reactos/rostests/winetests/ole32/propvariant.c

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/*
* PropVariant Tests
*
* Copyright 2004 Robert Shearman
*
* 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 "windows.h"
#define WIN32_NO_STATUS
#define _INC_WINDOWS
#define COM_NO_WINDOWS_H
#include <stdarg.h>
#include <windef.h>
#include <winbase.h>
#include <winnls.h>
#include <ddeml.h>
#include <ole2.h>
#include <wine/test.h>
/* invalid in all versions */
#define PROP_INV 0x7f
/* valid in v0 and above (NT4+) */
#define PROP_V0 0
/* valid in v1 and above (Win2k+) */
#define PROP_V1 1
/* valid in v1a and above (WinXP+) */
#define PROP_V1A 2
#define PROP_TODO 0x80
static const struct valid_mapping
{
BYTE simple;
BYTE with_array;
BYTE with_vector;
BYTE byref;
} valid_types[] =
{
{ PROP_V0 , PROP_INV, PROP_INV, PROP_INV }, /* VT_EMPTY */
{ PROP_V0 , PROP_INV, PROP_INV, PROP_INV }, /* VT_NULL */
{ PROP_V0 , PROP_V1 | PROP_TODO , PROP_V0 , PROP_V1 | PROP_TODO }, /* VT_I2 */
{ PROP_V0 , PROP_V1 | PROP_TODO , PROP_V0 , PROP_V1 | PROP_TODO }, /* VT_I4 */
{ PROP_V0 , PROP_V1 | PROP_TODO , PROP_V0 , PROP_V1 | PROP_TODO }, /* VT_R4 */
{ PROP_V0 , PROP_V1 | PROP_TODO , PROP_V0 , PROP_V1 | PROP_TODO }, /* VT_R8 */
{ PROP_V0 , PROP_V1 | PROP_TODO , PROP_V0 , PROP_V1 | PROP_TODO }, /* VT_CY */
{ PROP_V0 , PROP_V1 | PROP_TODO , PROP_V0 , PROP_V1 | PROP_TODO }, /* VT_DATE */
{ PROP_V0 , PROP_V1 | PROP_TODO , PROP_V0 , PROP_V1 | PROP_TODO }, /* VT_BSTR */
{ PROP_V1 | PROP_TODO , PROP_V1 | PROP_TODO , PROP_INV, PROP_V1 | PROP_TODO }, /* VT_DISPATCH */
{ PROP_V0 , PROP_V1 | PROP_TODO , PROP_V0 , PROP_V1 | PROP_TODO }, /* VT_ERROR */
{ PROP_V0 , PROP_V1 | PROP_TODO , PROP_V0 , PROP_V1 | PROP_TODO }, /* VT_BOOL */
{ PROP_V1 | PROP_TODO , PROP_V1 | PROP_TODO , PROP_V0 , PROP_V1 | PROP_TODO }, /* VT_VARIANT */
{ PROP_V1 | PROP_TODO , PROP_V1 | PROP_TODO , PROP_INV, PROP_V1 | PROP_TODO }, /* VT_UNKNOWN */
{ PROP_V1 , PROP_V1 | PROP_TODO , PROP_INV, PROP_V1 | PROP_TODO }, /* VT_DECIMAL */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 15 */
{ PROP_V1 , PROP_V1 | PROP_TODO , PROP_V1 , PROP_V1 | PROP_TODO }, /* VT_I1 */
{ PROP_V0 , PROP_V1 | PROP_TODO , PROP_V0 , PROP_V1 | PROP_TODO }, /* VT_UI1 */
{ PROP_V0 , PROP_V1 | PROP_TODO , PROP_V0 , PROP_V1 | PROP_TODO }, /* VT_UI2 */
{ PROP_V0 , PROP_V1 | PROP_TODO , PROP_V0 , PROP_V1 | PROP_TODO }, /* VT_UI4 */
{ PROP_V0 , PROP_V1A | PROP_TODO, PROP_V0 , PROP_V1A | PROP_TODO }, /* VT_I8 */
{ PROP_V0 , PROP_V1A | PROP_TODO, PROP_V0 , PROP_V1A | PROP_TODO }, /* VT_UI8 */
{ PROP_V1 , PROP_V1 | PROP_TODO , PROP_INV, PROP_V1 | PROP_TODO }, /* VT_INT */
{ PROP_V1 , PROP_V1 | PROP_TODO , PROP_INV, PROP_V1 | PROP_TODO }, /* VT_UINT */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* VT_VOID */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* VT_HRESULT */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* VT_PTR */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* VT_SAFEARRAY */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* VT_CARRAY */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* VT_USERDEFINED */
