windows-nt/Source/XPSP1/NT/shell/shell32/copy.c
2020-09-26 16:20:57 +08:00

8443 lines
281 KiB
C

// Copyright (c) <1995-1999> Microsoft Corporation
#include "shellprv.h"
#pragma hdrstop
#include <msi.h>
#include <msip.h>
#include <aclapi.h> // for TreeResetNamedSecurityInfo
#include "shlwapip.h" // for SHGlobalCounterDecrement
#include "ynlist.h"
#define INTERNAL_COPY_ENGINE
#include "copy.h"
#include "shell32p.h"
#include "control.h"
#include "cdburn.h"
#include "propsht.h"
#include "prshtcpp.h"
#define REG_VAL_GENERAL_RENAMEHTMLFILE TEXT("RenameHtmlFile")
#define TF_DEBUGCOPY 0x00800000
#define VERBOSE_STATUS
// REVIEW, we should tune this size down as small as we can
// to get smoother multitasking (without effecting performance)
#define COPYMAXBUFFERSIZE 0x10000 // 0xFFFF this is 32-bit code!
#define MIN_MINTIME4FEEDBACK 5 // is it worth showing estimated time to completion feedback?
#define MS_RUNAVG 10000 // ms, window for running average time to completion estimate
#define MS_TIMESLICE 2000 // ms, (MUST be > 1000!) first average time to completion estimate
#define MAXDIRDEPTH 128 // # of directories we will deal with recursivly
#define SHOW_PROGRESS_TIMEOUT 1000 // 1 second
#define MINSHOWTIME 1000 // 1 sec
// progress dialog message
#define PDM_SHUTDOWN WM_APP
#define PDM_NOOP (WM_APP + 1)
#define PDM_UPDATE (WM_APP + 2)
#define OPER_MASK 0x0F00
#define OPER_ENTERDIR 0x0100
#define OPER_LEAVEDIR 0x0200
#define OPER_DOFILE 0x0300
#define OPER_ERROR 0x0400
#define FOFuncToStringID(wFunc) (IDS_UNDO_FILEOP + wFunc)
//
// The following is a list of folder suffixes in all international languages. This list is NOT
// read from a resource because we do NOT want the strings in this list to be mistakenly localized.
// This list will allow NT5 shell to operate on files created by any international version of
// office 9.
// This list is taken from "http://officeweb/specs/webclient/files.htm"
//
// WARNING: Do not localize the strings in this table. Do not make any changes to this table
// without consulting AlanRa (Office9 PM)
//
static const LPCTSTR c_apszSuffixes[] =
{
TEXT(".files"),
TEXT("_files"),
TEXT("-Dateien"),
TEXT("_fichiers"),
TEXT("_bestanden"),
TEXT("_file"),
TEXT("_archivos"),
TEXT("-filer"),
TEXT("_tiedostot"),
TEXT("_pliki"),
TEXT("_soubory"),
TEXT("_elemei"),
TEXT("_ficheiros"),
TEXT("_arquivos"),
TEXT("_dosyalar"),
TEXT("_datoteke"),
TEXT("_fitxers"),
TEXT("_failid"),
TEXT("_fails"),
TEXT("_bylos"),
TEXT("_fajlovi"),
TEXT("_fitxategiak"),
};
// The reg value under HKCU\REGSTR_PATH_EXPLORER that specifies Connection ON/OFF switch
#define REG_VALUE_NO_FILEFOLDER_CONNECTION TEXT("NoFileFolderConnection")
////////////////////////////////////////////////////////////////////////////
///// directory tree cache.
// this is set if pdtnChild has not been traversed (as opposed to NULL which means
// there are no children
#define DTN_DELAYED ((PDIRTREENODE)-1)
// DIRTREENODE is a node in a linked list/tree cache of the directory structure.
// except for the top level (which is specified by the caller of the api), the order
// are all files first, then all directories.
typedef struct _dirtreenode {
struct _dirtreenode *pdtnNext; // sibling
struct _dirtreenode *pdtnChild; // head of children linked list
struct _dirtreenode *pdtnParent;
DWORD dwFileAttributes;
FILETIME ftCreationTime;
FILETIME ftLastWriteTime;
DWORD nFileSizeLow;
DWORD nFileSizeHigh;
LARGE_INTEGER liFileSizeCopied;
BOOL fNewRoot : 1;
BOOL fDummy : 1; // this marks the node as a dummy node (a wildcard that didn't match anything)
BOOL fConnectedElement : 1; // this marks the node as an element that was implicitly added
// to the Move/Copy source list because of an office9 type of
// connection established in the registry.
//The following is a union because not all nodes need all the fields.
union {
// The following is valid only if fConnectedElement is FALSE.
struct _dirtreenode *pdtnConnected;
// The following structure is valid only if fConnectedElemet is TRUE.
struct {
LPTSTR pFromConnected; // if fNewRoot && fConnectedElement, then these two elements
LPTSTR pToConnected; // have the pFrom and pTo.
DWORD dwConfirmation; // The result of confirnation given by end-user
} ConnectedInfo;
};
TCHAR szShortName[14];
TCHAR szName[1]; // this struct is dynamic
} DIRTREENODE, *PDIRTREENODE;
typedef struct {
BOOL fChanged;
DWORD dwFiles; // number of files
DWORD dwFolders; // number of folders
LARGE_INTEGER liSize; // total size of all files
} DIRTOTALS, *PDIRTOTALS;
typedef struct {
UINT oper;
DIRTOTALS dtAll; // totals for all files
DIRTOTALS dtDone; // totals of what's done
BOOL fChangePosted;
PDIRTREENODE pdtn; // first directory tree node
PDIRTREENODE pdtnCurrent;
PDIRTREENODE pdtnConnectedItems; //Pointer to the begining of connected elements node.
TCHAR bDiskCheck[26];
// how much does each operation cost in the progress...
int iFilePoints;
int iFolderPoints;
int iSizePoints;
LPTSTR pTo; // this holds the top level target list
LPTSTR pFrom; // this holds the top level source list
BOOL fMultiDest;
TCHAR szSrcPath[MAX_PATH];
TCHAR szDestPath[MAX_PATH]; // this is the current destination for pdtn and all it's children (not siblings)
// lpszDestPath includes pdtn's first path component
HDSA hdsaRenamePairs;
} DIRTREEHEADER, *PDIRTREEHEADER;
// We spend a lot of time creating simple PIDLs, so use this cache
// to speed things up.
typedef struct SIMPLEPIDLCACHE {
IBindCtx *pbcFile; // Empty filesys bind context for files
IBindCtx *pbcFolder; // Empty filesys bind context for folders
IShellFolder *psfDesktop; // Desktop folder (for ParseDisplayName)
int iInit; // 0 = not inited; 1 = inited; -1 = init failed
IShellFolder *psf; // Current folder
LPITEMIDLIST pidlFolder; // Current folder
TCHAR szFolder[MAX_PATH]; // Current folder
} SIMPLEPIDLCACHE, *PSIMPLEPIDLCACHE;
typedef struct {
int nRef; // struct reference count
int nSourceFiles;
LPTSTR lpCopyBuffer; // global file copy buffer
UINT uSize; // size of this buffer
FILEOP_FLAGS fFlags; // from SHFILEOPSTRUCT
HWND hwndProgress; // dialog/progress window
HWND hwndDlgParent; // parent window for message boxes
CONFIRM_DATA cd; // confirmation stuff
UNDOATOM *lpua; // the undo atom that this file operation will make
BOOL fNoConfirmRecycle;
BOOL bAbort;
BOOL fMerge; // are we doing a merge of folders
BOOL fDone;
BOOL fProgressOk;
BOOL fDTBuilt;
BOOL fLostEncryptOk;
BOOL fFromCDRom; // Clear readonly bits if copying from CDRom
// folowing fields are used for giving estimated time for completion
// feedback to the user during longer than MINTIME4FEEDBACK operations
BOOL fFlushWrites; // Should we flush writes for destinations on slow links
DWORD dwPreviousTime; // calculate transfer rate
int iLastProgressPoints; // how many progress points we had the last time we updated the time est
DWORD dwPointsPerSec;
LPCTSTR lpszProgressTitle;
LPSHFILEOPSTRUCT lpfo;
DIRTREEHEADER dth;
BOOL fInitialize;
const WIN32_FIND_DATA* pfd;
BOOL bStreamLossPossible; // Could stream loss happen in this directory?
