; static const rtti_base_array type_info_rtti_base_array = { { &type_info_rtti_base_descriptor, NULL, NULL } }; static const rtti_object_hierarchy type_info_type_hierarchy = { 0, 0, 1, &type_info_rtti_base_array }; const rtti_object_locator type_info_rtti = { 0, 0, 0, &type_info_type_info, &type_info_type_hierarchy }; /* * Exception RTTI for cpp objects */ static const cxx_type_info_table bad_cast_type_info_table = { 3, { &__non_rtti_object_cxx_type_info, &bad_typeid_cxx_type_info, &exception_cxx_type_info } }; static const cxx_exception_type bad_cast_exception_type = { 0, (void*)THISCALL(MSVCRT_bad_cast_dtor), NULL, &bad_cast_type_info_table }; static const cxx_type_info_table bad_typeid_type_info_table = { 2, { &bad_cast_cxx_type_info, &exception_cxx_type_info, NULL } }; static const cxx_exception_type bad_typeid_exception_type = { 0, (void*)THISCALL(MSVCRT_bad_typeid_dtor), NULL, &bad_cast_type_info_table }; static const cxx_exception_type __non_rtti_object_exception_type = { 0, (void*)THISCALL(MSVCRT___non_rtti_object_dtor), NULL, &bad_typeid_type_info_table }; /****************************************************************** * ?set_terminate@@YAP6AXXZP6AXXZ@Z (MSVCRT.@) * * Install a handler to be called when terminate() is called. * * PARAMS * func [I] Handler function to install * * RETURNS * The previously installed handler function, if any. */ MSVCRT_terminate_function CDECL MSVCRT_set_terminate(MSVCRT_terminate_function func) { thread_data_t *data = msvcrt_get_thread_data(); MSVCRT_terminate_function previous = data->terminate_handler; TRACE("(%p) returning %p\n",func,previous); data->terminate_handler = func; return previous; } /****************************************************************** * ?set_unexpected@@YAP6AXXZP6AXXZ@Z (MSVCRT.@) * * Install a handler to be called when unexpected() is called. * * PARAMS * func [I] Handler function to install * * RETURNS * The previously installed handler function, if any. */ MSVCRT_unexpected_function CDECL MSVCRT_set_unexpected(MSVCRT_unexpected_function func) { thread_data_t *data = msvcrt_get_thread_data(); MSVCRT_unexpected_function previous = data->unexpected_handler; TRACE("(%p) returning %p\n",func,previous); data->unexpected_handler = func; return previous; } /****************************************************************** * ?_set_se_translator@@YAP6AXIPAU_EXCEPTION_POINTERS@@@ZP6AXI0@Z@Z (MSVCRT.@) */ MSVCRT__se_translator_function CDECL MSVCRT__set_se_translator(MSVCRT__se_translator_function func) { thread_data_t *data = msvcrt_get_thread_data(); MSVCRT__se_translator_function previous = data->se_translator; TRACE("(%p) returning %p\n",func,previous); data->se_translator = func; return previous; } /****************************************************************** * ?terminate@@YAXXZ (MSVCRT.@) * * Default handler for an unhandled exception. * * PARAMS * None. * * RETURNS * This function does not return. Either control resumes from any * handler installed by calling set_terminate(), or (by default) abort() * is called. */ void CDECL MSVCRT_terminate(void) { thread_data_t *data = msvcrt_get_thread_data(); if (data->terminate_handler) data->terminate_handler(); MSVCRT_abort(); } /****************************************************************** * ?unexpected@@YAXXZ (MSVCRT.@) */ void CDECL MSVCRT_unexpected(void) { thread_data_t *data = msvcrt_get_thread_data(); if (data->unexpected_handler) data->unexpected_handler(); MSVCRT_terminate(); } /****************************************************************** * __RTtypeid (MSVCRT.