rsaenh: Avoid double 'va_end(args)' in case of a premature loop termination.
[wine.git] / dlls / oleaut32 / oleaut.c
blobd03893a938c6ca2713bc497f7d5e346893a09e68
1 /*
2 * OLEAUT32
4 * Copyright 1999, 2000 Marcus Meissner
6 * This library is free software; you can redistribute it and/or
7 * modify it under the terms of the GNU Lesser General Public
8 * License as published by the Free Software Foundation; either
9 * version 2.1 of the License, or (at your option) any later version.
11 * This library is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14 * Lesser General Public License for more details.
16 * You should have received a copy of the GNU Lesser General Public
17 * License along with this library; if not, write to the Free Software
18 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
21 #include "config.h"
23 #include <stdarg.h>
24 #include <string.h>
25 #include <limits.h>
27 #define COBJMACROS
29 #include "windef.h"
30 #include "winbase.h"
31 #include "wingdi.h"
32 #include "winuser.h"
33 #include "winerror.h"
35 #include "ole2.h"
36 #include "olectl.h"
37 #include "oleauto.h"
38 #include "initguid.h"
39 #include "typelib.h"
40 #include "oleaut32_oaidl.h"
42 #include "wine/debug.h"
43 #include "wine/unicode.h"
45 WINE_DEFAULT_DEBUG_CHANNEL(ole);
46 WINE_DECLARE_DEBUG_CHANNEL(heap);
48 /******************************************************************************
49 * BSTR {OLEAUT32}
51 * NOTES
52 * BSTR is a simple typedef for a wide-character string used as the principle
53 * string type in ole automation. When encapsulated in a Variant type they are
54 * automatically copied and destroyed as the variant is processed.
56 * The low level BSTR API allows manipulation of these strings and is used by
57 * higher level API calls to manage the strings transparently to the caller.
59 * Internally the BSTR type is allocated with space for a DWORD byte count before
60 * the string data begins. This is undocumented and non-system code should not
61 * access the count directly. Use SysStringLen() or SysStringByteLen()
62 * instead. Note that the byte count does not include the terminating NUL.
64 * To create a new BSTR, use SysAllocString(), SysAllocStringLen() or
65 * SysAllocStringByteLen(). To change the size of an existing BSTR, use SysReAllocString()
66 * or SysReAllocStringLen(). Finally to destroy a string use SysFreeString().
68 * BSTR's are cached by Ole Automation by default. To override this behaviour
69 * either set the environment variable 'OANOCACHE', or call SetOaNoCache().
71 * SEE ALSO
72 * 'Inside OLE, second edition' by Kraig Brockshmidt.
75 static BOOL bstr_cache_enabled;
77 static CRITICAL_SECTION cs_bstr_cache;
78 static CRITICAL_SECTION_DEBUG cs_bstr_cache_dbg =
80 0, 0, &cs_bstr_cache,
81 { &cs_bstr_cache_dbg.ProcessLocksList, &cs_bstr_cache_dbg.ProcessLocksList },
82 0, 0, { (DWORD_PTR)(__FILE__ ": bstr_cache") }
84 static CRITICAL_SECTION cs_bstr_cache = { &cs_bstr_cache_dbg, -1, 0, 0, 0, 0 };
86 typedef struct {
87 #ifdef _WIN64
88 DWORD pad;
89 #endif
90 DWORD size;
91 union {
92 char ptr[1];
93 WCHAR str[1];
94 DWORD dwptr[1];
95 } u;
96 } bstr_t;
98 #define BUCKET_SIZE 16
99 #define BUCKET_BUFFER_SIZE 6
101 typedef struct {
102 unsigned short head;
103 unsigned short cnt;
104 bstr_t *buf[BUCKET_BUFFER_SIZE];
105 } bstr_cache_entry_t;
107 #define ARENA_INUSE_FILLER 0x55
108 #define ARENA_TAIL_FILLER 0xab
109 #define ARENA_FREE_FILLER 0xfeeefeee
111 static bstr_cache_entry_t bstr_cache[0x10000/BUCKET_SIZE];
113 static inline size_t bstr_alloc_size(size_t size)
115 return (FIELD_OFFSET(bstr_t, u.ptr[size]) + sizeof(WCHAR) + BUCKET_SIZE-1) & ~(BUCKET_SIZE-1);
118 static inline bstr_t *bstr_from_str(BSTR str)
120 return CONTAINING_RECORD(str, bstr_t, u.str);
123 static inline bstr_cache_entry_t *get_cache_entry_from_idx(unsigned cache_idx)
125 return bstr_cache_enabled && cache_idx < sizeof(bstr_cache)/sizeof(*bstr_cache)
126 ? bstr_cache + cache_idx
127 : NULL;
130 static inline bstr_cache_entry_t *get_cache_entry(size_t size)