SIMPLEPIDLCACHE spc;
} COPY_STATE, *LPCOPY_STATE;
// we have a seperate struct that we pass off to the FOUIThread so that he can get to the pcs,
// but since the FOUIThread can outlive the main thread (!!) in some cases, we can't let him have a
// ref to pcs->lpfo since it is owned by SHFileOperations caller and we crash if we try to refrence
// it after SHFileOperation returns and the caller has freed the memory. The only two things the
// FOUIThread uses out of the pcs->lpfo are the wFunc and the lpszProgressTitle (to see if the
// recycle bin was being emptied or not), so we make private copies of that info for the thread.
typedef struct {
COPY_STATE* pcs;
UINT wFunc;
BOOL bIsEmptyRBOp;
} FOUITHREADINFO, *PFOUITHREADINFO;
// Information to determine folder's movability to the recycle bin
typedef struct {
BOOL bProcessedRoot; // tells if we are the first call in the recursive chain and we need to do root-specific processing
int cchBBDir; // count of characters in the recycle bin dir (eg "C:\Recycler\<sid>")
int cchDelta; // count of characters that the path will increase (or decrease if negative) by when moved under the recycle bin directory
ULONGLONG cbSize; // size of the folder
TCHAR szNonDeletableFile[MAX_PATH]; // an output buffer that holds the name of the file that cannot be deleted, if one exists
TCHAR szPath[MAX_PATH]; // scratch buffer for stack savings when recursing
WIN32_FIND_DATA fd; // also for stack savings
} FOLDERDELETEINFO;
// function declarations
void _ProcessNameMappings(LPTSTR pszTarget, HDSA hdsaRenamePairs);
int GetNameDialog(HWND hwnd, COPY_STATE *pcs, BOOL fMultiple,UINT wOp, LPTSTR pFrom, LPTSTR pTo);
void AddRenamePairToHDSA(LPCTSTR pszOldPath, LPCTSTR pszNewPath, HDSA* phdsaRenamePairs);
BOOL FOQueryAbort(COPY_STATE *pcs);
UINT DTAllocConnectedItemNodes(PDIRTREEHEADER pdth, COPY_STATE *pcs, WIN32_FIND_DATA *pfd, LPTSTR pszPath, BOOL fRecurse, PDIRTREENODE *ppdtnConnectedItems);
void CALLBACK FOUndo_Invoke(UNDOATOM *lpua);
LONG CheckFolderSizeAndDeleteability(LPCTSTR pszDir, FOLDERDELETEINFO* pfdi, LPCOPY_STATE pcs);
BOOL DeleteFileBB(LPTSTR pszFile, INT *piReturn, COPY_STATE *pcs, BOOL fIsDir, WIN32_FIND_DATA *pfd, HDPA *phdpaDeletedFiles);
BOOL DTDiskCheck(PDIRTREEHEADER pdth, COPY_STATE *pcs, LPTSTR pszPath)
{
int iDrive = PathGetDriveNumber(pszPath);
if (iDrive != -1)
{
if (!pdth->bDiskCheck[iDrive])
{
HWND hwnd = pcs->hwndDlgParent;
TCHAR szDrive[] = TEXT("A:\\");
szDrive[0] += (CHAR)iDrive;
// Sometimes pszPath is a dir and sometimes it's a file. All we really care about is if the
// drive is ready (inserted, formated, net path mapped, etc). We know that we don't have a
// UNC path because PathGetDriveNumber would have failed and we are already busted in terms
// of mounted volumes, again because we use PathGetDriveNumber, so we don't have to worry about
// these two cases. As such we build the root path and use that instead.
pdth->bDiskCheck[iDrive] = SUCCEEDED(SHPathPrepareForWrite(((pcs->fFlags & FOF_NOERRORUI) ? NULL : hwnd), NULL, szDrive, 0));
}
return pdth->bDiskCheck[iDrive];
}
return TRUE; // always succeed for net drives
}
//--------------------------------------------------------------------------------------------
// Simple pidl cache stuff
//--------------------------------------------------------------------------------------------
void SimplePidlCache_Release(SIMPLEPIDLCACHE *pspc)
{
ATOMICRELEASE(pspc->pbcFile);
ATOMICRELEASE(pspc->pbcFolder);
ATOMICRELEASE(pspc->psfDesktop);
ATOMICRELEASE(pspc->psf);
ILFree(pspc->pidlFolder);
}
const WIN32_FIND_DATA c_fdFolder = { FILE_ATTRIBUTE_DIRECTORY };
BOOL SimplePidlCache_Init(SIMPLEPIDLCACHE *pspc)
{
ASSERT(pspc->iInit == 0);
if (SUCCEEDED(SHCreateFileSysBindCtx(NULL, &pspc->pbcFile)) &&
SUCCEEDED(SHCreateFileSysBindCtx(&c_fdFolder, &pspc->pbcFolder)) &&
SUCCEEDED(SHGetDesktopFolder(&pspc->psfDesktop)))
{
pspc->psf = pspc->psfDesktop;
pspc->psf->lpVtbl->AddRef(pspc->psf);
// It's okay to leave pidlFolder as NULL; ILCombine won't barf
pspc->iInit = 1;
return TRUE;
}
else
{
pspc->iInit = -1;
return FALSE;
}
}
LPITEMIDLIST SimplePidlCache_GetFilePidl(SIMPLEPIDLCACHE *pspc, LPCTSTR pszFile)
{
LPITEMIDLIST pidlChild;
LPITEMIDLIST pidlRet;
LPTSTR pszFileName;
TCHAR szFolder[MAX_PATH];
USES_CONVERSION;
if (pspc->iInit < 0)
return NULL; // Initialization failed
if (!pspc->iInit && !SimplePidlCache_Init(pspc))
return NULL;
// If this file is in a different folder from the one we cached,
// need to dump the old one and get a new one.
lstrcpyn(szFolder, pszFile, ARRAYSIZE(szFolder));
PathRemoveFileSpec(szFolder);
// We use StrCmpC instead of lstrcmpi because the vast majority
// of the time, the path will match even in case, and if we get
// it wrong, it's no big whoop: we just don't use the cache.
if (StrCmpC(pspc->szFolder, szFolder) != 0)
{
LPITEMIDLIST pidlFolder = NULL; // In case it's on the desktop
IShellFolder *psf;
if (szFolder[0]) // An actual folder
{
// Get a simple pidl to the folder.
if (FAILED(pspc->psfDesktop->lpVtbl->ParseDisplayName(pspc->psfDesktop, NULL,
pspc->pbcFolder, T2W(szFolder), NULL, &pidlFolder, NULL)))
return NULL;
}
else // Going for the desktop
{
/* pidlFolder already preinitialized to NULL */
}
// Bind to that folder
if (FAILED(SHBindToObject(pspc->psfDesktop, IID_X_PPV_ARG(IShellFolder, pidlFolder, &psf))))
{
ILFree(pidlFolder);
return NULL;
}
// Woo-hoo, everybody is happy. Save the results into our cache.
ATOMICRELEASE(pspc->psf);
pspc->psf = psf;
ILFree(pspc->pidlFolder);
pspc->pidlFolder = pidlFolder;
lstrcpyn(pspc->szFolder, szFolder, ARRAYSIZE(pspc->szFolder));
}
// Get a simple pidl to the filename
pszFileName = PathFindFileName(pszFile); // T2W is a macro with multiple evaluation
if (FAILED(pspc->psf->lpVtbl->ParseDisplayName(pspc->psf, NULL, pspc->pbcFile,
T2W(pszFileName), NULL, &pidlChild, NULL)))
return NULL;
// Combine it with the parent
pidlRet = ILCombine(pspc->pidlFolder, pidlChild);
ILFree(pidlChild);
return pidlRet;
}
//--------------------------------------------------------------------------------------------
// ConvertToConnectedItemname:
// Given a file/folder name, this function checks to see if it has any connection and if
// there is a connection, then it will convert the given name to that of the connected element
// and return length of the prefix. If no connection exists, it returns zero.
// The fDirectory parameter specifies if the given filename is a FOLDER or not!
//
// dwBuffSize: The size of pszFileName buffer in CHARACTERS.
//
// Examples:
// "foo.htm" => "foo*" (returns 3 because the prefix("foo") length is 3)
// "foobar files" => "foobar.htm?" (returns 6 as the prefix length)
//
//--------------------------------------------------------------------------------------------
int ConvertToConnectedItemName(LPTSTR pszFileName, DWORD dwBuffSize, BOOL fDirectory)
{
LPTSTR pszDest, pszConnectedElemSuffix;
int iPrefixLength;
if (fDirectory)
{
// Look for a suffix which is one of the standard suffixes.
if (!(pszDest = (LPTSTR)PathFindSuffixArray(pszFileName, c_apszSuffixes, ARRAYSIZE(c_apszSuffixes))))
return FALSE;
// " files" suffix is found. Replace it with ".htm?"
pszConnectedElemSuffix = TEXT(".htm?");
}
else
{
// Look for the extension ".htm" or ".html" and replace it with "*".
if (!(pszDest = PathFindExtension(pszFileName)))
return FALSE;
if (lstrcmpi(pszDest, TEXT(".htm")) && (lstrcmpi(pszDest, TEXT(".html"))))
return FALSE;
// Extension ".htm" or ".html" is found. Replace it with "*"
pszConnectedElemSuffix = (LPTSTR)c_szStar;
}
iPrefixLength = (int)(pszDest - pszFileName);
//Check if the input buffer is big enough to over-write the suffix in-place
if ((((int)dwBuffSize - iPrefixLength) - 1) < lstrlen(pszConnectedElemSuffix))
return 0;
//Replace the source suffix with the connected element's suffix.
lstrcpy(pszDest, pszConnectedElemSuffix);
return(iPrefixLength);
}
PDIRTREENODE DTAllocNode(PDIRTREEHEADER pdth, WIN32_FIND_DATA* pfd, PDIRTREENODE pdtnParent, PDIRTREENODE pdtnNext, BOOL fConnectedElement)
{
int iLen = pfd ? lstrlen(pfd->cFileName) * sizeof(TCHAR) : 0;
PDIRTREENODE pdtn = (PDIRTREENODE)LocalAlloc(LPTR, sizeof(DIRTREENODE) + iLen);
if (pdtn)
{
pdtn->fConnectedElement = fConnectedElement;
// Initializing the following to NULL is not needed because of the LPTR (zero init) done
// above.
