/* * SHLWAPI Compact List 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 #include "winbase.h" #include "objbase.h" #include "wine/debug.h" WINE_DEFAULT_DEBUG_CHANNEL(shell); /* Compact list element (ordinals 17-22) */ typedef struct tagSHLWAPI_CLIST { ULONG ulSize; /* Size of this list element and its data */ ULONG ulId; /* If 0xFFFFFFFF, The real element follows */ /* Item data (or a contained SHLWAPI_CLIST) follows... */ } SHLWAPI_CLIST, *LPSHLWAPI_CLIST; typedef const SHLWAPI_CLIST* LPCSHLWAPI_CLIST; /* ulId for contained SHLWAPI_CLIST items */ #define CLIST_ID_CONTAINER (~0UL) HRESULT WINAPI SHLWAPI_20(LPSHLWAPI_CLIST*,LPCSHLWAPI_CLIST); /************************************************************************* * NextItem * * Internal helper: move a clist pointer to the next item. */ inline static LPSHLWAPI_CLIST NextItem(LPCSHLWAPI_CLIST lpList) { const char* address = (char*)lpList; address += lpList->ulSize; return (LPSHLWAPI_CLIST)address; } /************************************************************************* * @ [SHLWAPI.17] * * Write a compact list to an IStream object. * * PARAMS * lpStream [I] IStream object to write the list to * lpList [I] List of items to write * * RETURNS * Success: S_OK. The object is written to the stream. * Failure: An HRESULT error code * * NOTES * Ordinals 17,18,19,20,21 and 22 are related and together provide a compact * list structure which may be stored and retrieved from an IStream object. * * The exposed API consists of: * * SHLWAPI_17() Write a compact list to a stream, * * SHLWAPI_18() Read and create a list from a stream, * * SHLWAPI_19() Free a list, * * SHLWAPI_20() Insert a new item into a list, * * SHLWAPI_21() Remove an item from a list, * * SHLWAPI_22() Find an item in a list. * * The compact list is stored packed into a memory array. Each element has a * size and an associated ID. Elements must be less than 64k if the list is * to be subsequently read from a stream. * * Elements are aligned on DWORD boundaries. If an elements data size is not * a DWORD size multiple, the element is wrapped by inserting a surrounding * element with an Id of 0xFFFFFFFF, and size sufficient to pad to a DWORD boundary. * * These functions are slow for large objects and long lists. */ HRESULT WINAPI SHLWAPI_17(IStream* lpStream, LPSHLWAPI_CLIST lpList) { ULONG ulSize; HRESULT hRet = E_FAIL; TRACE("(%p,%p)\n", lpStream, lpList); if(lpList) { while (lpList->ulSize) { LPSHLWAPI_CLIST lpItem = lpList; if(lpList->ulId == CLIST_ID_CONTAINER) lpItem++; hRet = IStream_Write(lpStream,lpItem,lpItem->ulSize,&ulSize); if (FAILED(hRet)) return hRet; if(lpItem->ulSize != ulSize) return STG_E_MEDIUMFULL; lpList = NextItem(lpList); } } if(SUCCEEDED(hRet)) { ULONG ulDummy; ulSize = 0; /* Write a terminating list entry with zero size */ hRet = IStream_Write(lpStream, &ulSize,sizeof(ulSize),&ulDummy); } return hRet; } /************************************************************************* * @ [SHLWAPI.18] * * Read and create a compact list from an IStream object. * * PARAMS * lpStream [I] Stream to read the list from * lppList [0] Pointer to receive the new List * * RETURNS * Success: S_OK * Failure: An HRESULT error code * * NOTES * When read from a file, list objects are limited in size to 64k. * See SHLWAPI_17. */ HRESULT WINAPI SHLWAPI_18(IStream* lpStream, LPSHLWAPI_CLIST* lppList) { SHLWAPI_CLIST bBuff[128]; /* Temporary storage for new list item */ ULONG ulBuffSize = sizeof(bBuff); LPSHLWAPI_CLIST pItem = bBuff; ULONG ulRead, ulSize; HRESULT hRet = S_OK; TRACE("(%p,%p)\n", lpStream, lppList); if(*lppList) { /* Free any existing list */ LocalFree((HLOCAL)*lppList); *lppList = NULL; } do { /* Read the size of the next item */ hRet = IStream_Read(lpStream, &ulSize,sizeof(ulSize),&ulRead); if(FAILED(hRet) || ulRead != sizeof(ulSize) || !ulSize) break; /* Read failed or read zero size (the end of the list) */ if(ulSize > 0xFFFF) { LARGE_INTEGER liZero; ULARGE_INTEGER ulPos; liZero.QuadPart = 0; /* Back the stream up; this object is too big for the list */ if(SUCCEEDED(IStream_Seek(lpStream, liZero, STREAM_SEEK_CUR, &ulPos))) { liZero.QuadPart = ulPos.QuadPart - sizeof(ULONG); IStream_Seek(lpStream, liZero, STREAM_SEEK_SET, NULL); } break; } else if (ulSize >= sizeof(SHLWAPI_CLIST)) { /* Add this new item to the list */ if(ulSize > ulBuffSize) { /* We need more buffer space, allocate it */ LPSHLWAPI_CLIST lpTemp; if (pItem == bBuff) lpTemp = (LPSHLWAPI_CLIST)LocalAlloc(LMEM_ZEROINIT, ulSize); else lpTemp = (LPSHLWAPI_CLIST)LocalReAlloc((HLOCAL)pItem, ulSize, LMEM_ZEROINIT|LMEM_MOVEABLE); if(!lpTemp) { hRet = E_OUTOFMEMORY; break; } ulBuffSize = ulSize; pItem = lpTemp; } pItem->ulSize = ulSize; ulSize -= sizeof(pItem->ulSize); /* already read this member */ /* Read the item Id and data */ hRet = IStream_Read(lpStream, &pItem->ulId, ulSize, &ulRead); if(FAILED(hRet) || ulRead != ulSize) break; SHLWAPI_20(lppList, pItem); /* Insert Item */ } } while(1); /* If we allocated space, free it */ if(pItem != bBuff) LocalFree((HLOCAL)pItem); return hRet; } /************************************************************************* * @ [SHLWAPI.19] * * Free a compact list. * * PARAMS * lpList [I] List to free * * RETURNS * Nothing. * * NOTES * See SHLWAPI_17. */ VOID WINAPI SHLWAPI_19(LPSHLWAPI_CLIST lpList) { TRACE("(%p)\n", lpList); if (lpList) LocalFree((HLOCAL)lpList); } /************************************************************************* * @ [SHLWAPI.20] * * Insert a new item into a compact list. * * PARAMS * lppList [0] Pointer to the List * lpNewItem [I] The new item to add to the list * * RETURNS * Success: S_OK. The item is added to the list. * Failure: An HRESULT error code. * * NOTES * If the size of the element to be inserted is less than the size of a * SHLWAPI_CLIST node, or the Id for the item is CLIST_ID_CONTAINER, * the call returns S_OK but does not actually add the element. * See SHLWAPI_17. */ HRESULT WINAPI SHLWAPI_20(LPSHLWAPI_CLIST* lppList, LPCSHLWAPI_CLIST lpNewItem) { LPSHLWAPI_CLIST lpInsertAt = NULL; ULONG ulSize; TRACE("(%p,%p)\n", lppList, lpNewItem); if(!lppList || !lpNewItem ) return E_INVALIDARG; if (lpNewItem->ulSize < sizeof(SHLWAPI_CLIST) || lpNewItem->ulId == CLIST_ID_CONTAINER) return S_OK; ulSize = lpNewItem->ulSize; if(ulSize & 0x3) { /* Tune size to a ULONG boundary, add space for container element */ ulSize = ((ulSize + 0x3) & 0xFFFFFFFC) + sizeof(SHLWAPI_CLIST); TRACE("Creating container item, new size = %ld\n", ulSize); } if(!