132 unsigned cache_idx = FIELD_OFFSET(bstr_t, u.ptr[size+sizeof(WCHAR)-1])/BUCKET_SIZE;
133 return get_cache_entry_from_idx(cache_idx);
136 static inline bstr_cache_entry_t *get_cache_entry_from_alloc_size(SIZE_T alloc_size)
138 unsigned cache_idx;
139 if (alloc_size < BUCKET_SIZE) return NULL;
140 cache_idx = (alloc_size - BUCKET_SIZE) / BUCKET_SIZE;
141 return get_cache_entry_from_idx(cache_idx);
144 static bstr_t *alloc_bstr(size_t size)
146 bstr_cache_entry_t *cache_entry = get_cache_entry(size);
147 bstr_t *ret;
149 if(cache_entry) {
150 EnterCriticalSection(&cs_bstr_cache);
152 if(!cache_entry->cnt) {
153 cache_entry = get_cache_entry(size+BUCKET_SIZE);
154 if(cache_entry && !cache_entry->cnt)
155 cache_entry = NULL;
158 if(cache_entry) {
159 ret = cache_entry->buf[cache_entry->head++];
160 cache_entry->head %= BUCKET_BUFFER_SIZE;
161 cache_entry->cnt--;
164 LeaveCriticalSection(&cs_bstr_cache);
166 if(cache_entry) {
167 if(WARN_ON(heap)) {
168 size_t fill_size = (FIELD_OFFSET(bstr_t, u.ptr[size])+2*sizeof(WCHAR)-1) & ~(sizeof(WCHAR)-1);
169 memset(ret, ARENA_INUSE_FILLER, fill_size);
170 memset((char *)ret+fill_size, ARENA_TAIL_FILLER, bstr_alloc_size(size)-fill_size);
172 ret->size = size;
173 return ret;
177 ret = CoTaskMemAlloc(bstr_alloc_size(size));
178 if(ret)
179 ret->size = size;
180 return ret;
183 /******************************************************************************
184 * SysStringLen [OLEAUT32.7]
186 * Get the allocated length of a BSTR in wide characters.
188 * PARAMS
189 * str [I] BSTR to find the length of
191 * RETURNS
192 * The allocated length of str, or 0 if str is NULL.
194 * NOTES
195 * See BSTR.
196 * The returned length may be different from the length of the string as
197 * calculated by lstrlenW(), since it returns the length that was used to
198 * allocate the string by SysAllocStringLen().
200 UINT WINAPI SysStringLen(BSTR str)
202 return str ? bstr_from_str(str)->size/sizeof(WCHAR) : 0;
205 /******************************************************************************
206 * SysStringByteLen [OLEAUT32.149]
208 * Get the allocated length of a BSTR in bytes.
210 * PARAMS
211 * str [I] BSTR to find the length of
213 * RETURNS
214 * The allocated length of str, or 0 if str is NULL.
216 * NOTES
217 * See SysStringLen(), BSTR().
219 UINT WINAPI SysStringByteLen(BSTR str)
221 return str ? bstr_from_str(str)->size : 0;
224 /******************************************************************************
225 * SysAllocString [OLEAUT32.2]
227 * Create a BSTR from an OLESTR.
229 * PARAMS
230 * str [I] Source to create BSTR from
232 * RETURNS
233 * Success: A BSTR allocated with SysAllocStringLen().
234 * Failure: NULL, if oleStr is NULL.
236 * NOTES
237 * See BSTR.
238 * MSDN (October 2001) incorrectly states that NULL is returned if oleStr has
239 * a length of 0. Native Win32 and this implementation both return a valid
240 * empty BSTR in this case.
242 BSTR WINAPI SysAllocString(LPCOLESTR str)
244 if (!str) return 0;
246 /* Delegate this to the SysAllocStringLen32 method. */
247 return SysAllocStringLen(str, lstrlenW(str));
250 static inline IMalloc *get_malloc(void)
252 static IMalloc *malloc;
254 if (!malloc)
255 CoGetMalloc(1, &malloc);
257 return malloc;
260 /******************************************************************************
261 * SysFreeString [OLEAUT32.6]
263 * Free a BSTR.
265 * PARAMS
266 * str [I] BSTR to free.
268 * RETURNS
269 * Nothing.
271 * NOTES
272 * See BSTR.
273 * str may be NULL, in which case this function does nothing.
275 void WINAPI SysFreeString(BSTR str)
277 bstr_cache_entry_t *cache_entry;
278 bstr_t *bstr;
279 IMalloc *malloc = get_malloc();
280 SIZE_T alloc_size;
282 if(!str)
283 return;
285 bstr = bstr_from_str(str);
287 alloc_size = IMalloc_GetSize(malloc, bstr);
288 if (alloc_size == ~0UL)
289 return;
291 cache_entry = get_cache_entry_from_alloc_size(alloc_size);
292 if(cache_entry) {
293 unsigned i;
295 EnterCriticalSection(&cs_bstr_cache);
297 /* According to tests, freeing a string that's already in cache doesn't corrupt anything.