// if (fConnectedElement)
//{
// pdtn->ConnectedInfo.pFromConnected = pdtn->ConnectedInfo.pToConnected = NULL;
// pdtn->ConnectedInfo.dwConfirmation = 0;
//}
//else
// pdtn->pdtnConnected = NULL;
pdtn->pdtnParent = pdtnParent;
pdtn->pdtnNext = pdtnNext;
if (pfd)
{
pdtn->dwFileAttributes = pfd->dwFileAttributes;
pdtn->ftCreationTime = pfd->ftCreationTime;
pdtn->ftLastWriteTime = pfd->ftLastWriteTime;
pdtn->nFileSizeLow = pfd->nFileSizeLow;
pdtn->nFileSizeHigh = pfd->nFileSizeHigh;
// only the stuff we care about
lstrcpy(pdtn->szShortName, pfd->cAlternateFileName);
lstrcpy(pdtn->szName, pfd->cFileName);
if (ISDIRFINDDATA(*pfd))
{
pdth->dtAll.dwFolders++;
pdtn->pdtnChild = DTN_DELAYED;
}
else
{
LARGE_INTEGER li;
li.LowPart = pfd->nFileSizeLow;
li.HighPart = pfd->nFileSizeHigh;
pdth->dtAll.liSize.QuadPart += li.QuadPart;
pdth->dtAll.dwFiles++;
}
// increment the header stats
pdth->dtAll.fChanged = TRUE;
}
}
return pdtn;
}
#if defined(DEBUG) /// && defined(DEBUGCOPY)
void DebugDumpPDTN(PDIRTREENODE pdtn, LPTSTR ptext)
{
DebugMsg(TF_DEBUGCOPY, TEXT("***** PDTN %x (%s)"), pdtn, ptext);
//Safe-guard against pdtn being NULL!
if (pdtn)
{
DebugMsg(TF_DEBUGCOPY, TEXT("** %s %s"), pdtn->szShortName, pdtn->szName);
DebugMsg(TF_DEBUGCOPY, TEXT("** %x %d"), pdtn->dwFileAttributes, pdtn->nFileSizeLow);
DebugMsg(TF_DEBUGCOPY, TEXT("** %x %x %x"), pdtn->pdtnParent, pdtn->pdtnNext, pdtn->pdtnChild);
DebugMsg(TF_DEBUGCOPY, TEXT("** NewRoot:%x, Connected:%x, Dummy:%x"), pdtn->fNewRoot, pdtn->fConnectedElement, pdtn->fDummy);
if (pdtn->fConnectedElement)
{
DebugMsg(TF_DEBUGCOPY, TEXT("**** Connected: pFromConnected:%s, pToConnected:%s, dwConfirmation:%x"), pdtn->ConnectedInfo.pFromConnected,
pdtn->ConnectedInfo.pToConnected, pdtn->ConnectedInfo.dwConfirmation);
}
else
{
DebugMsg(TF_DEBUGCOPY, TEXT("**** Origin: pdtnConnected:%x"), pdtn->pdtnConnected);
}
}
else
{
DebugMsg(TF_DEBUGCOPY, TEXT("** NULL pointer(PDTN)"));
}
}
#else
#define DebugDumpPDTN(p, x) 0
#endif
BOOL DoesSuffixMatch(LPTSTR lpSuffix, const LPCTSTR *apSuffixes, int iArraySize)
{
while (iArraySize--)
{
// Note: This must be a case sensitive compare, because we don't want to pickup
// "Program Files".
if (!lstrcmp(lpSuffix, *apSuffixes++))
return TRUE;
}
return FALSE;
}
//--------------------------------------------------------------------------------------------
//
// DTPathToDTNode:
// This function is used to build a list of nodes that correspond to the given pszPath.
// This list is built under "ppdtn". If ppdtnConnectedItems is given, another list of nodes that
// correspond to the connected elements(files/folders) of the nodes in the first list is also built
// under "ppdtnConnectedItems".
//
// WARNING: This parties directly on pszPath and pfd so that it doesn't need to allocate
// on the stack. This recurses, so we want to use as little stack as possible
//
// this will wack off one component from pszPath
//
//
// ppdtn: Points to where the header of the list being built will be stored.
// ppdtnConnectedItems: If this is NULL, then we are not interested in finding and building the
// connected elements. If this is NOT null, it points to where the header of
// the connected items list will be stored.
// fConnectedElement: Each node being built under ppdtn needs to be marked with this bit.
// iPrefixLength: This parameter is zero if fConnectedElement is FALSE. Otherwise, it contains the
// Length of the prefix part of the file or foldername (path is NOT included).
// For example, if "c:\windows\foo*" is passed in, iPrefixLength is 3 (length of "foo")
//
// dwFilesOrFolders parameter can specify if we need to look for only FILES or FOLDERs or BOTH.
#define DTF_FILES_ONLY 0x00000001 //Operate only on Files.
#define DTF_FOLDERS_ONLY 0x00000002 //Operate only on Folders.
#define DTF_FILES_AND_FOLDERS (DTF_FILES_ONLY | DTF_FOLDERS_ONLY) //Operate on files AND folders.
UINT DTPathToDTNode(PDIRTREEHEADER pdth, COPY_STATE *pcs, LPTSTR pszPath, BOOL fRecurse,
DWORD dwFilesOrFolders, PDIRTREENODE* ppdtn, WIN32_FIND_DATA *pfd,
PDIRTREENODE pdtnParent, PDIRTREENODE* ppdtnConnectedItems, BOOL fConnectedElement,
int iPrefixLength)
{
int iError = 0;
// this points to the var where all items are inserted.
// folders are placed after it, files are placed before
// keep the stack vars to a minimum because this is recursive
PDIRTREENODE *ppdtnMiddle = ppdtn;
BOOL fNeedToFindNext = TRUE;
HANDLE hfind = FindFirstFile(pszPath, pfd);
DebugMsg(TF_DEBUGCOPY, TEXT("DTPathToDTNode Entering %s"), pszPath);
*ppdtnMiddle = NULL; // in case there are no children
if (hfind == INVALID_HANDLE_VALUE)
{
// this is allowable only if the path is wild...
// and the parent exists
if (PathIsWild(pszPath))
{
PathRemoveFileSpec(pszPath);
if (PathFileExists(pszPath))
{
return 0;
}
}
return OPER_ERROR | ERROR_FILE_NOT_FOUND;
}
//Remove the filespec before passing it onto DTAllocConnectedItemNodes.
PathRemoveFileSpec(pszPath);
do
{
// We skip the following files:
// "." and ".." filenames
// Folders when DTF_FILES_ONLY is set
// Files when DTF_FOLDERS_ONLY is set
if (!PathIsDotOrDotDot(pfd->cFileName) &&
(((dwFilesOrFolders & DTF_FILES_ONLY) && !ISDIRFINDDATA(*pfd)) ||
((dwFilesOrFolders & DTF_FOLDERS_ONLY) && ISDIRFINDDATA(*pfd))))
{
//Check if we are looking for connected elements
if ((!pdtnParent) && fConnectedElement)
{
// We found what we are looking for. If we are looking for a top-level connected item and
// if it is a folder, then we need to make sure that the suffix exactly matches one of the
// suffixes in the array c_apszSuffixes[].
LPTSTR lpSuffix = (LPTSTR)(pfd->cFileName + iPrefixLength);
if (ISDIRFINDDATA(*pfd))
{
// What we found is a directory!
// See if it has one of the standard suffixes for connected folders.
if (!DoesSuffixMatch(lpSuffix, c_apszSuffixes, ARRAYSIZE(c_apszSuffixes)))
continue; //This is not what we look for. So, find next.
}
else
{
// What we found is a file (i.e Not a directory)
// See if it has one of the standard suffixes for html files.
if (lstrcmpi(lpSuffix, TEXT(".htm")) && lstrcmpi(lpSuffix, TEXT(".html")))
continue; //This is not what we look for. So, find next.
}
// Now we know that we found the connected element that we looked for.