*lppList) { /* An empty list. Allocate space for terminal ulSize also */ *lppList = (LPSHLWAPI_CLIST)LocalAlloc(LMEM_ZEROINIT, ulSize + sizeof(ULONG)); lpInsertAt = *lppList; } else { /* Append to the end of the list */ ULONG ulTotalSize = 0; LPSHLWAPI_CLIST lpIter = *lppList; /* Iterate to the end of the list, calculating the total size */ while (lpIter->ulSize) { ulTotalSize += lpIter->ulSize; lpIter = NextItem(lpIter); } /* Increase the size of the list */ lpIter = (LPSHLWAPI_CLIST)LocalReAlloc((HLOCAL)*lppList, ulTotalSize + ulSize+sizeof(ULONG), LMEM_ZEROINIT | LMEM_MOVEABLE); if(lpIter) { *lppList = lpIter; lpInsertAt = (LPSHLWAPI_CLIST)((char*)lpIter + ulTotalSize); /* At end */ } } if(lpInsertAt) { /* Copy in the new item */ LPSHLWAPI_CLIST lpDest = lpInsertAt; if(ulSize != lpNewItem->ulSize) { lpInsertAt->ulSize = ulSize; lpInsertAt->ulId = CLIST_ID_CONTAINER; lpDest++; } memcpy(lpDest, lpNewItem, lpNewItem->ulSize); /* Terminate the list */ lpInsertAt = NextItem(lpInsertAt); lpInsertAt->ulSize = 0; return lpNewItem->ulSize; } return S_OK; } /************************************************************************* * @ [SHLWAPI.21] * * Remove an item from a compact list. * * PARAMS * lppList [O] List to remove the item from * ulId [I] Id of item to remove * * RETURNS * Success: TRUE. * Failure: FALSE, If any parameters are invalid, or the item was not found. * * NOTES * See SHLWAPI_17. */ BOOL WINAPI SHLWAPI_21(LPSHLWAPI_CLIST* lppList, ULONG ulId) { LPSHLWAPI_CLIST lpList = 0; LPSHLWAPI_CLIST lpItem = NULL; LPSHLWAPI_CLIST lpNext; ULONG ulNewSize; TRACE("(%p,%ld)\n", lppList, ulId); if(lppList && (lpList = *lppList)) { /* Search for item in list */ while (lpList->ulSize) { if(lpList->ulId == ulId || (lpList->ulId == CLIST_ID_CONTAINER && lpList[1].ulId == ulId)) { lpItem = lpList; /* Found */ break; } lpList = NextItem(lpList); } } if(!lpItem) return FALSE; lpList = lpNext = NextItem(lpItem); /* Locate the end of the list */ while (lpList->ulSize) lpList = NextItem(lpList); /* Resize the list */ ulNewSize = LocalSize((HLOCAL)*lppList) - lpItem->ulSize; /* Copy following elements over lpItem */ memmove(lpItem, lpNext, (char *)lpList - (char *)lpNext + sizeof(ULONG)); if(ulNewSize <= sizeof(ULONG)) { LocalFree((HLOCAL)*lppList); *lppList = NULL; /* Removed the last element */ } else { lpList = (LPSHLWAPI_CLIST)LocalReAlloc((HLOCAL)*lppList, ulNewSize, LMEM_ZEROINIT|LMEM_MOVEABLE); if(lpList) *lppList = lpList; } return TRUE; } /************************************************************************* * @ [SHLWAPI.22] * * Find an item in a compact list. * * PARAMS * lpList [I] List to search * ulId [I] Id of item to find * * RETURNS * Success: A pointer to the list item found * Failure: NULL * * NOTES * See SHLWAPI_17. */ LPSHLWAPI_CLIST WINAPI SHLWAPI_22(LPSHLWAPI_CLIST lpList, ULONG ulId) { TRACE("(%p,%ld)\n", lpList, ulId); if(lpList) { while(lpList->ulSize) { if(lpList->ulId == ulId) return lpList; /* Matched */ else if(lpList->ulId == CLIST_ID_CONTAINER && lpList[1].ulId == ulId) return lpList + 1; /* Contained item matches */ lpList = NextItem(lpList); } } return NULL; }