{ PROP_V0 , PROP_INV, PROP_V0 , PROP_INV }, /* VT_LPSTR */
{ PROP_V0 , PROP_INV, PROP_V0 , PROP_INV }, /* VT_LPWSTR */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 32 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 33 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 34 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 35 */
{ PROP_V1 | PROP_TODO , PROP_V1 | PROP_TODO , PROP_INV, PROP_V1 | PROP_TODO }, /* VT_RECORD */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* VT_INT_PTR */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* VT_UINT_PTR */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 39 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 40 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 41 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 42 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 43 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 44 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 45 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 46 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 47 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 48 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 49 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 50 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 51 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 52 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 53 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 54 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 55 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 56 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 57 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 58 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 59 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 60 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 61 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 62 */
{ PROP_INV, PROP_INV, PROP_INV, PROP_INV }, /* 63 */
{ PROP_V0 , PROP_INV, PROP_V0 , PROP_INV }, /* VT_FILETIME */
{ PROP_V0 , PROP_INV, PROP_INV, PROP_INV }, /* VT_BLOB */
{ PROP_V0 , PROP_INV, PROP_INV, PROP_INV }, /* VT_STREAM */
{ PROP_V0 , PROP_INV, PROP_INV, PROP_INV }, /* VT_STORAGE */
{ PROP_V0 , PROP_INV, PROP_INV, PROP_INV }, /* VT_STREAMED_OBJECT */
{ PROP_V0 , PROP_INV, PROP_INV, PROP_INV }, /* VT_STORED_OBJECT */
{ PROP_V0 , PROP_INV, PROP_INV, PROP_INV }, /* VT_BLOB_OBJECT */
{ PROP_V0 , PROP_INV, PROP_V0 , PROP_INV } /* VT_CF */
};
static const char* wine_vtypes[VT_CLSID+1] =
{
"VT_EMPTY","VT_NULL","VT_I2","VT_I4","VT_R4","VT_R8","VT_CY","VT_DATE",
"VT_BSTR","VT_DISPATCH","VT_ERROR","VT_BOOL","VT_VARIANT","VT_UNKNOWN",