// So, no need to FindNext again. We can get out of the loop after processing
// it once.
fNeedToFindNext = FALSE;
}
*ppdtnMiddle = DTAllocNode(pdth, pfd, pdtnParent, *ppdtnMiddle, fConnectedElement);
if (!*ppdtnMiddle)
{
FindClose(hfind);
return OPER_ERROR | ERROR_NOT_ENOUGH_MEMORY;
}
// make sure that the parent's pointer always points to the head of
// this linked list
if (*ppdtn == (*ppdtnMiddle)->pdtnNext)
*ppdtn = (*ppdtnMiddle);
DebugDumpPDTN(*ppdtnMiddle, TEXT("DTPathToDTNode, DTAllocNode"));
//We need to check for Connected elements only for the top level items
if ((!(pcs->fFlags & FOF_NO_CONNECTED_ELEMENTS)) && ppdtnConnectedItems)
{
//Make sure this is a top level item
ASSERT(!pdtnParent);
//Create a list of connected items and attach it to the head of the list.
iError = DTAllocConnectedItemNodes(pdth, pcs, pfd, pszPath, fRecurse, ppdtnConnectedItems);
DebugDumpPDTN(*ppdtnConnectedItems, TEXT("DTPathToDTNode, DTAllocConnectedNodes"));
// It is possible that the connected files do not exist. That condition is not really
// an error. So, we check for insufficient memory error condition alone here.
if (iError == (OPER_ERROR | ERROR_NOT_ENOUGH_MEMORY))
{
FindClose(hfind);
return(iError);
}
//If a connected item exists, then make the origin item point to this connected item.
if (*ppdtnConnectedItems)
{
(*ppdtnMiddle)->pdtnConnected = *ppdtnConnectedItems;
// Also by default, set the Confirmation result to NO so that the connected element
// will not be copied/moved etc., in case of a conflict. However, if the origin had
// a conflict, we would put up a confirmation dlg and the result of that dlg will
// over-write this value.
(*ppdtnConnectedItems)->ConnectedInfo.dwConfirmation = IDNO;
}
//Move to the last node in the connected items list.
while (*ppdtnConnectedItems)
ppdtnConnectedItems = &((*ppdtnConnectedItems)->pdtnNext);
}
else
{
// This should have been initialized to zero during allocation, but lets be paranoid
ASSERT(NULL == (*ppdtnMiddle)->pdtnConnected);
}
// if this is not a directory, move the ppdtnMiddle up one
if (!ISDIRFINDDATA(*pfd))
{
ppdtnMiddle = &(*ppdtnMiddle)->pdtnNext;
}
}
} while (fNeedToFindNext && !FOQueryAbort(pcs) && FindNextFile(hfind, pfd));
iError = 0; //It is possible that iError contains other errors value now! So, reset it!
FindClose(hfind);
// now go and recurse into folders (if desired)
// we don't have to check to see if these pdtn's are dirs, because the
// way we inserted them above ensures that everything in from of
// ppdtnMiddle are folders
// we're going to tack on a specific child
// then add the *.* after that
while (!FOQueryAbort(pcs) && *ppdtnMiddle)
{
BOOL fRecurseThisItem = fRecurse;
if ((*ppdtnMiddle)->dwFileAttributes & FILE_ATTRIBUTE_REPARSE_POINT)
{
// Recurse into reparse points unless they asked not to
if (pcs->fFlags & FOF_NORECURSEREPARSE)
{
fRecurseThisItem = FALSE;
}
}
if (fRecurseThisItem)
{
if (PathAppend(pszPath, (*ppdtnMiddle)->szName))
{
if (PathAppend(pszPath, c_szStarDotStar))
{
// NULL indicates that we do not want to get the connected elements.
// This is because we want the connected elements only for the top-level items.
iError = DTPathToDTNode(pdth, pcs, pszPath, TRUE, DTF_FILES_AND_FOLDERS,
&((*ppdtnMiddle)->pdtnChild), pfd, *ppdtnMiddle, NULL, fConnectedElement, 0);
}
else
{
iError = OPER_ERROR | DE_INVALIDFILES;
}
PathRemoveFileSpec(pszPath);
}
else
{
iError = OPER_ERROR | DE_INVALIDFILES;
}
}
else
{
// if we don't want to recurse, just mark them all as having no children
(*ppdtnMiddle)->pdtnChild = NULL;
}
if (iError)
{
return iError;
}
ppdtnMiddle = &(*ppdtnMiddle)->pdtnNext;
}
return 0;
}
UINT DTAllocConnectedItemNodes(PDIRTREEHEADER pdth, COPY_STATE *pcs, WIN32_FIND_DATA *pfd, LPTSTR pszPath, BOOL fRecurse, PDIRTREENODE *ppdtnConnectedItems)
{
// Since DTAllocConnectedItemNodes() gets called only for the top-level items in the src list,
// there is no danger of this function getting called recursively. Hence, I didn't worry about
// allocating the following on the stack.
// If "too-much-stack-is-used" problem arises, we can optimize the stack usage by splitting
// the following function into two such that the most common case (of no connection)
// doesn't use much stack.
DWORD dwFileOrFolder;
TCHAR szFullPath[MAX_PATH];
TCHAR szFileName[MAX_PATH];
WIN32_FIND_DATA fd;
int iPrefixLength; //This is the length of "foo" if the filename is "foo.htm" or "foo files"
//Make a copy of the filename; This copy will get munged by ConvertToConnectedItemName().
lstrcpy(szFileName, pfd->cFileName);
// Convert the given file/foder name into the connected item's name with wild card characters.
if (!(iPrefixLength = ConvertToConnectedItemName(szFileName, ARRAYSIZE(szFileName), ISDIRFINDDATA(*pfd))))
return 0; //No connections exist for the given folder/file.
// Now szFileName has the name of connected element with wildcard character.
// If the given element is a directory, we want to look for connected FILES only and
// if the given element is a file, we want to look for connected FOLDERS only.
dwFileOrFolder = ISDIRFINDDATA(*pfd) ? DTF_FILES_ONLY : DTF_FOLDERS_ONLY;
// Form the file/folder name with the complete path!
lstrcpy(szFullPath, pszPath);
PathAppend(szFullPath, szFileName);
// The file-element has some "connected" items.
DebugMsg(TF_DEBUGCOPY, TEXT("DTAllocConnectedItemNodes Looking for %s"), szFullPath);
return(DTPathToDTNode(pdth, pcs, szFullPath, fRecurse, dwFileOrFolder, ppdtnConnectedItems, &fd, NULL, NULL, TRUE, iPrefixLength));
}
void DTInitProgressPoints(PDIRTREEHEADER pdth, COPY_STATE *pcs)
{
pdth->iFilePoints = 1;
pdth->iFolderPoints = 1;
switch (pcs->lpfo->wFunc)
{
case FO_RENAME:
case FO_DELETE:
pdth->iSizePoints = 0;
break;
case FO_COPY:
pdth->iSizePoints = 1;
break;
case FO_MOVE:
if (PathIsSameRoot(pcs->lpfo->pFrom, pcs->lpfo->pTo))
{
pdth->iSizePoints = 0;
}
else
{
// if it's across volumes, these points increase
// because we need to nuke the source as well as
// create the target...
// whereas we don't need to nuke the "size" of the source
pdth->iFilePoints = 2;
pdth->iFolderPoints = 2;
pdth->iSizePoints = 1;
}
break;
}
}
UINT DTBuild(COPY_STATE* pcs)
{
PDIRTREEHEADER pdth = &pcs->dth;
WIN32_FIND_DATA fd;
TCHAR szPath[MAX_PATH];
PDIRTREENODE *ppdtn;
PDIRTREENODE *ppdtnConnectedItems;
int iError = 0;
pcs->dth.pFrom = (LPTSTR)pcs->lpfo->pFrom;
pcs->dth.pTo = (LPTSTR)pcs->lpfo->pTo;
// A tree of original items will be built under ppdtn.
ppdtn = &pdth->pdtn;
// A tree of items "connected" to the orginal items will be built under ppdtnConnectedItems.
ppdtnConnectedItems = &pdth->pdtnConnectedItems;
DTInitProgressPoints(pdth, pcs);
while (!FOQueryAbort(pcs) && *pdth->pFrom)
{
BOOL fRecurse = TRUE;
switch (pcs->lpfo->wFunc)
{
case FO_MOVE:
// The move operation doesn't need to recurse if we are moving from and to the same
// volume. In this case we know that we don't need to display any warnings for
// things like LFN to 8.3 filename conversion or stream loss. Instead, we can do
// the operation with one single win32 file operation that just does a rename.
// NTRAID89119-2000/02/25-toddb
// This is only true if we don't cross a mount point! If we cross
// a mount point then we might have to warn about these things.
if ((pcs->fFlags & FOF_NORECURSION) || PathIsSameRoot(pdth->pFrom, pdth->pTo))
{
fRecurse = FALSE;
}
break;
case FO_COPY:
// For a copy we always recurse unless we're told not to.
if (pcs->fFlags & FOF_NORECURSION)
{
fRecurse = FALSE;
}
break;
case FO_RENAME:
// for a rename we never recurse
fRecurse = FALSE;
break;
case FO_DELETE:
// for a delete we don't need to recurse IF the recycle bin will be able to handle
// the given item. If the recycle bin handles the delete then we can undo from
// the recycle bin if we need to.
if ((pcs->fFlags & FOF_ALLOWUNDO) && BBWillRecycle(pdth->pFrom, NULL))
{
fRecurse = FALSE;
}
break;
}
lstrcpy(szPath, pdth->pFrom);
DebugMsg(TF_DEBUGCOPY, TEXT("DTBuild: %s"), szPath);
// If the file is on removable media, we need to check for media in the drive.