298 * For that to work we need to search the cache. */
299 for(i=0; i < cache_entry->cnt; i++) {
300 if(cache_entry->buf[(cache_entry->head+i) % BUCKET_BUFFER_SIZE] == bstr) {
301 WARN_(heap)("String already is in cache!\n");
302 LeaveCriticalSection(&cs_bstr_cache);
303 return;
307 if(cache_entry->cnt < sizeof(cache_entry->buf)/sizeof(*cache_entry->buf)) {
308 cache_entry->buf[(cache_entry->head+cache_entry->cnt) % BUCKET_BUFFER_SIZE] = bstr;
309 cache_entry->cnt++;
311 if(WARN_ON(heap)) {
312 unsigned n = (alloc_size-FIELD_OFFSET(bstr_t, u.ptr))/sizeof(DWORD);
313 for(i=0; i<n; i++)
314 bstr->u.dwptr[i] = ARENA_FREE_FILLER;
317 LeaveCriticalSection(&cs_bstr_cache);
318 return;
321 LeaveCriticalSection(&cs_bstr_cache);
324 CoTaskMemFree(bstr);
327 /******************************************************************************
328 * SysAllocStringLen [OLEAUT32.4]
330 * Create a BSTR from an OLESTR of a given wide character length.
332 * PARAMS
333 * str [I] Source to create BSTR from
334 * len [I] Length of oleStr in wide characters
336 * RETURNS
337 * Success: A newly allocated BSTR from SysAllocStringByteLen()
338 * Failure: NULL, if len is >= 0x80000000, or memory allocation fails.
340 * NOTES
341 * See BSTR(), SysAllocStringByteLen().
343 BSTR WINAPI SysAllocStringLen(const OLECHAR *str, unsigned int len)
345 bstr_t *bstr;
346 DWORD size;
348 /* Detect integer overflow. */
349 if (len >= ((UINT_MAX-sizeof(WCHAR)-sizeof(DWORD))/sizeof(WCHAR)))
350 return NULL;
352 TRACE("%s\n", debugstr_wn(str, len));
354 size = len*sizeof(WCHAR);
355 bstr = alloc_bstr(size);
356 if(!bstr)
357 return NULL;
359 if(str) {
360 memcpy(bstr->u.str, str, size);
361 bstr->u.str[len] = 0;
362 }else {
363 memset(bstr->u.str, 0, size+sizeof(WCHAR));
366 return bstr->u.str;
369 /******************************************************************************
370 * SysReAllocStringLen [OLEAUT32.5]
372 * Change the length of a previously created BSTR.
374 * PARAMS
375 * old [O] BSTR to change the length of
376 * str [I] New source for pbstr
377 * len [I] Length of oleStr in wide characters
379 * RETURNS
380 * Success: 1. The size of pbstr is updated.
381 * Failure: 0, if len >= 0x80000000 or memory allocation fails.
383 * NOTES
384 * See BSTR(), SysAllocStringByteLen().
385 * *old may be changed by this function.
387 int WINAPI SysReAllocStringLen(BSTR* old, const OLECHAR* str, unsigned int len)
389 /* Detect integer overflow. */
390 if (len >= ((UINT_MAX-sizeof(WCHAR)-sizeof(DWORD))/sizeof(WCHAR)))
391 return FALSE;
393 if (*old!=NULL) {
394 DWORD newbytelen = len*sizeof(WCHAR);
395 bstr_t *old_bstr = bstr_from_str(*old);
396 bstr_t *bstr = CoTaskMemRealloc(old_bstr, bstr_alloc_size(newbytelen));
398 if (!bstr) return FALSE;
400 *old = bstr->u.str;
401 bstr->size = newbytelen;
402 /* The old string data is still there when str is NULL */
403 if (str && old_bstr->u.str != str) memmove(bstr->u.str, str, newbytelen);
404 bstr->u.str[len] = 0;
405 } else {
406 *old = SysAllocStringLen(str, len);
409 return TRUE;
412 /******************************************************************************
413 * SysAllocStringByteLen [OLEAUT32.150]
415 * Create a BSTR from an OLESTR of a given byte length.
417 * PARAMS
418 * str [I] Source to create BSTR from
419 * len [I] Length of oleStr in bytes
421 * RETURNS
422 * Success: A newly allocated BSTR
423 * Failure: NULL, if len is >= 0x80000000, or memory allocation fails.
425 * NOTES
426 * -If len is 0 or oleStr is NULL the resulting string is empty ("").
427 * -This function always NUL terminates the resulting BSTR.
428 * -oleStr may be either an LPCSTR or LPCOLESTR, since it is copied
429 * without checking for a terminating NUL.