"VT_DECIMAL","15","VT_I1","VT_UI1","VT_UI2","VT_UI4","VT_I8","VT_UI8",
"VT_INT","VT_UINT","VT_VOID","VT_HRESULT","VT_PTR","VT_SAFEARRAY",
"VT_CARRAY","VT_USERDEFINED","VT_LPSTR","VT_LPWSTR","32","33","34","35",
"VT_RECORD","VT_INT_PTR","VT_UINT_PTR","39","40","41","42","43","44","45",
"46","47","48","49","50","51","52","53","54","55","56","57","58","59","60",
"61","62","63","VT_FILETIME","VT_BLOB","VT_STREAM","VT_STORAGE",
"VT_STREAMED_OBJECT","VT_STORED_OBJECT","VT_BLOB_OBJECT","VT_CF","VT_CLSID"
};
static void expect(HRESULT hr, VARTYPE vt, BOOL copy)
{
int idx = vt & VT_TYPEMASK;
BYTE flags;
const char *modifier;
if(vt & VT_BYREF)
{
flags = valid_types[idx].byref;
modifier = "byref";
}
else if(vt & VT_ARRAY)
{
flags = valid_types[idx].with_array;
modifier = "array";
}
else if(vt & VT_VECTOR)
{
flags = valid_types[idx].with_vector;
modifier = "vector";
}
else
{
flags = valid_types[idx].simple;
modifier = "simple";
}
if(flags == PROP_INV)
ok(hr == copy ? DISP_E_BADVARTYPE : STG_E_INVALIDPARAMETER, "%s (%s): got %08x\n", wine_vtypes[idx], modifier, hr);
else if(flags == PROP_V0)
ok(hr == S_OK, "%s (%s): got %08x\n", wine_vtypes[idx], modifier, hr);
else if(flags & PROP_TODO)
{
todo_wine
{
if(hr != S_OK)
win_skip("%s (%s): unsupported\n", wine_vtypes[idx], modifier);
else ok(hr == S_OK, "%s (%s): got %08x\n", wine_vtypes[idx], modifier, hr);
}
}
else
{
if(hr != S_OK)
win_skip("%s (%s): unsupported\n", wine_vtypes[idx], modifier);
else ok(hr == S_OK, "%s (%s): got %08x\n", wine_vtypes[idx], modifier, hr);
}
}
static void test_validtypes(void)
{
PROPVARIANT propvar, copy, uninit;
HRESULT hr;
unsigned int i, ret;
memset(&uninit, 0x77, sizeof(uninit));
memset(&propvar, 0x55, sizeof(propvar));
hr = PropVariantClear(&propvar);
ok(hr == STG_E_INVALIDPARAMETER, "expected STG_E_INVALIDPARAMETER, got %08x\n", hr);
ok(propvar.vt == 0, "expected 0, got %d\n", propvar.vt);
ok(U(propvar).uhVal.QuadPart == 0, "expected 0, got %#x/%#x\n",
U(propvar).uhVal.u.LowPart, U(propvar).uhVal.u.HighPart);
for (i = 0; i < sizeof(valid_types)/sizeof(valid_types[0]); i++)
{
VARTYPE vt;
memset(&propvar, 0x55, sizeof(propvar));
if (i == VT_RECORD)
memset(&propvar, 0, sizeof(propvar));
else if (i == VT_BLOB || i == VT_BLOB_OBJECT)
{
U(propvar).blob.cbSize = 0;
U(propvar).blob.pBlobData = NULL;
}
else
U(propvar).pszVal = NULL;
vt = propvar.vt = i;
memset(&copy, 0x77, sizeof(copy));
hr = PropVariantCopy(&copy, &propvar);
expect(hr, vt, TRUE);
if (hr == S_OK)
{
ok(copy.vt == propvar.vt, "expected %d, got %d\n", propvar.vt, copy.vt);
ok(U(copy).uhVal.QuadPart == U(propvar).uhVal.QuadPart, "%u: expected %#x/%#x, got %#x/%#x\n",
i, U(propvar).uhVal.u.LowPart, U(propvar).uhVal.u.HighPart,
U(copy).uhVal.u.LowPart, U(copy).uhVal.u.HighPart);
}
else
{
ret = memcmp(&copy, &uninit, sizeof(copy));
ok(!ret || broken(ret) /* win2000 */, "%d: copy should stay unchanged\n", i);