// Prompt the user to insert the media if it's missing.
if (!DTDiskCheck(pdth, pcs, szPath))
{
iError = ERROR_CANCELLED;
break;
}
iError = DTPathToDTNode(pdth, pcs, szPath, fRecurse,
((PathIsWild(pdth->pFrom) && (pcs->lpfo->fFlags & FOF_FILESONLY)) ? DTF_FILES_ONLY : DTF_FILES_AND_FOLDERS),
ppdtn,&fd, NULL, ppdtnConnectedItems, FALSE, 0);
DebugMsg(TF_DEBUGCOPY, TEXT("DTBuild: returned %d"), iError);
// FEATURE: If an error occured we should allow the user to skip the file that caused the error. That way
// if one of the source files doesn't exists the rest will still get copied. Do this only in the multi-
// source case, blah blah blah. This helps in the case where one of the source files cannot be moved or
// copied (usually due to Access Denied, could be insuffecent permissions or file is in use, etc).
if (iError)
break;
if (!(*ppdtn) && PathIsWild(pdth->pFrom))
{
// no files are associated with this path... this
// can happen when we have wildcards...
// alloc a dummy node
*ppdtn = DTAllocNode(pdth, NULL, NULL, NULL, FALSE);
if (*ppdtn)
{
(*ppdtn)->fDummy = TRUE;
}
}
if (*ppdtn)
{
// mark this as the start of a root spec... this is
// necessary in case we have several wild specs
(*ppdtn)->fNewRoot = TRUE;
}
if (*ppdtnConnectedItems)
{
// Mark this as the start of a root spec.
(*ppdtnConnectedItems)->fNewRoot = TRUE;
// For connected items, we need to remember the path.
(*ppdtnConnectedItems)->ConnectedInfo.pFromConnected = pdth->pFrom;
(*ppdtnConnectedItems)->ConnectedInfo.pToConnected = pdth->pTo;
}
while (*ppdtn)
{
ppdtn = &(*ppdtn)->pdtnNext;
}
while (*ppdtnConnectedItems)
{
ppdtnConnectedItems = &(*ppdtnConnectedItems)->pdtnNext;
}
pdth->pFrom += lstrlen(pdth->pFrom) + 1;
if (pcs->lpfo->wFunc != FO_DELETE && (pcs->lpfo->fFlags & FOF_MULTIDESTFILES))
{
pdth->pTo += lstrlen(pdth->pTo) + 1;
}
}
//Attach the "ConnectedElements" Tree to the end of the source element tree.
*ppdtn = pcs->dth.pdtnConnectedItems;
pcs->dth.pFrom = (LPTSTR)pcs->lpfo->pFrom;
pcs->dth.pTo = (LPTSTR)pcs->lpfo->pTo;
pcs->fDTBuilt = TRUE;
// set up the initial time information
pcs->dwPreviousTime = GetTickCount();
pcs->dwPointsPerSec = 0;
pcs->iLastProgressPoints = 0;
return iError;
}
#define DTNIsRootNode(pdtn) ((pdtn)->pdtnParent == NULL)
#define DTNIsDirectory(pdtn) (pdtn->dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)
// This macro determines if the given node is an "Origin" of a connection. i.e. Does this node
// point to a connected element that needs to be moved/copied etc., along with it?
// For example, if "foo.htm" is moved, "foo files" is also moved.
// Here, "foo.htm" is the "Connect origin" (fConnectedElement = FALSE; pdtnConnected is valid)
// and "foo files" is the "connected element". (fConnectedElement = TRUE;)
#define DTNIsConnectOrigin(pdtn) ((!pdtn->fConnectedElement) && (pdtn->pdtnConnected != NULL))
#define DTNIsConnected(pdtn) (pdtn && (pdtn->fConnectedElement))
//
UINT DTEnumChildren(PDIRTREEHEADER pdth, COPY_STATE *pcs, BOOL fRecurse, DWORD dwFileOrFolder)
{
int iError = 0;
if (pdth->pdtnCurrent->pdtnChild == DTN_DELAYED)
{
WIN32_FIND_DATA fd;
// fill in all the children and update the stats in pdth
if (PathAppend(pdth->szSrcPath, c_szStarDotStar))
{
iError = DTPathToDTNode(pdth, pcs, pdth->szSrcPath, fRecurse, dwFileOrFolder,
&pdth->pdtnCurrent->pdtnChild, &fd, pdth->pdtnCurrent, NULL, pdth->pdtnCurrent->fConnectedElement, 0);
}
else
{
iError = OPER_ERROR | DE_INVALIDFILES;
}
// If we get "File Not Found" Error now and if it is a connected item, then this item
// must have already been moved/renamed/deleted etc., So, this is not really an error.
// All this means is that this connected item was also explicitly selected and hence appeared
// as or "Origin" item earlier in the list and it had already been operated upon.
// So, reset the error here.
// (Example: If end-user selects "foo.htm" AND "foo files" folder and moves them, then we
// will get a file-not-found error when we attempt to move the connected items. To avoid
// this error dialog, we reset the error here.)
if (DTNIsConnected(pdth->pdtnCurrent) && (iError == (OPER_ERROR | ERROR_FILE_NOT_FOUND)))
iError = 0;
}
return iError;
}
//
// DTNGetConfirmationResult:
// When a file("foo.htm") is moved/copied, we may put up a confirmation dialog in case
// of a conflict and the end-user might have responded saying "Yes", "no" etc., When the
// corresponding connected element ("foo files") is also moved/copied etc., we should NOT put up
// a confirmation dialog again. We must simply store the answer to the original confirmation and
// use it later.
// This function retries the result of the original confirmation from the top-level connected
// element.
int DTNGetConfirmationResult(PDIRTREENODE pdtn)
{
//Confirmation results are saved only for Connected items; Not for Connection Origins.
if (!pdtn || !DTNIsConnected(pdtn))
return 0;
//Confirmation results are stored only at the top-level node. So, go there.
while (pdtn->pdtnParent)
pdtn = pdtn->pdtnParent;
return(pdtn->ConnectedInfo.dwConfirmation);
}
void DTGetWin32FindData(PDIRTREENODE pdtn, WIN32_FIND_DATA* pfd)
{
// only the stuff we care about
lstrcpy(pfd->cAlternateFileName, pdtn->szShortName);
lstrcpy(pfd->cFileName, pdtn->szName);
pfd->dwFileAttributes = pdtn->dwFileAttributes;
pfd->ftCreationTime = pdtn->ftCreationTime;
pfd->ftLastWriteTime = pdtn->ftLastWriteTime;
pfd->nFileSizeLow = pdtn->nFileSizeLow;
pfd->nFileSizeHigh = pdtn->nFileSizeHigh;
}
void DTSetFileCopyProgress(PDIRTREEHEADER pdth, LARGE_INTEGER liRead)
{
LARGE_INTEGER liDelta;
liDelta.QuadPart = (liRead.QuadPart - pdth->pdtnCurrent->liFileSizeCopied.QuadPart);
DebugMsg(TF_DEBUGCOPY, TEXT("DTSetFileCopyProgress %d %d %d"), liDelta.LowPart, liRead.LowPart, pdth->dtDone.liSize.QuadPart);
pdth->pdtnCurrent->liFileSizeCopied.QuadPart += liDelta.QuadPart;
pdth->dtDone.liSize.QuadPart += liDelta.QuadPart;
DebugMsg(TF_DEBUGCOPY, TEXT("DTSetFileCopyProgress %d %d"), liDelta.LowPart, pdth->dtDone.liSize.LowPart);
pdth->dtDone.fChanged = TRUE;
}
void DTFreeNode(PDIRTREEHEADER pdth, PDIRTREENODE pdtn)
{
if (pdth)
{
ASSERT(pdtn->pdtnChild == NULL || pdtn->pdtnChild == DTN_DELAYED);
// we're done with this node.. update the header totals
if (DTNIsDirectory(pdtn))
{
pdth->dtDone.dwFolders++;
}
else
{
LARGE_INTEGER li;
li.LowPart = pdtn->nFileSizeLow;
li.HighPart = pdtn->nFileSizeHigh;
pdth->dtDone.dwFiles++;
pdth->dtDone.liSize.QuadPart += (li.QuadPart - pdtn->liFileSizeCopied.QuadPart);
}
pdth->dtDone.fChanged = TRUE;
// repoint parent pointer
if (!pdtn->pdtnParent)
{
// no parent... must be a root type thing
ASSERT(pdth->pdtn == pdtn);
pdth->pdtn = pdtn->pdtnNext;
}
else
{
ASSERT(pdtn->pdtnParent->pdtnChild == pdtn);
if (pdtn->pdtnParent->pdtnChild == pdtn)
{
// if my parent was pointing to me, point him to my sib
pdtn->pdtnParent->pdtnChild = pdtn->pdtnNext;
}
}
}
LocalFree(pdtn);
}
// this frees all children of (but NOT including) the current node.