430 * See BSTR.
432 BSTR WINAPI SysAllocStringByteLen(LPCSTR str, UINT len)
434 bstr_t *bstr;
436 /* Detect integer overflow. */
437 if (len >= (UINT_MAX-sizeof(WCHAR)-sizeof(DWORD)))
438 return NULL;
440 bstr = alloc_bstr(len);
441 if(!bstr)
442 return NULL;
444 if(str) {
445 memcpy(bstr->u.ptr, str, len);
446 bstr->u.ptr[len] = 0;
447 }else {
448 memset(bstr->u.ptr, 0, len+1);
450 bstr->u.str[(len+sizeof(WCHAR)-1)/sizeof(WCHAR)] = 0;
452 return bstr->u.str;
455 /******************************************************************************
456 * SysReAllocString [OLEAUT32.3]
458 * Change the length of a previously created BSTR.
460 * PARAMS
461 * old [I/O] BSTR to change the length of
462 * str [I] New source for pbstr
464 * RETURNS
465 * Success: 1
466 * Failure: 0.
468 * NOTES
469 * See BSTR(), SysAllocStringStringLen().
471 INT WINAPI SysReAllocString(LPBSTR old,LPCOLESTR str)
474 * Sanity check
476 if (old==NULL)
477 return 0;
480 * Make sure we free the old string.
482 SysFreeString(*old);
485 * Allocate the new string
487 *old = SysAllocString(str);
489 return 1;
492 /******************************************************************************
493 * SetOaNoCache (OLEAUT32.327)
495 * Instruct Ole Automation not to cache BSTR allocations.
497 * PARAMS
498 * None.
500 * RETURNS
501 * Nothing.
503 * NOTES
504 * SetOaNoCache does not release cached strings, so it leaks by design.
506 void WINAPI SetOaNoCache(void)
508 TRACE("\n");
509 bstr_cache_enabled = FALSE;
512 static const WCHAR _delimiter[] = {'!',0}; /* default delimiter apparently */
513 static const WCHAR *pdelimiter = &_delimiter[0];
515 /***********************************************************************
516 * RegisterActiveObject (OLEAUT32.33)
518 * Registers an object in the global item table.
520 * PARAMS
521 * punk [I] Object to register.
522 * rcid [I] CLSID of the object.
523 * dwFlags [I] Flags.
524 * pdwRegister [O] Address to store cookie of object registration in.
526 * RETURNS
527 * Success: S_OK.
528 * Failure: HRESULT code.
530 HRESULT WINAPI DECLSPEC_HOTPATCH RegisterActiveObject(
531 LPUNKNOWN punk,REFCLSID rcid,DWORD dwFlags,LPDWORD pdwRegister
533 WCHAR guidbuf[80];
534 HRESULT ret;
535 LPRUNNINGOBJECTTABLE runobtable;
536 LPMONIKER moniker;
537 DWORD rot_flags = ROTFLAGS_REGISTRATIONKEEPSALIVE; /* default registration is strong */
539 StringFromGUID2(rcid,guidbuf,39);
540 ret = CreateItemMoniker(pdelimiter,guidbuf,&moniker);
541 if (FAILED(ret))
542 return ret;
543 ret = GetRunningObjectTable(0,&runobtable);
544 if (FAILED(ret)) {
545 IMoniker_Release(moniker);
546 return ret;
548 if(dwFlags == ACTIVEOBJECT_WEAK)
549 rot_flags = 0;
550 ret = IRunningObjectTable_Register(runobtable,rot_flags,punk,moniker,pdwRegister);
551 IRunningObjectTable_Release(runobtable);
552 IMoniker_Release(moniker);
553 return ret;
556 /***********************************************************************
557 * RevokeActiveObject (OLEAUT32.34)
559 * Revokes an object from the global item table.
561 * PARAMS
562 * xregister [I] Registration cookie.
563 * reserved [I] Reserved. Set to NULL.
565 * RETURNS
566 * Success: S_OK.
567 * Failure: HRESULT code.
569 HRESULT WINAPI DECLSPEC_HOTPATCH RevokeActiveObject(DWORD xregister,LPVOID reserved)
571 LPRUNNINGOBJECTTABLE runobtable;
572 HRESULT ret;
574 ret = GetRunningObjectTable(0,&runobtable);
575 if (FAILED(ret)) return ret;
576 ret = IRunningObjectTable_Revoke(runobtable,xregister);
577 if (SUCCEEDED(ret)) ret = S_OK;
578 IRunningObjectTable_Release(runobtable);
579 return ret;
582 /***********************************************************************
583 * GetActiveObject (OLEAUT32.35)
585 * Gets an object from the global item table.
587 * PARAMS
588 * rcid [I] CLSID of the object.
589 * preserved [I] Reserved. Set to NULL.
590 * ppunk [O] Address to store object into.