}
hr = PropVariantClear(&propvar);
expect(hr, vt, FALSE);
ok(propvar.vt == 0, "expected 0, got %d\n", propvar.vt);
ok(U(propvar).uhVal.QuadPart == 0, "%u: expected 0, got %#x/%#x\n",
i, U(propvar).uhVal.u.LowPart, U(propvar).uhVal.u.HighPart);
memset(&propvar, 0x55, sizeof(propvar));
U(propvar).pszVal = NULL;
vt = propvar.vt = i | VT_ARRAY;
memset(&copy, 0x77, sizeof(copy));
hr = PropVariantCopy(&copy, &propvar);
expect(hr, vt, TRUE);
if (hr == S_OK)
{
ok(copy.vt == propvar.vt, "expected %d, got %d\n", propvar.vt, copy.vt);
ok(U(copy).uhVal.QuadPart == 0, "%u: expected 0, got %#x/%#x\n",
i, U(copy).uhVal.u.LowPart, U(copy).uhVal.u.HighPart);
}
else
{
ret = memcmp(&copy, &uninit, sizeof(copy));
ok(!ret || broken(ret) /* win2000 */, "%d: copy should stay unchanged\n", i);
}
hr = PropVariantClear(&propvar);
expect(hr, vt, FALSE);
ok(propvar.vt == 0, "expected 0, got %d\n", propvar.vt);
ok(U(propvar).uhVal.QuadPart == 0, "%u: expected 0, got %#x/%#x\n",
i, U(propvar).uhVal.u.LowPart, U(propvar).uhVal.u.HighPart);
memset(&propvar, 0x55, sizeof(propvar));
U(propvar).caub.cElems = 0;
U(propvar).caub.pElems = NULL;
vt = propvar.vt = i | VT_VECTOR;
memset(&copy, 0x77, sizeof(copy));
hr = PropVariantCopy(&copy, &propvar);
expect(hr, vt, TRUE);
if (hr == S_OK)
{
ok(copy.vt == propvar.vt, "expected %d, got %d\n", propvar.vt, copy.vt);
ok(!U(copy).caub.cElems, "%u: expected 0, got %d\n", i, U(copy).caub.cElems);
ok(!U(copy).caub.pElems, "%u: expected NULL, got %p\n", i, U(copy).caub.pElems);
}
else
{
ret = memcmp(&copy, &uninit, sizeof(copy));
ok(!ret || broken(ret) /* win2000 */, "%d: copy should stay unchanged\n", i);
}
hr = PropVariantClear(&propvar);
expect(hr, vt, FALSE);
ok(propvar.vt == 0, "expected 0, got %d\n", propvar.vt);
ok(U(propvar).uhVal.QuadPart == 0, "%u: expected 0, got %#x/%#x\n",
i, U(propvar).uhVal.u.LowPart, U(propvar).uhVal.u.HighPart);
memset(&propvar, 0x55, sizeof(propvar));
U(propvar).pszVal = NULL;
vt = propvar.vt = i | VT_BYREF;
memset(&copy, 0x77, sizeof(copy));
hr = PropVariantCopy(&copy, &propvar);
expect(hr, vt, TRUE);
if (hr == S_OK)
{
ok(copy.vt == propvar.vt, "expected %d, got %d\n", propvar.vt, copy.vt);
ok(U(copy).uhVal.QuadPart == U(propvar).uhVal.QuadPart, "%u: expected %#x/%#x, got %#x/%#x\n",
i, U(propvar).uhVal.u.LowPart, U(propvar).uhVal.u.HighPart,
U(copy).uhVal.u.LowPart, U(copy).uhVal.u.HighPart);
}
else
{
ret = memcmp(&copy, &uninit, sizeof(copy));
ok(!ret || broken(ret) /* win2000 */, "%d: copy should stay unchanged\n", i);
}
hr = PropVariantClear(&propvar);
expect(hr, vt, FALSE);
ok(propvar.vt == 0, "expected 0, got %d\n", propvar.vt);
ok(U(propvar).uhVal.QuadPart == 0, "%u: expected 0, got %#x/%#x\n",
i, U(propvar).uhVal.u.LowPart, U(propvar).uhVal.u.HighPart);
}
}
static void test_copy(void)
{
static char szTestString[] = "Test String";
static WCHAR wszTestString[] = {'T','e','s','t',' ','S','t','r','i','n','g',0};