// it doesn' free the current node because it's assumed that
// DTGoToNextNode will be called right afterwards, and that will
// free the current node
void DTFreeChildrenNodes(PDIRTREEHEADER pdth, PDIRTREENODE pdtn)
{
PDIRTREENODE pdtnChild = pdtn->pdtnChild;
while (pdtnChild && pdtnChild != DTN_DELAYED)
{
PDIRTREENODE pdtnNext = pdtnChild->pdtnNext;
// recurse and free these children
if (DTNIsDirectory(pdtnChild))
{
DTFreeChildrenNodes(pdth, pdtnChild);
}
DTFreeNode(pdth, pdtnChild);
pdtnChild = pdtnNext;
}
pdtn->pdtnChild = NULL;
}
void DTForceEnumChildren(PDIRTREEHEADER pdth)
{
if (!pdth->pdtnCurrent->pdtnChild)
pdth->pdtnCurrent->pdtnChild = DTN_DELAYED;
}
void DTAbortCurrentNode(PDIRTREEHEADER pdth)
{
DTFreeChildrenNodes((pdth), (pdth)->pdtnCurrent);
if (pdth->oper == OPER_ENTERDIR)
pdth->oper = OPER_LEAVEDIR;
}
void DTCleanup(PDIRTREEHEADER pdth)
{
PDIRTREENODE pdtn;
while (pdth->pdtnCurrent && pdth->pdtnCurrent->pdtnParent)
{
// in case we bailed deep in a tree
pdth->pdtnCurrent = pdth->pdtnCurrent->pdtnParent;
}
while (pdth->pdtnCurrent)
{
pdtn = pdth->pdtnCurrent;
pdth->pdtnCurrent = pdtn->pdtnNext;
DTFreeChildrenNodes(NULL, pdtn);
DTFreeNode(NULL, pdtn);
}
}
BOOL DTInitializePaths(PDIRTREEHEADER pdth, COPY_STATE *pcs)
{
ASSERT(pdth->pdtnCurrent); // If we have no current node then how can we Initialize its paths?
lstrcpyn(pdth->szSrcPath, pdth->pFrom, ARRAYSIZE(pdth->szSrcPath));
// For the "Origins" we need to do this only if a wild card exists. However, for connected elements,
// we need to do this everytime because connected elements may not exist for every "Origins"
if (PathIsWild(pdth->pFrom) || (pdth->pdtnCurrent->fNewRoot && DTNIsConnected(pdth->pdtnCurrent)))
{
PathRemoveFileSpec(pdth->szSrcPath);
if (!PathAppend(pdth->szSrcPath, pdth->pdtnCurrent->szName))
return FALSE;
}
if (!pdth->pTo)
{
// no dest, make it the same as the source and we're done
lstrcpyn(pdth->szDestPath, pdth->szSrcPath, ARRAYSIZE(pdth->szSrcPath));
return TRUE;
}
if (pdth->pTo)
{
lstrcpyn(pdth->szDestPath, pdth->pTo, ARRAYSIZE(pdth->szSrcPath));
}
if (!pdth->fMultiDest)
{
if (!PathAppend(pdth->szDestPath, pdth->pdtnCurrent->szName))
return FALSE;
}
else
{
//When undo of a move operation is done, fMultiDest is set.
// When fMultiDest is set, we need to strip out the filename given by pTo and
// append the current filename.
// For RENAME operations, the source and destination names are different. This is handled
// seperately below. So, we handle only other operations here where source and dest names are the same.
if ((pcs->lpfo->wFunc != FO_RENAME) && pdth->pdtnCurrent->fNewRoot && DTNIsConnected(pdth->pdtnCurrent))
{
PathRemoveFileSpec(pdth->szDestPath);
if (!PathAppend(pdth->szDestPath, pdth->pdtnCurrent->szName))
return FALSE;
}
}
//We will never try to rename a connected element! Make sure we don't hit this!
ASSERT(!((pcs->lpfo->wFunc == FO_RENAME) && DTNIsConnected(pdth->pdtnCurrent)));
return TRUE;
}
UINT DTValidatePathNames(PDIRTREEHEADER pdth, UINT operation, COPY_STATE * pcs)
{
if (pcs->lpfo->wFunc != FO_DELETE)
{
// Why process name mappings? Here's why. If we are asked to copy directory "c:\foo" and
// file "c:\foo\file" to another directory (say "d:\") we might have a name confilct when
// we copy "c:\foo" so instead we create "d:\Copy Of foo". Later, we walk to the second
// dirtree node and we are asked to copy "c:\foo\file" to "d:\foo", all of which is valid.
// HOWEVER, it's not what we want to do. We use _ProccessNameMappings to convert
// "d:\foo\file" into "d:\Copy of foo\file".
_ProcessNameMappings(pdth->szDestPath, pdth->hdsaRenamePairs);
// REVIEW, do we need to do the name mapping here or just let the
// VFAT do it? if vfat does it we need to rip out all of the GetNameDialog() stuff.
if ((operation != OPER_LEAVEDIR) &&
!IsLFNDrive(pdth->szDestPath) &&
PathIsLFNFileSpec(PathFindFileName(pdth->szSrcPath)) &&
PathIsLFNFileSpec(PathFindFileName(pdth->szDestPath)))
{
int iRet;
TCHAR szOldDest[MAX_PATH];
lstrcpyn(szOldDest, pdth->szDestPath, ARRAYSIZE(szOldDest));
iRet = GetNameDialog(pcs->hwndDlgParent, pcs,
(pcs->nSourceFiles != 1) || !DTNIsRootNode(pdth->pdtnCurrent), // if we're entering a dir, multiple spec, or not at root
operation, pdth->szSrcPath, pdth->szDestPath);
switch (iRet)
{
case IDNO:
case IDCANCEL:
return iRet;
default:
AddRenamePairToHDSA(szOldDest, pdth->szDestPath, &pcs->dth.hdsaRenamePairs);
break;
}
}
if (operation == OPER_ENTERDIR)
{
// Make sure the new directory is not a subdir of the original...
int cchFrom = lstrlen(pdth->szSrcPath);
// NTRAID89511-2000/02/25-KishoreP
// Shouldn't we get the short names for both these directories and compair those?
// Otherwise I can copy "C:\Long Directory Name" to "C:\LongDi~1\foo" without error.
if (!(pcs->fFlags & FOF_RENAMEONCOLLISION) &&
!StrCmpNI(pdth->szSrcPath, pdth->szDestPath, cchFrom))
{
TCHAR chNext = pdth->szDestPath[cchFrom]; // Get the next char in the dest.
if (!chNext)
{
return OPER_ERROR | DE_DESTSAMETREE;
}
else if (chNext == TEXT('\\'))
{
// The two fully qualified strings are equal up to the end
// of the source directory ==> the destination is a subdir.
// Must return an error.
// if, stripping the last file name and the backslash give the same length, they are the
// same file/folder
if ((PathFindFileName(pdth->szDestPath) - pdth->szDestPath - 1) ==
lstrlen(pdth->szSrcPath))
{
return OPER_ERROR | DE_DESTSAMETREE;
}
else
{
return OPER_ERROR | DE_DESTSUBTREE;
}
}
}
}
}
return 0;
}
// this moves to the next node (child, sib, parent) and sets up the
// directory path info and oper state
UINT DTGoToNextNode(PDIRTREEHEADER pdth, COPY_STATE *pcs)
{
UINT oper = OPER_ENTERDIR; // the default
int iError;
if (!pdth->pdtnCurrent)
{
pdth->pdtnCurrent = pdth->pdtn;
if (pdth->pdtnCurrent)
{
if (pdth->pdtnCurrent->fDummy)
{
// if this is just a placeholder... go on to the next one
return DTGoToNextNode(pdth, pcs);
}
if (!DTInitializePaths(pdth, pcs))
{
return OPER_ERROR | DE_INVALIDFILES;
}
}
else
{
// Our tree is completely empty.
// REVIEW: What do we do here? If pdtnCurrent is still NULL then our list is completely empty.
// Is that a bug or what? My hunch is that we should return an error code here, most likely
// OPER_ERROR | DE_INVALIDFILES. If we do nothing here then we will fail silently.
return OPER_ERROR | DE_INVALIDFILES;
}
}
else
{
UINT iError;
BOOL fFreeLastNode = TRUE;
PDIRTREENODE pdtnLastCurrent = pdth->pdtnCurrent;
TCHAR szTemp[MAX_PATH];
if (iError = DTEnumChildren(pdth, pcs, FALSE, DTF_FILES_AND_FOLDERS))
return iError;
if (pdth->pdtnCurrent->pdtnChild)
{
fFreeLastNode = FALSE;
pdth->pdtnCurrent = pdth->pdtnCurrent->pdtnChild;
// if the source long name is too long, try the short name
if (!PathCombine(szTemp, pdth->szSrcPath, pdth->pdtnCurrent->szName))
{
if (!PathCombine(szTemp, pdth->szSrcPath, pdth->pdtnCurrent->szShortName))
{
return OPER_ERROR | DE_INVALIDFILES;
}
}
StrCpyN(pdth->szSrcPath, szTemp, ARRAYSIZE(pdth->szSrcPath));
// if the dest long name is too long, try the short name
if (!PathCombine(szTemp, pdth->szDestPath, pdth->pdtnCurrent->szName))
{
if (!PathCombine(szTemp, pdth->szDestPath, pdth->pdtnCurrent->szShortName))
{
return OPER_ERROR | DE_INVALIDFILES;
}
}
StrCpyN(pdth->szDestPath, szTemp, ARRAYSIZE(pdth->szDestPath));
}
else if (pdth->oper == OPER_ENTERDIR)
{
// if the last operation was an enterdir and it has no children
// (because it failed the above test
// then we should do a leave dir on it now
oper = OPER_LEAVEDIR;
fFreeLastNode = FALSE;
}
else if (pdth->pdtnCurrent->pdtnNext)
{
pdth->pdtnCurrent = pdth->pdtnCurrent->pdtnNext;
if (!pdth->pdtnCurrent->pdtnParent)
{
// if this was the top, we need to build the next path info
// from scratch
if (pdth->pdtnCurrent->fNewRoot)
{
if (pdth->pdtnCurrent->fConnectedElement)
{
// Since this is a new root in a Connected list, the pFrom and pTo are
// stored in the node itself. This is needed because Connected elements may
// not exist for every item in the source list and we do not want to create dummy
// nodes for each one of them. So, pFrom and pTo are stored for every NewRoot of
// connected elements and we use these here.