592 * RETURNS
593 * Success: S_OK.
594 * Failure: HRESULT code.
596 HRESULT WINAPI DECLSPEC_HOTPATCH GetActiveObject(REFCLSID rcid,LPVOID preserved,LPUNKNOWN *ppunk)
598 WCHAR guidbuf[80];
599 HRESULT ret;
600 LPRUNNINGOBJECTTABLE runobtable;
601 LPMONIKER moniker;
603 StringFromGUID2(rcid,guidbuf,39);
604 ret = CreateItemMoniker(pdelimiter,guidbuf,&moniker);
605 if (FAILED(ret))
606 return ret;
607 ret = GetRunningObjectTable(0,&runobtable);
608 if (FAILED(ret)) {
609 IMoniker_Release(moniker);
610 return ret;
612 ret = IRunningObjectTable_GetObject(runobtable,moniker,ppunk);
613 IRunningObjectTable_Release(runobtable);
614 IMoniker_Release(moniker);
615 return ret;
619 /***********************************************************************
620 * OaBuildVersion [OLEAUT32.170]
622 * Get the Ole Automation build version.
624 * PARAMS
625 * None
627 * RETURNS
628 * The build version.
630 * NOTES
631 * Known oleaut32.dll versions:
632 *| OLE Ver. Comments Date Build Ver.
633 *| -------- ------------------------- ---- ---------
634 *| OLE 2.1 NT 1993-95 10 3023
635 *| OLE 2.1 10 3027
636 *| Win32s Ver 1.1e 20 4049
637 *| OLE 2.20 W95/NT 1993-96 20 4112
638 *| OLE 2.20 W95/NT 1993-96 20 4118
639 *| OLE 2.20 W95/NT 1993-96 20 4122
640 *| OLE 2.30 W95/NT 1993-98 30 4265
641 *| OLE 2.40 NT?? 1993-98 40 4267
642 *| OLE 2.40 W98 SE orig. file 1993-98 40 4275
643 *| OLE 2.40 W2K orig. file 1993-XX 40 4514
645 * Currently the versions returned are 2.20 for Win3.1, 2.30 for Win95 & NT 3.51,
646 * and 2.40 for all later versions. The build number is maximum, i.e. 0xffff.
648 ULONG WINAPI OaBuildVersion(void)
650 switch(GetVersion() & 0x8000ffff) /* mask off build number */
652 case 0x80000a03: /* WIN31 */
653 return MAKELONG(0xffff, 20);
654 case 0x00003303: /* NT351 */
655 return MAKELONG(0xffff, 30);
656 case 0x80000004: /* WIN95; I'd like to use the "standard" w95 minor
657 version here (30), but as we still use w95
658 as default winver (which is good IMHO), I better
659 play safe and use the latest value for w95 for now.
660 Change this as soon as default winver gets changed
661 to something more recent */
662 case 0x80000a04: /* WIN98 */
663 case 0x00000004: /* NT40 */
664 case 0x00000005: /* W2K */
665 return MAKELONG(0xffff, 40);
666 case 0x00000105: /* WinXP */
667 case 0x00000006: /* Vista */
668 case 0x00000106: /* Win7 */
669 return MAKELONG(0xffff, 50);
670 default:
671 FIXME("Version value not known yet. Please investigate it !\n");
672 return MAKELONG(0xffff, 40); /* for now return the same value as for w2k */
676 /******************************************************************************
677 * OleTranslateColor [OLEAUT32.421]
679 * Convert an OLE_COLOR to a COLORREF.
681 * PARAMS
682 * clr [I] Color to convert
683 * hpal [I] Handle to a palette for the conversion
684 * pColorRef [O] Destination for converted color, or NULL to test if the conversion is ok
686 * RETURNS
687 * Success: S_OK. The conversion is ok, and pColorRef contains the converted color if non-NULL.
688 * Failure: E_INVALIDARG, if any argument is invalid.
690 * FIXME
691 * Document the conversion rules.
693 HRESULT WINAPI OleTranslateColor(
694 OLE_COLOR clr,
695 HPALETTE hpal,
696 COLORREF* pColorRef)
698 COLORREF colorref;
699 BYTE b = HIBYTE(HIWORD(clr));
701 TRACE("(%08x, %p, %p)\n", clr, hpal, pColorRef);
704 * In case pColorRef is NULL, provide our own to simplify the code.
706 if (pColorRef == NULL)
707 pColorRef = &colorref;
709 switch (b)
711 case 0x00:
713 if (hpal != 0)
714 *pColorRef = PALETTERGB(GetRValue(clr),
715 GetGValue(clr),
716 GetBValue(clr));
717 else
718 *pColorRef = clr;
720 break;
723 case 0x01:
725 if (hpal != 0)
727 PALETTEENTRY pe;
729 * Validate the palette index.