PROPVARIANT propvarSrc;
PROPVARIANT propvarDst;
HRESULT hr;
propvarSrc.vt = VT_BSTR;
U(propvarSrc).bstrVal = SysAllocString(wszTestString);
hr = PropVariantCopy(&propvarDst, &propvarSrc);
ok(hr == S_OK, "PropVariantCopy(...VT_BSTR...) failed\n");
ok(!lstrcmpW(U(propvarSrc).bstrVal, U(propvarDst).bstrVal), "BSTR not copied properly\n");
hr = PropVariantClear(&propvarSrc);
ok(hr == S_OK, "PropVariantClear(...VT_BSTR...) failed\n");
hr = PropVariantClear(&propvarDst);
ok(hr == S_OK, "PropVariantClear(...VT_BSTR...) failed\n");
propvarSrc.vt = VT_LPWSTR;
U(propvarSrc).pwszVal = wszTestString;
hr = PropVariantCopy(&propvarDst, &propvarSrc);
ok(hr == S_OK, "PropVariantCopy(...VT_LPWSTR...) failed\n");
ok(!lstrcmpW(U(propvarSrc).pwszVal, U(propvarDst).pwszVal), "Wide string not copied properly\n");
hr = PropVariantClear(&propvarDst);
ok(hr == S_OK, "PropVariantClear(...VT_LPWSTR...) failed\n");
memset(&propvarSrc, 0, sizeof(propvarSrc));
propvarSrc.vt = VT_LPSTR;
U(propvarSrc).pszVal = szTestString;
hr = PropVariantCopy(&propvarDst, &propvarSrc);
ok(hr == S_OK, "PropVariantCopy(...VT_LPSTR...) failed\n");
ok(!strcmp(U(propvarSrc).pszVal, U(propvarDst).pszVal), "String not copied properly\n");
hr = PropVariantClear(&propvarDst);
ok(hr == S_OK, "PropVariantClear(...VT_LPSTR...) failed\n");
memset(&propvarSrc, 0, sizeof(propvarSrc));
}
struct _PMemoryAllocator_vtable {
void *Allocate; /* virtual void* Allocate(ULONG cbSize); */
void *Free; /* virtual void Free(void *pv); */
};
typedef struct _PMemoryAllocator {
struct _PMemoryAllocator_vtable *vt;
} PMemoryAllocator;
#ifdef __i386__
#define __thiscall_wrapper __stdcall
#else
#define __thiscall_wrapper __cdecl
#endif
static void * __thiscall_wrapper PMemoryAllocator_Allocate(PMemoryAllocator *_this, ULONG cbSize)
{
return CoTaskMemAlloc(cbSize);
}
static void __thiscall_wrapper PMemoryAllocator_Free(PMemoryAllocator *_this, void *pv)
{
CoTaskMemFree(pv);
}
#ifdef __i386__
#include "pshpack1.h"
typedef struct
{
BYTE pop_eax; /* popl %eax */
BYTE push_ecx; /* pushl %ecx */
BYTE push_eax; /* pushl %eax */
BYTE jmp_func; /* jmp $func */
DWORD func;
} THISCALL_TO_STDCALL_THUNK;
#include "poppack.h"
static THISCALL_TO_STDCALL_THUNK *wrapperCodeMem = NULL;
static void fill_thunk(THISCALL_TO_STDCALL_THUNK *thunk, void *fn)
{
thunk->pop_eax = 0x58;
thunk->push_ecx = 0x51;
thunk->push_eax = 0x50;
thunk->jmp_func = 0xe9;
thunk->func = (char*)fn - (char*)(&thunk->func + 1);
}
static void setup_vtable(struct _PMemoryAllocator_vtable *vtable)
{
wrapperCodeMem = VirtualAlloc(NULL, 2 * sizeof(*wrapperCodeMem),
MEM_COMMIT, PAGE_EXECUTE_READWRITE);
fill_thunk(&wrapperCodeMem[0], PMemoryAllocator_Allocate);
fill_thunk(&wrapperCodeMem[1], PMemoryAllocator_Free);
vtable->Allocate = &wrapperCodeMem[0];
vtable->Free = &wrapperCodeMem[1];
}
#else
static void setup_vtable(struct _PMemoryAllocator_vtable *vtable)
