Sweden-Number/dlls/shlwapi/tests/clist.c

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/* Unit test suite for SHLWAPI Compact List and IStream ordinal functions
*
* Copyright 2002 Jon Griffiths
*
* 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "wine/test.h"
#include "winbase.h"
#include "objbase.h"
typedef struct tagSHLWAPI_CLIST
{
ULONG ulSize;
ULONG ulId;
} SHLWAPI_CLIST, *LPSHLWAPI_CLIST;
typedef const SHLWAPI_CLIST* LPCSHLWAPI_CLIST;
/* Items to add */
static const SHLWAPI_CLIST SHLWAPI_CLIST_items[] =
{
{4, 1},
{8, 3},
{12, 2},
{16, 8},
{20, 9},
{3, 11},
{9, 82},
{33, 16},
{32, 55},
{24, 100},
{39, 116},
{ 0, 0}
};
/* Dummy IStream object for testing calls */
typedef struct
{
void* lpVtbl;
ULONG ref;
int readcalls;
BOOL failreadcall;
BOOL failreadsize;
BOOL readbeyondend;
BOOL readreturnlarge;
int writecalls;
BOOL failwritecall;
BOOL failwritesize;
int seekcalls;
int statcalls;
BOOL failstatcall;
LPCSHLWAPI_CLIST item;
ULARGE_INTEGER pos;
} _IDummyStream;
static
HRESULT WINAPI QueryInterface(_IDummyStream *This,REFIID riid, LPVOID *ppvObj)
{
return S_OK;
}
static ULONG WINAPI AddRef(_IDummyStream *This)
{
return ++This->ref;
}
static ULONG WINAPI Release(_IDummyStream *This)
{
return --This->ref;
}
static HRESULT WINAPI Read(_IDummyStream* This, LPVOID lpMem, ULONG ulSize,
LPULONG lpRead)
{
HRESULT hRet = S_OK;
++This->readcalls;
if (This->failreadcall)
{
return STG_E_ACCESSDENIED;
}
else if (This->failreadsize)
{
*lpRead = ulSize + 8;
return S_OK;
}
else if (This->readreturnlarge)
{
*((ULONG*)lpMem) = 0xffff01;
*lpRead = ulSize;
This->readreturnlarge = FALSE;
return S_OK;
}
if (ulSize == sizeof(ULONG))
{
/* Read size of item */
*((ULONG*)lpMem) = This->item->ulSize ? This->item->ulSize + sizeof(SHLWAPI_CLIST) : 0;
*lpRead = ulSize;
}
else
{
unsigned int i;
char* buff = (char*)lpMem;
/* Read item data */
if (!This->item->ulSize)
{
This->readbeyondend = TRUE;
*lpRead = 0;
return E_FAIL; /* Should never happen */
}
*((ULONG*)lpMem) = This->item->ulId;
*lpRead = ulSize;
for (i = 0; i < This->item->ulSize; i++)
buff[4+i] = i*2;
This->item++;
}
return hRet;
}
static HRESULT WINAPI Write(_IDummyStream* This, LPVOID lpMem, ULONG ulSize,
LPULONG lpWritten)
{
HRESULT hRet = S_OK;
++This->writecalls;
if (This->failwritecall)
{
return STG_E_ACCESSDENIED;
}
else if (This->failwritesize)
{
*lpWritten = 0;
}
else
*lpWritten = ulSize;
return hRet;
}
static HRESULT WINAPI Seek(_IDummyStream* This, LARGE_INTEGER dlibMove,
DWORD dwOrigin, ULARGE_INTEGER* plibNewPosition)
{
++This->seekcalls;
This->pos.QuadPart = dlibMove.QuadPart;
if (plibNewPosition)
plibNewPosition->QuadPart = dlibMove.QuadPart;
return S_OK;
}
static HRESULT WINAPI Stat(_IDummyStream* This, STATSTG* pstatstg,
DWORD grfStatFlag)
{
++This->statcalls;
if (This->failstatcall)
return E_FAIL;
if (pstatstg)
pstatstg->cbSize.QuadPart = This->pos.QuadPart;
return S_OK;
}
/* VTable */
static void* iclvt[] =
{
QueryInterface,
AddRef,
Release,
Read,
Write,
Seek,
NULL, /* SetSize */
NULL, /* CopyTo */
NULL, /* Commit */
NULL, /* Revert */
NULL, /* LockRegion */
NULL, /* UnlockRegion */
Stat,
NULL /* Clone */
};
/* Function ptrs for ordinal calls */