731 if (GetPaletteEntries(hpal, LOWORD(clr), 1, &pe) == 0)
732 return E_INVALIDARG;
735 *pColorRef = clr;
737 break;
740 case 0x02:
741 *pColorRef = clr;
742 break;
744 case 0x80:
746 int index = LOBYTE(LOWORD(clr));
749 * Validate GetSysColor index.
751 if ((index < COLOR_SCROLLBAR) || (index > COLOR_MENUBAR))
752 return E_INVALIDARG;
754 *pColorRef = GetSysColor(index);
756 break;
759 default:
760 return E_INVALIDARG;
763 return S_OK;
766 extern HRESULT WINAPI OLEAUTPS_DllGetClassObject(REFCLSID, REFIID, LPVOID *) DECLSPEC_HIDDEN;
767 extern BOOL WINAPI OLEAUTPS_DllMain(HINSTANCE, DWORD, LPVOID) DECLSPEC_HIDDEN;
768 extern HRESULT WINAPI OLEAUTPS_DllRegisterServer(void) DECLSPEC_HIDDEN;
769 extern HRESULT WINAPI OLEAUTPS_DllUnregisterServer(void) DECLSPEC_HIDDEN;
771 extern void _get_STDFONT_CF(LPVOID *);
772 extern void _get_STDPIC_CF(LPVOID *);
774 static HRESULT WINAPI PSDispatchFacBuf_QueryInterface(IPSFactoryBuffer *iface, REFIID riid, void **ppv)
776 if (IsEqualIID(riid, &IID_IUnknown) ||
777 IsEqualIID(riid, &IID_IPSFactoryBuffer))
779 IPSFactoryBuffer_AddRef(iface);
780 *ppv = iface;
781 return S_OK;
783 return E_NOINTERFACE;
786 static ULONG WINAPI PSDispatchFacBuf_AddRef(IPSFactoryBuffer *iface)
788 return 2;
791 static ULONG WINAPI PSDispatchFacBuf_Release(IPSFactoryBuffer *iface)
793 return 1;
796 static HRESULT WINAPI PSDispatchFacBuf_CreateProxy(IPSFactoryBuffer *iface, IUnknown *pUnkOuter, REFIID riid, IRpcProxyBuffer **ppProxy, void **ppv)
798 IPSFactoryBuffer *pPSFB;
799 HRESULT hr;
801 if (IsEqualIID(riid, &IID_IDispatch))
802 hr = OLEAUTPS_DllGetClassObject(&CLSID_PSFactoryBuffer, &IID_IPSFactoryBuffer, (void **)&pPSFB);
803 else
804 hr = TMARSHAL_DllGetClassObject(&CLSID_PSOAInterface, &IID_IPSFactoryBuffer, (void **)&pPSFB);
806 if (FAILED(hr)) return hr;
808 hr = IPSFactoryBuffer_CreateProxy(pPSFB, pUnkOuter, riid, ppProxy, ppv);
810 IPSFactoryBuffer_Release(pPSFB);
811 return hr;
814 static HRESULT WINAPI PSDispatchFacBuf_CreateStub(IPSFactoryBuffer *iface, REFIID riid, IUnknown *pUnkOuter, IRpcStubBuffer **ppStub)
816 IPSFactoryBuffer *pPSFB;
817 HRESULT hr;
819 if (IsEqualIID(riid, &IID_IDispatch))
820 hr = OLEAUTPS_DllGetClassObject(&CLSID_PSFactoryBuffer, &IID_IPSFactoryBuffer, (void **)&pPSFB);
821 else
822 hr = TMARSHAL_DllGetClassObject(&CLSID_PSOAInterface, &IID_IPSFactoryBuffer, (void **)&pPSFB);
824 if (FAILED(hr)) return hr;
826 hr = IPSFactoryBuffer_CreateStub(pPSFB, riid, pUnkOuter, ppStub);
828 IPSFactoryBuffer_Release(pPSFB);
829 return hr;
832 static const IPSFactoryBufferVtbl PSDispatchFacBuf_Vtbl =
834 PSDispatchFacBuf_QueryInterface,
835 PSDispatchFacBuf_AddRef,
836 PSDispatchFacBuf_Release,
837 PSDispatchFacBuf_CreateProxy,
838 PSDispatchFacBuf_CreateStub
841 /* This is the whole PSFactoryBuffer object, just the vtableptr */
842 static const IPSFactoryBufferVtbl *pPSDispatchFacBuf = &PSDispatchFacBuf_Vtbl;
844 /***********************************************************************
845 * DllGetClassObject (OLEAUT32.@)
847 HRESULT WINAPI DllGetClassObject(REFCLSID rclsid, REFIID iid, LPVOID *ppv)
849 *ppv = NULL;
850 if (IsEqualGUID(rclsid,&CLSID_StdFont)) {
851 if (IsEqualGUID(iid,&IID_IClassFactory)) {
852 _get_STDFONT_CF(ppv);
853 IClassFactory_AddRef((IClassFactory*)*ppv);
854 return S_OK;