{
vtable->Allocate = PMemoryAllocator_Allocate;
vtable->Free = PMemoryAllocator_Free;
}
#endif
static const char serialized_empty[] = {
0,0, /* VT_EMPTY */
0,0, /* padding */
};
static const char serialized_null[] = {
1,0, /* VT_NULL */
0,0, /* padding */
};
static const char serialized_i4[] = {
3,0, /* VT_I4 */
0,0, /* padding */
0xef,0xcd,0xab,0xfe
};
static const char serialized_bstr_wc[] = {
8,0, /* VT_BSTR */
0,0, /* padding */
10,0,0,0, /* size */
't',0,'e',0,
's',0,'t',0,
0,0,0,0
};
static const char serialized_bstr_mb[] = {
8,0, /* VT_BSTR */
0,0, /* padding */
5,0,0,0, /* size */
't','e','s','t',
0,0,0,0
};
static void test_propertytovariant(void)
{
HANDLE hole32;
BOOLEAN (__stdcall *pStgConvertPropertyToVariant)(const SERIALIZEDPROPERTYVALUE*,USHORT,PROPVARIANT*,PMemoryAllocator*);
PROPVARIANT propvar;
PMemoryAllocator allocator;
struct _PMemoryAllocator_vtable vtable;
BOOLEAN ret;
static const WCHAR test_string[] = {'t','e','s','t',0};
hole32 = GetModuleHandleA("ole32");
pStgConvertPropertyToVariant = (void*)GetProcAddress(hole32, "StgConvertPropertyToVariant");
if (!pStgConvertPropertyToVariant)
{
win_skip("StgConvertPropertyToVariant not available\n");
return;
}
setup_vtable(&vtable);
allocator.vt = &vtable;
ret = pStgConvertPropertyToVariant((SERIALIZEDPROPERTYVALUE*)serialized_empty,
CP_WINUNICODE, &propvar, &allocator);
ok(ret == 0, "StgConvertPropertyToVariant returned %i\n", ret);
ok(propvar.vt == VT_EMPTY, "unexpected vt %x\n", propvar.vt);
ret = pStgConvertPropertyToVariant((SERIALIZEDPROPERTYVALUE*)serialized_null,
CP_WINUNICODE, &propvar, &allocator);
ok(ret == 0, "StgConvertPropertyToVariant returned %i\n", ret);
ok(propvar.vt == VT_NULL, "unexpected vt %x\n", propvar.vt);
ret = pStgConvertPropertyToVariant((SERIALIZEDPROPERTYVALUE*)serialized_i4,
CP_WINUNICODE, &propvar, &allocator);
ok(ret == 0, "StgConvertPropertyToVariant returned %i\n", ret);
ok(propvar.vt == VT_I4, "unexpected vt %x\n", propvar.vt);
ok(U(propvar).lVal == 0xfeabcdef, "unexpected lVal %x\n", U(propvar).lVal);
ret = pStgConvertPropertyToVariant((SERIALIZEDPROPERTYVALUE*)serialized_bstr_wc,
CP_WINUNICODE, &propvar, &allocator);
ok(ret == 0, "StgConvertPropertyToVariant returned %i\n", ret);
ok(propvar.vt == VT_BSTR, "unexpected vt %x\n", propvar.vt);
ok(!lstrcmpW(U(propvar).bstrVal, test_string), "unexpected string value\n");
PropVariantClear(&propvar);
ret = pStgConvertPropertyToVariant((SERIALIZEDPROPERTYVALUE*)serialized_bstr_mb,
CP_UTF8, &propvar, &allocator);
ok(ret == 0, "StgConvertPropertyToVariant returned %i\n", ret);
ok(propvar.vt == VT_BSTR, "unexpected vt %x\n", propvar.vt);
ok(!lstrcmpW(U(propvar).bstrVal, test_string), "unexpected string value\n");
PropVariantClear(&propvar);
}
static void test_varianttoproperty(void)
{
HANDLE hole32;
PROPVARIANT propvar;
SERIALIZEDPROPERTYVALUE *propvalue, *own_propvalue;