static HMODULE SHLWAPI_hshlwapi = 0;
static VOID (WINAPI *pSHLWAPI_19)(LPSHLWAPI_CLIST);
static HRESULT (WINAPI *pSHLWAPI_20)(LPSHLWAPI_CLIST*,LPCSHLWAPI_CLIST);
static BOOL (WINAPI *pSHLWAPI_21)(LPSHLWAPI_CLIST*,ULONG);
static LPSHLWAPI_CLIST (WINAPI *pSHLWAPI_22)(LPSHLWAPI_CLIST,ULONG);
static HRESULT (WINAPI *pSHLWAPI_17)(_IDummyStream*,LPSHLWAPI_CLIST);
static HRESULT (WINAPI *pSHLWAPI_18)(_IDummyStream*,LPSHLWAPI_CLIST*);
static BOOL (WINAPI *pSHLWAPI_166)(_IDummyStream*);
static HRESULT (WINAPI *pSHLWAPI_184)(_IDummyStream*,LPVOID,ULONG);
static HRESULT (WINAPI *pSHLWAPI_212)(_IDummyStream*,LPCVOID,ULONG);
static HRESULT (WINAPI *pSHLWAPI_213)(_IDummyStream*);
static HRESULT (WINAPI *pSHLWAPI_214)(_IDummyStream*,ULARGE_INTEGER*);
static void InitFunctionPtrs()
{
SHLWAPI_hshlwapi = LoadLibraryA("shlwapi.dll");
ok(SHLWAPI_hshlwapi != 0, "LoadLibrary failed");
if (SHLWAPI_hshlwapi)
{
pSHLWAPI_17 = (void *)GetProcAddress( SHLWAPI_hshlwapi, (LPSTR)17);
ok(pSHLWAPI_17 != 0, "No Ordinal 17");
pSHLWAPI_18 = (void *)GetProcAddress( SHLWAPI_hshlwapi, (LPSTR)18);
ok(pSHLWAPI_18 != 0, "No Ordinal 18");
pSHLWAPI_19 = (void *)GetProcAddress( SHLWAPI_hshlwapi, (LPSTR)19);
ok(pSHLWAPI_19 != 0, "No Ordinal 19");
pSHLWAPI_20 = (void *)GetProcAddress( SHLWAPI_hshlwapi, (LPSTR)20);
ok(pSHLWAPI_20 != 0, "No Ordinal 20");
pSHLWAPI_21 = (void *)GetProcAddress( SHLWAPI_hshlwapi, (LPSTR)21);
ok(pSHLWAPI_21 != 0, "No Ordinal 21");
pSHLWAPI_22 = (void *)GetProcAddress( SHLWAPI_hshlwapi, (LPSTR)22);
ok(pSHLWAPI_22 != 0, "No Ordinal 22");
pSHLWAPI_166 = (void *)GetProcAddress( SHLWAPI_hshlwapi, (LPSTR)166);
ok(pSHLWAPI_166 != 0, "No Ordinal 166");
pSHLWAPI_184 = (void *)GetProcAddress( SHLWAPI_hshlwapi, (LPSTR)184);
ok(pSHLWAPI_184 != 0, "No Ordinal 184");
pSHLWAPI_212 = (void *)GetProcAddress( SHLWAPI_hshlwapi, (LPSTR)212);
ok(pSHLWAPI_212 != 0, "No Ordinal 212");
pSHLWAPI_213 = (void *)GetProcAddress( SHLWAPI_hshlwapi, (LPSTR)213);
ok(pSHLWAPI_213 != 0, "No Ordinal 213");
pSHLWAPI_214 = (void *)GetProcAddress( SHLWAPI_hshlwapi, (LPSTR)214);
ok(pSHLWAPI_214 != 0, "No Ordinal 214");
}
}
static void InitDummyStream(_IDummyStream* iface)
{
iface->lpVtbl = (void*)iclvt;
iface->ref = 1;
iface->readcalls = 0;
iface->failreadcall = FALSE;
iface->failreadsize = FALSE;
iface->readbeyondend = FALSE;
iface->readreturnlarge = FALSE;
iface->writecalls = 0;
iface->failwritecall = FALSE;
iface->failwritesize = FALSE;
iface->seekcalls = 0;
iface->statcalls = 0;
iface->failstatcall = FALSE;
iface->item = SHLWAPI_CLIST_items;
iface->pos.QuadPart = 0;
}
static void test_CList(void)
{
_IDummyStream streamobj;
LPSHLWAPI_CLIST list = NULL;
LPCSHLWAPI_CLIST item = SHLWAPI_CLIST_items;
HRESULT hRet;
LPSHLWAPI_CLIST inserted;
char buff[64];
unsigned int i;
if (!pSHLWAPI_17 || !pSHLWAPI_18 || !pSHLWAPI_19 || !pSHLWAPI_20 ||
!pSHLWAPI_21 || !pSHLWAPI_22)
return;
/* Populate a list and test the items are added correctly */
while (item->ulSize)
{
/* Create item and fill with data */
inserted = (LPSHLWAPI_CLIST)buff;
inserted->ulSize = item->ulSize + sizeof(SHLWAPI_CLIST);
inserted->ulId = item->ulId;
for (i = 0; i < item->ulSize; i++)