@) * * Retrieve the Run Time Type Information (RTTI) for a C++ object. * * PARAMS * cppobj [I] C++ object to get type information for. * * RETURNS * Success: A type_info object describing cppobj. * Failure: If the object to be cast has no RTTI, a __non_rtti_object * exception is thrown. If cppobj is NULL, a bad_typeid exception * is thrown. In either case, this function does not return. * * NOTES * This function is usually called by compiler generated code as a result * of using one of the C++ dynamic cast statements. */ const type_info* CDECL MSVCRT___RTtypeid(void *cppobj) { const type_info *ret; if (!cppobj) { bad_typeid e; MSVCRT_bad_typeid_ctor( &e, "Attempted a typeid of NULL pointer!" ); _CxxThrowException( &e, &bad_typeid_exception_type ); return NULL; } __TRY { const rtti_object_locator *obj_locator = get_obj_locator( cppobj ); ret = obj_locator->type_descriptor; } __EXCEPT_PAGE_FAULT { __non_rtti_object e; MSVCRT___non_rtti_object_ctor( &e, "Bad read pointer - no RTTI data!" ); _CxxThrowException( &e, &bad_typeid_exception_type ); return NULL; } __ENDTRY return ret; } /****************************************************************** * __RTDynamicCast (MSVCRT.@) * * Dynamically cast a C++ object to one of its base classes. * * PARAMS * cppobj [I] Any C++ object to cast * unknown [I] Reserved, set to 0 * src [I] type_info object describing cppobj * dst [I] type_info object describing the base class to cast to * do_throw [I] TRUE = throw an exception if the cast fails, FALSE = don't * * RETURNS * Success: The address of cppobj, cast to the object described by dst. * Failure: NULL, If the object to be cast has no RTTI, or dst is not a * valid cast for cppobj. If do_throw is TRUE, a bad_cast exception * is thrown and this function does not return. * * NOTES * This function is usually called by compiler generated code as a result * of using one of the C++ dynamic cast statements. */ void* CDECL MSVCRT___RTDynamicCast(void *cppobj, int unknown, type_info *src, type_info *dst, int do_throw) { void *ret; if (!cppobj) return NULL; TRACE("obj: %p unknown: %d src: %p %s dst: %p %s do_throw: %d)\n", cppobj, unknown, src, dbgstr_type_info(src), dst, dbgstr_type_info(dst), do_throw); if (unknown) FIXME("Unknown parameter is non-zero: please report\n"); /* To cast an object at runtime: * 1.Find out the true type of the object from the typeinfo at vtable[-1] * 2.Search for the destination type in the class hierarchy * 3.If destination type is found, return base object address + dest offset * Otherwise, fail the cast */ __TRY { int i; const rtti_object_locator *obj_locator = get_obj_locator( cppobj ); const rtti_object_hierarchy *obj_bases = obj_locator->type_hierarchy; const rtti_base_descriptor * const* base_desc = obj_bases->base_classes->bases; if (TRACE_ON(msvcrt)) dump_obj_locator(obj_locator); ret = NULL; for (i = 0; i < obj_bases->array_len; i++) { const type_info *typ = base_desc[i]->type_descriptor; if (!strcmp(typ->mangled, dst->mangled)) { /* compute the correct this pointer for that base class */ void *this_ptr = (char *)cppobj - obj_locator->base_class_offset; ret = get_this_pointer( &base_desc[i]->offsets, this_ptr ); break; } } /* VC++ sets do_throw to 1 when the result of a dynamic_cast is assigned * to a reference, since references cannot be NULL. */ if (!ret && do_throw) { const char *msg = "Bad dynamic_cast!"; bad_cast e; MSVCRT_bad_cast_ctor( &e, &msg ); _CxxThrowException( &e, &bad_cast_exception_type ); } } __EXCEPT_PAGE_FAULT { __non_rtti_object e; MSVCRT___non_rtti_object_ctor( &e, "Access violation - no RTTI data!" ); _CxxThrowException( &e, &bad_typeid_exception_type ); return NULL; } __ENDTRY return ret; } /****************************************************************** * __RTCastToVoid (MSVCRT.@) * * Dynamically cast a C++ object to a void*. * * PARAMS * cppobj [I] The C++ object to cast * * RETURNS * Success: The base address of the object as a void*. * Failure: NULL, if cppobj is NULL or has no RTTI. * * NOTES * This function is usually called by compiler generated code as a result * of using one of the C++ dynamic cast statements. */ void* CDECL MSVCRT___RTCastToVoid(void *cppobj) { void *ret; if (!cppobj) return NULL; __TRY { const rtti_object_locator *obj_locator = get_obj_locator( cppobj ); ret = (char *)cppobj - obj_locator->base_class_offset; } __EXCEPT_PAGE_FAULT { __non_rtti_object e; MSVCRT___non_rtti_object_ctor( &e, "Access violation - no RTTI data!" ); _CxxThrowException( &e, &bad_typeid_exception_type ); return NULL; } __ENDTRY return ret; }