SERIALIZEDPROPERTYVALUE* (__stdcall *pStgConvertVariantToProperty)(
const PROPVARIANT*,USHORT,SERIALIZEDPROPERTYVALUE*,ULONG*,PROPID,BOOLEAN,ULONG*);
ULONG len;
static const WCHAR test_string[] = {'t','e','s','t',0};
BSTR test_string_bstr;
hole32 = GetModuleHandleA("ole32");
pStgConvertVariantToProperty = (void*)GetProcAddress(hole32, "StgConvertVariantToProperty");
if (!pStgConvertVariantToProperty)
{
win_skip("StgConvertVariantToProperty not available\n");
return;
}
own_propvalue = HeapAlloc(GetProcessHeap(), 0, sizeof(SERIALIZEDPROPERTYVALUE) + 20);
PropVariantInit(&propvar);
propvar.vt = VT_I4;
U(propvar).lVal = 0xfeabcdef;
len = 0xdeadbeef;
propvalue = pStgConvertVariantToProperty(&propvar, CP_WINUNICODE, NULL, &len,
0, FALSE, 0);
ok(propvalue == NULL, "got nonnull propvalue\n");
todo_wine ok(len == 8, "unexpected length %d\n", len);
if (len == 0xdeadbeef)
{
HeapFree(GetProcessHeap(), 0, own_propvalue);
return;
}
len = 20;
propvalue = pStgConvertVariantToProperty(&propvar, CP_WINUNICODE, own_propvalue, &len,
0, FALSE, 0);
ok(propvalue == own_propvalue, "unexpected propvalue %p\n", propvalue);
ok(len == 8, "unexpected length %d\n", len);
ok(!memcmp(propvalue, serialized_i4, 8), "got wrong data\n");
propvar.vt = VT_EMPTY;
len = 20;
own_propvalue->dwType = 0xdeadbeef;
propvalue = pStgConvertVariantToProperty(&propvar, CP_WINUNICODE, own_propvalue, &len,
0, FALSE, 0);
ok(propvalue == own_propvalue, "unexpected propvalue %p\n", propvalue);
ok(len == 4 || broken(len == 0) /* before Vista */, "unexpected length %d\n", len);
if (len) ok(!memcmp(propvalue, serialized_empty, 4), "got wrong data\n");
else ok(propvalue->dwType == 0xdeadbeef, "unexpected type %d\n", propvalue->dwType);
propvar.vt = VT_NULL;
len = 20;
propvalue = pStgConvertVariantToProperty(&propvar, CP_WINUNICODE, own_propvalue, &len,
0, FALSE, 0);
ok(propvalue == own_propvalue, "unexpected propvalue %p\n", propvalue);
ok(len == 4, "unexpected length %d\n", len);
ok(!memcmp(propvalue, serialized_null, 4), "got wrong data\n");
test_string_bstr = SysAllocString(test_string);
propvar.vt = VT_BSTR;
U(propvar).bstrVal = test_string_bstr;
len = 20;
propvalue = pStgConvertVariantToProperty(&propvar, CP_WINUNICODE, own_propvalue, &len,
0, FALSE, 0);
ok(propvalue == own_propvalue, "unexpected propvalue %p\n", propvalue);
ok(len == 20, "unexpected length %d\n", len);
ok(!memcmp(propvalue, serialized_bstr_wc, 20), "got wrong data\n");
len = 20;
propvalue = pStgConvertVariantToProperty(&propvar, CP_UTF8, own_propvalue, &len,
0, FALSE, 0);
ok(propvalue == own_propvalue, "unexpected propvalue %p\n", propvalue);
ok(len == 16, "unexpected length %d\n", len);
ok(!memcmp(propvalue, serialized_bstr_mb, 16), "got wrong data\n");
SysFreeString(test_string_bstr);
HeapFree(GetProcessHeap(), 0, own_propvalue);
}
START_TEST(propvariant)
{
test_validtypes();
test_copy();
test_propertytovariant();
test_varianttoproperty();
}