pdth->pFrom = pdth->pdtnCurrent->ConnectedInfo.pFromConnected;
pdth->pTo = pdth->pdtnCurrent->ConnectedInfo.pToConnected;
}
else
{
// go to the next path pair
pdth->pFrom += lstrlen(pdth->pFrom) + 1;
if (pdth->pTo)
{
if (pdth->fMultiDest)
{
pdth->pTo += lstrlen(pdth->pTo) + 1;
}
}
}
}
if (pdth->pdtnCurrent->fDummy)
{
// if this is just a placeholder... go on to the next one
if (fFreeLastNode)
{
DTFreeNode(pdth, pdtnLastCurrent);
}
return DTGoToNextNode(pdth, pcs);
}
DTInitializePaths(pdth, pcs);
}
else
{
PathRemoveFileSpec(pdth->szSrcPath);
PathRemoveFileSpec(pdth->szDestPath);
// if the source long name is too long, try the short name
if (!PathCombine(szTemp, pdth->szSrcPath, pdth->pdtnCurrent->szName))
{
if (!PathCombine(szTemp, pdth->szSrcPath, pdth->pdtnCurrent->szShortName))
{
return OPER_ERROR | DE_INVALIDFILES;
}
}
StrCpyN(pdth->szSrcPath, szTemp, ARRAYSIZE(pdth->szSrcPath));
// if the dest long name is too long, try the short name
if (!PathCombine(szTemp, pdth->szDestPath, pdth->pdtnCurrent->szName))
{
if (!PathCombine(szTemp, pdth->szDestPath, pdth->pdtnCurrent->szShortName))
{
return OPER_ERROR | DE_INVALIDFILES;
}
}
StrCpyN(pdth->szDestPath, szTemp, ARRAYSIZE(pdth->szDestPath));
}
}
else
{
oper = OPER_LEAVEDIR;
PathRemoveFileSpec(pdth->szSrcPath);
PathRemoveFileSpec(pdth->szDestPath);
pdth->pdtnCurrent = pdth->pdtnCurrent->pdtnParent;
}
if (fFreeLastNode)
{
DTFreeNode(pdth, pdtnLastCurrent);
}
}
if (!pdth->pdtnCurrent)
{
// no more! we're done!
return 0;
}
DebugDumpPDTN(pdth->pdtnCurrent, TEXT("PDTNCurrent"));
if (oper == OPER_ENTERDIR)
{
if (pcs->lpfo->wFunc == FO_RENAME || !DTNIsDirectory(pdth->pdtnCurrent))
{
oper = OPER_DOFILE;
}
}
if (DTNIsRootNode(pdth->pdtnCurrent))
{
// we need to diskcheck the source and target because this might
// be the first time we've seen this drive
if (!DTDiskCheck(pdth, pcs, pdth->szSrcPath) ||
!DTDiskCheck(pdth, pcs, pdth->szDestPath))
{
pcs->bAbort = TRUE;
return 0;
}
}
iError = DTValidatePathNames(pdth, oper, pcs);
if (iError)
{
if (iError & OPER_ERROR)
{
//For connected nodes, ignore the error and silently abort the node!
if (DTNIsConnected(pdth->pdtnCurrent))
{
DTAbortCurrentNode(pdth);
return DTGoToNextNode(pdth, pcs);
}
else
return iError;
}
else
{
switch (iError)
{
case IDNO:
DTAbortCurrentNode(pdth);
pcs->lpfo->fAnyOperationsAborted = TRUE;
return DTGoToNextNode(pdth, pcs);
case IDCANCEL:
// User cancelled the operation
pcs->bAbort = TRUE;
return 0;
}
}
}
pdth->oper = oper;
return oper;
}
int CopyMoveRetry(COPY_STATE *pcs, LPCTSTR pszDest, int error, ULARGE_INTEGER* puliFileSize);
void CopyError(LPCOPY_STATE, LPCTSTR, LPCTSTR, int, UINT, int);
void SetProgressTime(COPY_STATE *pcs);
void SetProgressText(COPY_STATE *pcs, LPCTSTR pszFrom, LPCTSTR pszTo);
void FOUndo_AddInfo(UNDOATOM *lpua, LPTSTR lpszSrc, LPTSTR lpszDest, DWORD dwAttributes);
void CALLBACK FOUndo_Release(UNDOATOM *lpua);
void FOUndo_FileReallyDeleted(LPTSTR lpszFile);
void AddRenamePairToHDSA(LPCTSTR pszOldPath, LPCTSTR pszNewPath, HDSA* phdsaRenamePairs);
BOOL_PTR CALLBACK FOFProgressDlgProc(HWND hDlg, UINT wMsg, WPARAM wParam, LPARAM lParam);
typedef struct {
LPTSTR lpszName;
DWORD dwAttributes;
} FOUNDO_DELETEDFILEINFO, *LPFOUNDO_DELETEDFILEINFO;
typedef struct {
HDPA hdpa;
HDSA hdsa;
} FOUNDODATA, *LPFOUNDODATA;
void ReleasePCS(COPY_STATE *pcs)
{
if (0 == InterlockedDecrement(&pcs->nRef))
{
SimplePidlCache_Release(&pcs->spc);
LocalFree(pcs);
}
}
DWORD CALLBACK AddRefPCS(COPY_STATE *pcs)
{
return InterlockedIncrement(&pcs->nRef);
}
DWORD CALLBACK FOUIThreadProc(COPY_STATE *pcs)
{
DebugMsg(TF_DEBUGCOPY, TEXT("FOUIThreadProc -- Begin"));
Sleep(SHOW_PROGRESS_TIMEOUT);
if (!pcs->fDone)
{
HWND hwndParent;
FOUITHREADINFO fouiti = {0};
ENTERCRITICAL;
if (!pcs->fDone)
{
// need to check again within the critsec to make sure that pcs->lpfo is still valid
fouiti.pcs = pcs;
fouiti.wFunc = pcs->lpfo->wFunc;
fouiti.bIsEmptyRBOp = ((pcs->lpfo->lpszProgressTitle == MAKEINTRESOURCE(IDS_BB_EMPTYINGWASTEBASKET)) ||
(pcs->lpfo->lpszProgressTitle == MAKEINTRESOURCE(IDS_BB_DELETINGWASTEBASKETFILES)));
hwndParent = pcs->lpfo->hwnd;
}
LEAVECRITICAL;
if (fouiti.pcs)
{
HWND hwnd = CreateDialogParam(HINST_THISDLL, MAKEINTRESOURCE(DLG_MOVECOPYPROGRESS),
hwndParent, FOFProgressDlgProc, (LPARAM)&fouiti);
if (hwnd)
{
MSG msg;
DWORD dwShowTime;
int iShowTimeLeft;
// crit section to sync with main thread termination
ENTERCRITICAL;
if (!pcs->fDone)
{
pcs->hwndProgress = hwnd;
}
LEAVECRITICAL;
dwShowTime = GetTickCount();
while (!pcs->fDone && GetMessage(&msg, NULL, 0, 0))
{
if (!pcs->fDone && !IsDialogMessage(pcs->hwndProgress, &msg))
{
TranslateMessage(&msg);
DispatchMessage(&msg);
}
}
// if we've put it up, we need to keep it up for at least some minimal amount of time
iShowTimeLeft = MINSHOWTIME - (GetTickCount() - dwShowTime);
if (iShowTimeLeft > 0)
{
DebugMsg(TF_DEBUGCOPY, TEXT("FOUIThreadProc -- doing an extra sleep"));
Sleep(iShowTimeLeft);
}
// Keep us from doing this while other thread processing...
ENTERCRITICAL;
pcs->hwndProgress = NULL;
LEAVECRITICAL;
DestroyWindow(hwnd);
}
}
else
{
// main thread must have finished
ASSERT(pcs->fDone);
}
}
ReleasePCS(pcs);
DebugMsg(TF_DEBUGCOPY, TEXT("FOUIThreadProc -- End . Completed"));
return 0;
}
// this queries the progress dialog for a cancel and yields.