857 if (IsEqualGUID(rclsid,&CLSID_StdPicture)) {
858 if (IsEqualGUID(iid,&IID_IClassFactory)) {
859 _get_STDPIC_CF(ppv);
860 IClassFactory_AddRef((IClassFactory*)*ppv);
861 return S_OK;
864 if (IsEqualCLSID(rclsid, &CLSID_PSDispatch) && IsEqualIID(iid, &IID_IPSFactoryBuffer)) {
865 *ppv = &pPSDispatchFacBuf;
866 IPSFactoryBuffer_AddRef((IPSFactoryBuffer *)*ppv);
867 return S_OK;
869 if (IsEqualGUID(rclsid,&CLSID_PSOAInterface)) {
870 if (S_OK==TMARSHAL_DllGetClassObject(rclsid,iid,ppv))
871 return S_OK;
872 /*FALLTHROUGH*/
874 if (IsEqualCLSID(rclsid, &CLSID_PSTypeComp) ||
875 IsEqualCLSID(rclsid, &CLSID_PSTypeInfo) ||
876 IsEqualCLSID(rclsid, &CLSID_PSTypeLib) ||
877 IsEqualCLSID(rclsid, &CLSID_PSDispatch) ||
878 IsEqualCLSID(rclsid, &CLSID_PSEnumVariant))
879 return OLEAUTPS_DllGetClassObject(&CLSID_PSFactoryBuffer, iid, ppv);
881 return OLEAUTPS_DllGetClassObject(rclsid, iid, ppv);
884 /***********************************************************************
885 * DllCanUnloadNow (OLEAUT32.@)
887 * Determine if this dll can be unloaded from the callers address space.
889 * PARAMS
890 * None.
892 * RETURNS
893 * Always returns S_FALSE. This dll cannot be unloaded.
895 HRESULT WINAPI DllCanUnloadNow(void)
897 return S_FALSE;
900 /*****************************************************************************
901 * DllMain [OLEAUT32.@]
903 BOOL WINAPI DllMain(HINSTANCE hInstDll, DWORD fdwReason, LPVOID lpvReserved)
905 static const WCHAR oanocacheW[] = {'o','a','n','o','c','a','c','h','e',0};
907 if(fdwReason == DLL_PROCESS_ATTACH)
908 bstr_cache_enabled = !GetEnvironmentVariableW(oanocacheW, NULL, 0);
910 return OLEAUTPS_DllMain( hInstDll, fdwReason, lpvReserved );
913 /***********************************************************************
914 * DllRegisterServer (OLEAUT32.@)
916 HRESULT WINAPI DllRegisterServer(void)
918 return OLEAUTPS_DllRegisterServer();
921 /***********************************************************************
922 * DllUnregisterServer (OLEAUT32.@)
924 HRESULT WINAPI DllUnregisterServer(void)
926 return OLEAUTPS_DllUnregisterServer();
929 /***********************************************************************
930 * OleIconToCursor (OLEAUT32.415)
932 HCURSOR WINAPI OleIconToCursor( HINSTANCE hinstExe, HICON hIcon)
934 FIXME("(%p,%p), partially implemented.\n",hinstExe,hIcon);
935 /* FIXME: make an extended conversation from HICON to HCURSOR */
936 return CopyCursor(hIcon);
939 /***********************************************************************
940 * GetAltMonthNames (OLEAUT32.@)
942 HRESULT WINAPI GetAltMonthNames(LCID lcid, LPOLESTR **str)
944 static const WCHAR ar_month1W[] = {0x645,0x62d,0x631,0x645,0};
945 static const WCHAR ar_month2W[] = {0x635,0x641,0x631,0};
946 static const WCHAR ar_month3W[] = {0x631,0x628,0x64a,0x639,' ',0x627,0x644,0x627,0x648,0x644,0};
947 static const WCHAR ar_month4W[] = {0x631,0x628,0x64a,0x639,' ',0x627,0x644,0x62b,0x627,0x646,0x64a,0};
948 static const WCHAR ar_month5W[] = {0x62c,0x645,0x627,0x62f,0x649,' ',0x627,0x644,0x627,0x648,0x644,0x649,0};
949 static const WCHAR ar_month6W[] = {0x62c,0x645,0x627,0x62f,0x649,' ',0x627,0x644,0x62b,0x627,0x646,0x64a,0x629,0};
950 static const WCHAR ar_month7W[] = {0x631,0x62c,0x628,0};
951 static const WCHAR ar_month8W[] = {0x634,0x639,0x628,0x627,0x646,0};