buff[sizeof(SHLWAPI_CLIST)+i] = i*2;
/* Add it */
hRet = pSHLWAPI_20(&list, inserted);
ok(hRet > S_OK, "failed list add");
if (hRet > S_OK)
{
ok(list && list->ulSize, "item not added");
/* Find it */
inserted = pSHLWAPI_22(list, item->ulId);
ok(inserted != NULL, "lost after adding");
ok(!inserted || inserted->ulId != -1u, "find returned a container");
/* Check size */
if (inserted && inserted->ulSize & 0x3)
{
/* Contained */
ok(inserted[-1].ulId == -1u, "invalid size is not countained");
ok(inserted[-1].ulSize > inserted->ulSize+sizeof(SHLWAPI_CLIST),
"container too small");
}
else if (inserted)
{
ok(inserted->ulSize==item->ulSize+sizeof(SHLWAPI_CLIST),
"id %ld size wrong (%ld!=%ld)", inserted->ulId, inserted->ulSize,
item->ulSize+sizeof(SHLWAPI_CLIST));
}
if (inserted)
{
BOOL bDataOK = TRUE;
LPBYTE bufftest = (LPBYTE)inserted;
for (i = 0; i < inserted->ulSize - sizeof(SHLWAPI_CLIST); i++)
if (bufftest[sizeof(SHLWAPI_CLIST)+i] != i*2)
bDataOK = FALSE;
ok(bDataOK == TRUE, "data corrupted on insert");
}
ok(!inserted || inserted->ulId==item->ulId, "find got wrong item");
}
item++;
}
/* Write the list */
InitDummyStream(&streamobj);
hRet = pSHLWAPI_17(&streamobj, list);
ok(hRet == S_OK, "write failed");
if (hRet == S_OK)
{
/* 1 call for each element, + 1 for OK (use our null element for this) */
ok(streamobj.writecalls == sizeof(SHLWAPI_CLIST_items)/sizeof(SHLWAPI_CLIST),
"wrong call count");
ok(streamobj.readcalls == 0,"called Read() in write");
ok(streamobj.seekcalls == 0,"called Seek() in write");
}
/* Failure cases for writing */
InitDummyStream(&streamobj);
streamobj.failwritecall = TRUE;
hRet = pSHLWAPI_17(&streamobj, list);
ok(hRet == STG_E_ACCESSDENIED, "changed object failure return");
ok(streamobj.writecalls == 1, "called object after failure");
ok(streamobj.readcalls == 0,"called Read() after failure");
ok(streamobj.seekcalls == 0,"called Seek() after failure");
InitDummyStream(&streamobj);
streamobj.failwritesize = TRUE;
hRet = pSHLWAPI_17(&streamobj, list);
ok(hRet == STG_E_MEDIUMFULL, "changed size failure return");
ok(streamobj.writecalls == 1, "called object after size failure");
ok(streamobj.readcalls == 0,"called Read() after failure");
ok(streamobj.seekcalls == 0,"called Seek() after failure");
/* Invalid inputs for adding */
inserted = (LPSHLWAPI_CLIST)buff;
inserted->ulSize = sizeof(SHLWAPI_CLIST) -1;
inserted->ulId = 33;
hRet = pSHLWAPI_20(&list, inserted);
ok(hRet == E_INVALIDARG, "allowed bad element size");
inserted->ulSize = 44;
inserted->ulId = -1;
hRet = pSHLWAPI_20(&list, inserted);
ok(hRet == E_INVALIDARG, "allowed adding a container");
item = SHLWAPI_CLIST_items;
/* Look for non-existing item in populated list */
inserted = pSHLWAPI_22(list, 99999999);
ok(inserted == NULL, "found a non-existing item");
while (item->ulSize)
{
/* Delete items */
BOOL bRet = pSHLWAPI_21(&list, item->ulId);
ok(bRet == TRUE, "couldn't find item to delete");
item++;
}
/* Look for non-existing item in empty list */
inserted = pSHLWAPI_22(list, 99999999);
ok(inserted == NULL, "found an item in empty list");
/* Create a list by reading in data */
InitDummyStream(&streamobj);