952 static const WCHAR ar_month9W[] = {0x631,0x645,0x636,0x627,0x646,0};
953 static const WCHAR ar_month10W[] = {0x634,0x648,0x627,0x643,0};
954 static const WCHAR ar_month11W[] = {0x630,0x648,' ',0x627,0x644,0x642,0x639,0x62f,0x629,0};
955 static const WCHAR ar_month12W[] = {0x630,0x648,' ',0x627,0x644,0x62d,0x62c,0x629,0};
957 static const WCHAR *arabic_hijri[] =
959 ar_month1W,
960 ar_month2W,
961 ar_month3W,
962 ar_month4W,
963 ar_month5W,
964 ar_month6W,
965 ar_month7W,
966 ar_month8W,
967 ar_month9W,
968 ar_month10W,
969 ar_month11W,
970 ar_month12W,
971 NULL
974 static const WCHAR pl_month1W[] = {'s','t','y','c','z','n','i','a',0};
975 static const WCHAR pl_month2W[] = {'l','u','t','e','g','o',0};
976 static const WCHAR pl_month3W[] = {'m','a','r','c','a',0};
977 static const WCHAR pl_month4W[] = {'k','w','i','e','t','n','i','a',0};
978 static const WCHAR pl_month5W[] = {'m','a','j','a',0};
979 static const WCHAR pl_month6W[] = {'c','z','e','r','w','c','a',0};
980 static const WCHAR pl_month7W[] = {'l','i','p','c','a',0};
981 static const WCHAR pl_month8W[] = {'s','i','e','r','p','n','i','a',0};
982 static const WCHAR pl_month9W[] = {'w','r','z','e',0x15b,'n','i','a',0};
983 static const WCHAR pl_month10W[] = {'p','a',0x17a,'d','z','i','e','r','n','i','k','a',0};
984 static const WCHAR pl_month11W[] = {'l','i','s','t','o','p','a','d','a',0};
985 static const WCHAR pl_month12W[] = {'g','r','u','d','n','i','a',0};
987 static const WCHAR *polish_genitive_names[] =
989 pl_month1W,
990 pl_month2W,
991 pl_month3W,
992 pl_month4W,
993 pl_month5W,
994 pl_month6W,
995 pl_month7W,
996 pl_month8W,
997 pl_month9W,
998 pl_month10W,
999 pl_month11W,
1000 pl_month12W,
1001 NULL
1004 static const WCHAR ru_month1W[] = {0x44f,0x43d,0x432,0x430,0x440,0x44f,0};
1005 static const WCHAR ru_month2W[] = {0x444,0x435,0x432,0x440,0x430,0x43b,0x44f,0};
1006 static const WCHAR ru_month3W[] = {0x43c,0x430,0x440,0x442,0x430,0};
1007 static const WCHAR ru_month4W[] = {0x430,0x43f,0x440,0x435,0x43b,0x44f,0};
1008 static const WCHAR ru_month5W[] = {0x43c,0x430,0x44f,0};
1009 static const WCHAR ru_month6W[] = {0x438,0x44e,0x43d,0x44f,0};
1010 static const WCHAR ru_month7W[] = {0x438,0x44e,0x43b,0x44f,0};
1011 static const WCHAR ru_month8W[] = {0x430,0x432,0x433,0x443,0x441,0x442,0x430,0};
1012 static const WCHAR ru_month9W[] = {0x441,0x435,0x43d,0x442,0x44f,0x431,0x440,0x44f,0};
1013 static const WCHAR ru_month10W[] = {0x43e,0x43a,0x442,0x44f,0x431,0x440,0x44f,0};
1014 static const WCHAR ru_month11W[] = {0x43d,0x43e,0x44f,0x431,0x440,0x44f,0};
1015 static const WCHAR ru_month12W[] = {0x434,0x435,0x43a,0x430,0x431,0x440,0x44f,0};
1017 static const WCHAR *russian_genitive_names[] =
1019 ru_month1W,
1020 ru_month2W,
1021 ru_month3W,
1022 ru_month4W,
1023 ru_month5W,
1024 ru_month6W,
1025 ru_month7W,
1026 ru_month8W,
1027 ru_month9W,
1028 ru_month10W,
1029 ru_month11W,
1030 ru_month12W,
1031 NULL
1034 TRACE("%#x, %p\n", lcid, str);
1036 if (PRIMARYLANGID(LANGIDFROMLCID(lcid)) == LANG_ARABIC)
1037 *str = (LPOLESTR *)arabic_hijri;
1038 else if (PRIMARYLANGID(LANGIDFROMLCID(lcid)) == LANG_POLISH)
1039 *str = (LPOLESTR *)polish_genitive_names;
1040 else if (PRIMARYLANGID(LANGIDFROMLCID(lcid)) == LANG_RUSSIAN)
1041 *str = (LPOLESTR *)russian_genitive_names;
1042 else
1043 *str = NULL;
1045 return S_OK;