hRet = pSHLWAPI_18(&streamobj, &list);
ok(hRet == S_OK, "failed create from Read()");
if (hRet == S_OK)
{
ok(streamobj.readbeyondend == FALSE, "read beyond end");
/* 2 calls per item, but only 1 for the terminator */
ok(streamobj.readcalls == sizeof(SHLWAPI_CLIST_items)/sizeof(SHLWAPI_CLIST)*2-1,
"wrong call count");
ok(streamobj.writecalls == 0, "called Write() from create");
ok(streamobj.seekcalls == 0,"called Seek() from create");
item = SHLWAPI_CLIST_items;
/* Check the items were added correctly */
while (item->ulSize)
{
inserted = pSHLWAPI_22(list, item->ulId);
ok(inserted != NULL, "lost after adding");
ok(!inserted || inserted->ulId != -1, "find returned a container");
/* Check size */
if (inserted && inserted->ulSize & 0x3)
{
/* Contained */
ok(inserted[-1].ulId == -1, "invalid size is not countained");
ok(inserted[-1].ulSize > inserted->ulSize+sizeof(SHLWAPI_CLIST),
"container too small");
}
else if (inserted)
{
ok(inserted->ulSize==item->ulSize+sizeof(SHLWAPI_CLIST),
"id %ld size wrong (%ld!=%ld)", inserted->ulId, inserted->ulSize,
item->ulSize+sizeof(SHLWAPI_CLIST));
}
ok(!inserted || inserted->ulId==item->ulId, "find got wrong item");
if (inserted)
{
BOOL bDataOK = TRUE;
char *bufftest = (char*)inserted;
for (i = 0; i < inserted->ulSize - sizeof(SHLWAPI_CLIST); i++)
if (bufftest[sizeof(SHLWAPI_CLIST)+i] != i*2)
bDataOK = FALSE;
ok(bDataOK == TRUE, "data corrupted on insert");
}
item++;
}
}
/* Failure cases for reading */
InitDummyStream(&streamobj);
streamobj.failreadcall = TRUE;
hRet = pSHLWAPI_18(&streamobj, &list);
ok(hRet == STG_E_ACCESSDENIED, "changed object failure return");
ok(streamobj.readbeyondend == FALSE, "read beyond end");
ok(streamobj.readcalls == 1, "called object after read failure");
ok(streamobj.writecalls == 0,"called Write() after read failure");
ok(streamobj.seekcalls == 0,"called Seek() after read failure");
/* Read returns large object */
InitDummyStream(&streamobj);
streamobj.readreturnlarge = TRUE;
hRet = pSHLWAPI_18(&streamobj, &list);
ok(hRet == S_OK, "failed create from Read() with large item");
ok(streamobj.readbeyondend == FALSE, "read beyond end");
ok(streamobj.readcalls == 1,"wrong call count");
ok(streamobj.writecalls == 0,"called Write() after read failure");
ok(streamobj.seekcalls == 2,"wrong Seek() call count (%d)", streamobj.seekcalls);
pSHLWAPI_19(list);
}
static void test_SHLWAPI_166(void)
{
_IDummyStream streamobj;
BOOL bRet;
if (!pSHLWAPI_166)
return;
InitDummyStream(&streamobj);
bRet = pSHLWAPI_166(&streamobj);
ok(bRet == TRUE, "failed before seek adjusted");
ok(streamobj.readcalls == 0, "called Read()");
ok(streamobj.writecalls == 0, "called Write()");
ok(streamobj.seekcalls == 0, "called Seek()");
ok(streamobj.statcalls == 1, "wrong call count");
streamobj.statcalls = 0;
streamobj.pos.QuadPart = 50001;
bRet = pSHLWAPI_166(&streamobj);
ok(bRet == FALSE, "failed after seek adjusted");
ok(streamobj.readcalls == 0, "called Read()");
ok(streamobj.writecalls == 0, "called Write()");
ok(streamobj.seekcalls == 0, "called Seek()");
ok(streamobj.statcalls == 1, "wrong call count");
/* Failure cases */
InitDummyStream(&streamobj);
streamobj.pos.QuadPart = 50001;
streamobj.failstatcall = TRUE; /* 1: Stat() Bad, Read() OK */
bRet = pSHLWAPI_166(&streamobj);
ok(bRet == FALSE, "should be FALSE after read is OK");
ok(streamobj.readcalls == 1, "wrong call count");
ok(streamobj.writecalls == 0, "called Write()");
ok(streamobj.seekcalls == 1, "wrong call count");
ok(streamobj.statcalls == 1, "wrong call count");
ok(streamobj.pos.QuadPart == 0, "Didn't seek to start");
InitDummyStream(&streamobj);
streamobj.pos.QuadPart = 50001;
streamobj.failstatcall = TRUE;
streamobj.failreadcall = TRUE; /* 2: Stat() Bad, Read() Bad Also */
bRet = pSHLWAPI_166(&streamobj);
ok(bRet == TRUE, "Should be true after read fails");
ok(streamobj.readcalls == 1, "wrong call count");
ok(streamobj.writecalls == 0, "called Write()");
ok(streamobj.seekcalls == 0, "Called Seek()");
ok(streamobj.statcalls == 1, "wrong call count");
ok(streamobj.pos.QuadPart == 50001, "called Seek() after read failed");
}
static void test_SHLWAPI_184(void)
{
_IDummyStream streamobj;
char buff[256];
HRESULT hRet;
if (!pSHLWAPI_184)
return;
InitDummyStream(&streamobj);
hRet = pSHLWAPI_184(&streamobj, buff, sizeof(buff));
ok(hRet == S_OK, "failed Read()");
ok(streamobj.readcalls == 1, "wrong call count");
ok(streamobj.writecalls == 0, "called Write()");
ok(streamobj.seekcalls == 0, "called Seek()");
}
static void test_SHLWAPI_212(void)
{
_IDummyStream streamobj;
char buff[256];
HRESULT hRet;
if (!pSHLWAPI_212)
return;
InitDummyStream(&streamobj);
hRet = pSHLWAPI_212(&streamobj, buff, sizeof(buff));
ok(hRet == S_OK, "failed Write()");
ok(streamobj.readcalls == 0, "called Read()");
ok(streamobj.writecalls == 1, "wrong call count");
ok(streamobj.seekcalls == 0, "called Seek()");
}
static void test_SHLWAPI_213(void)
{
_IDummyStream streamobj;
ULARGE_INTEGER ul;
LARGE_INTEGER ll;
HRESULT hRet;
if (!pSHLWAPI_213 || !pSHLWAPI_214)
return;
InitDummyStream(&streamobj);
ll.QuadPart = 5000l;
Seek(&streamobj, ll, 0, NULL); /* Seek to 5000l */
streamobj.seekcalls = 0;
pSHLWAPI_213(&streamobj); /* Should rewind */
ok(streamobj.statcalls == 0, "called Stat()");
ok(streamobj.readcalls == 0, "called Read()");
ok(streamobj.writecalls == 0, "called Write()");
ok(streamobj.seekcalls == 1, "wrong call count");
ul.QuadPart = 50001;
hRet = pSHLWAPI_214(&streamobj, &ul);
ok(hRet == S_OK, "failed Stat()");
ok(ul.QuadPart == 0, "213 didn't rewind stream");
}
static void test_SHLWAPI_214(void)
{
_IDummyStream streamobj;
ULARGE_INTEGER ul;
LARGE_INTEGER ll;
HRESULT hRet;
if (!pSHLWAPI_214)
return;
InitDummyStream(&streamobj);
ll.QuadPart = 5000l;
Seek(&streamobj, ll, 0, NULL);
ul.QuadPart = 0;
streamobj.seekcalls = 0;
hRet = pSHLWAPI_214(&streamobj, &ul);
ok(hRet == S_OK, "failed Stat()");
ok(streamobj.statcalls == 1, "wrong call count");
ok(streamobj.readcalls == 0, "called Read()");
ok(streamobj.writecalls == 0, "called Write()");
ok(streamobj.seekcalls == 0, "called Seek()");
ok(ul.QuadPart == 5000l, "Stat gave wrong size");
}
START_TEST(clist)
{
InitFunctionPtrs();
test_CList();
test_SHLWAPI_166();
test_SHLWAPI_184();
test_SHLWAPI_212();
test_SHLWAPI_213();
test_SHLWAPI_214();
if (SHLWAPI_hshlwapi)
FreeLibrary(SHLWAPI_hshlwapi);
}