// it also will show the progress dialog if a certain amount of time has passed
//
// returns:
// TRUE cacnel was pressed, abort the operation
// FALSE continue
BOOL FOQueryAbort(COPY_STATE *pcs)
{
if (!pcs->bAbort && pcs->hwndProgress)
{
if (pcs->hwndProgress != pcs->hwndDlgParent)
{
// do this here rather than on the FOUIThreadProc so that we don't have
// synchronization problems with this thread popping up a dialog on
// hwndDlgParent then the progress dialog coming up afterwards on top.
pcs->hwndDlgParent = pcs->hwndProgress;
ShowWindow(pcs->hwndProgress, SW_SHOW);
SetForegroundWindow(pcs->hwndProgress);
SetFocus(GetDlgItem(pcs->hwndProgress, IDCANCEL));
SetProgressText(pcs, pcs->dth.szSrcPath,
pcs->lpfo->wFunc == FO_DELETE ? NULL : pcs->dth.szDestPath);
}
else
{
MSG msg;
// win95 handled messages in here.
// we need to do the same in order to flush the input queue as well as
// for backwards compatability.
// we need to flush the input queue now because hwndProgress is
// on a different thread... which means it has attached thread inputs
// inorder to unlock the attached threads, we need to remove some
// sort of message until there's none left... any type of message..
while (PeekMessage(&msg, NULL, 0, 0, PM_REMOVE))
{
if (!IsDialogMessage(pcs->hwndProgress, &msg))
{
TranslateMessage(&msg);
DispatchMessage(&msg);
}
}
}
if (pcs->dth.dtAll.fChanged || pcs->dth.dtDone.fChanged)
{
if (!pcs->dth.fChangePosted)
{
// set the flag first because with async threads
// the progress window could handle it and clear the
// bit before we set it.. then we'd lose further messages
// thinking that one was still pending
pcs->dth.fChangePosted = TRUE;
if (!PostMessage(pcs->hwndProgress, PDM_UPDATE, 0, 0))
pcs->dth.fChangePosted = FALSE;
}
}
}
return pcs->bAbort;
}
typedef struct _confdlg_data {
LPCTSTR pFileDest;
LPCTSTR pFileSource;
LPCTSTR pStreamNames;
const WIN32_FIND_DATA *pfdDest;
const WIN32_FIND_DATA *pfdSource;
BOOL bShowCancel; // allow cancel out of this operation
BOOL bShowDates; // use date/size info in message
UINT uDeleteWarning; // warn that the delete's not going to the wastebasket
BOOL bFireIcon;
BOOL bShrinkDialog; // should we move the buttons up to the text?
int nSourceFiles; // if != 1 used to build "n files" string
int idText; // if != 0 use to override string in dlg template
CONFIRM_FLAG fConfirm; // we will confirm things set here
CONFIRM_FLAG fYesMask; // these bits are cleared in fConfirm on "yes"
// Only use fYesMask for things that should be confirmed once per operation
CONFIRM_FLAG fYesToAllMask; // these bits are cleared in fConfirm on "yes to all"
//COPY_STATE *pcs;
CONFIRM_DATA *pcd;
void (*InitConfirmDlg)(HWND hDlg, struct _confdlg_data *pcd); // routine to initialize dialog
BOOL bARPWarning;
} CONFDLG_DATA;
BOOL BuildDateLine(LPTSTR pszDateLine, const WIN32_FIND_DATA *pFind, LPCTSTR pFileName)
{
TCHAR szTemplate[64];
TCHAR szNum[32], szTmp[64];
WIN32_FIND_DATA fd;
ULARGE_INTEGER liFileSize;
if (!pFind)
{
HANDLE hfind = FindFirstFile(pFileName, &fd);
ASSERT(hfind != INVALID_HANDLE_VALUE);
FindClose(hfind);
pFind = &fd;
}
liFileSize.LowPart = pFind->nFileSizeLow;
liFileSize.HighPart = pFind->nFileSizeHigh;
// There are cases where the date is 0, this is especially true when the
// source is from a file contents...
if (pFind->ftLastWriteTime.dwLowDateTime || pFind->ftLastWriteTime.dwHighDateTime)
{
DWORD dwFlags = FDTF_LONGDATE | FDTF_RELATIVE | FDTF_LONGTIME;
SHFormatDateTime(&pFind->ftLastWriteTime, &dwFlags, szTmp, SIZECHARS(szTmp));
LoadString(HINST_THISDLL, IDS_DATESIZELINE, szTemplate, ARRAYSIZE(szTemplate));
wsprintf(pszDateLine, szTemplate, StrFormatByteSize64(liFileSize.QuadPart, szNum, ARRAYSIZE(szNum)),
szTmp);
}
else
{
// Simpy output the number to the string
StrFormatByteSize64(liFileSize.QuadPart, pszDateLine, 64);
if (liFileSize.QuadPart == 0)
return FALSE;
}
return TRUE; // valid data in the strings
}
// hide the cancel button and move "Yes" and "No" over to the right positions.
//
// "Yes" is IDYES
// "No" is IDNO
//
#define HideYesToAllAndCancel(hdlg) HideConfirmButtons(hdlg, IDCANCEL)
#define HideYesToAllAndNo(hdlg) HideConfirmButtons(hdlg, IDNO)
void HideConfirmButtons(HWND hdlg, int idHide)
{
HWND hwndCancel = GetDlgItem(hdlg, IDCANCEL);
HWND hwndYesToAll = GetDlgItem(hdlg, IDD_YESTOALL);
if (hwndCancel)
{
RECT rcCancel;
HWND hwndNo;
GetWindowRect(hwndCancel, &rcCancel);
hwndNo = GetDlgItem(hdlg, IDNO);
if (hwndNo)
{
RECT rcNo;
HWND hwndYes;
GetWindowRect(hwndNo, &rcNo);
MapWindowRect(NULL, hdlg, &rcCancel);
SetWindowPos(hwndNo, NULL, rcCancel.left, rcCancel.top,
0, 0, SWP_NOZORDER | SWP_NOACTIVATE | SWP_NOSIZE);
hwndYes = GetDlgItem(hdlg, IDYES);
if (hwndYes)
{
MapWindowRect(NULL, hdlg, &rcNo);
SetWindowPos(hwndYes, NULL, rcNo.left, rcNo.top,
0, 0, SWP_NOZORDER | SWP_NOACTIVATE | SWP_NOSIZE);
}
}
// Although the function is called "Hide", we actually destroy
// the windows, because keyboard accelerators for hidden windows
// are still active!
if (hwndYesToAll)
DestroyWindow(hwndYesToAll);
DestroyWindow(GetDlgItem(hdlg, idHide));
}
}
int MoveDlgItem(HWND hDlg, UINT id, int y)
{
RECT rc;
HWND hwnd = GetDlgItem(hDlg, id);
if (hwnd)
{
GetWindowRect(hwnd, &rc);
MapWindowRect(NULL, hDlg, &rc);
SetWindowPos(hwnd, NULL, rc.left, y, 0,0, SWP_NOSIZE | SWP_NOZORDER | SWP_NOACTIVATE);
return rc.top - y; // return how much it moved
}
return 0;
}
void ShrinkDialog(HWND hDlg, UINT idText)
{
RECT rc;
int y;
HWND hwnd;
hwnd = GetDlgItem(hDlg, idText);
ASSERT(hwnd);
GetWindowRect(hwnd, &rc);
MapWindowRect(NULL, hDlg, &rc);
y = rc.bottom + 12;
// move all the buttons
MoveDlgItem(hDlg, IDNO, y);
MoveDlgItem(hDlg, IDCANCEL, y);
MoveDlgItem(hDlg, IDD_YESTOALL, y);
y = MoveDlgItem(hDlg, IDYES, y);
// now resize the entire dialog
GetWindowRect(hDlg, &rc);
SetWindowPos(hDlg, NULL, 0, 0, rc.right - rc.left, rc.bottom - y - rc.top, SWP_NOMOVE | SWP_NOZORDER |SWP_NOACTIVATE);
}
void InitConfirmDlg(HWND hDlg, CONFDLG_DATA *pcd)
{
TCHAR szMessage[255];
TCHAR szDeleteWarning[80];
TCHAR szSrc[32];
TCHAR szFriendlyName[MAX_PATH];
SHFILEINFO sfi;
SHFILEINFO sfiDest;
LPTSTR pszFileDest = NULL;
LPTSTR pszMsg, pszSource;
int i;
int cxWidth;
RECT rc;
HDC hdc;
HFONT hfont;
HFONT hfontSave;
SIZE size;
BOOL bIsARPWarning = pcd->bARPWarning;
ASSERT((bIsARPWarning && (pcd->nSourceFiles == 1)) || (!bIsARPWarning));
hdc = GetDC(hDlg);
hfont = (HFONT)SendMessage(hDlg, WM_GETFONT, 0, 0);
hfontSave = (HFONT)SelectObject(hdc, hfont);
// get the size of the text boxes
GetWindowRect(GetDlgItem(hDlg, pcd->idText), &rc);
cxWidth = rc.right - rc.left;
//
// There are cases where, if the filename has no spaces, the static text
// control will put the entire file name with our quote character down
// on the 2nd line. To account for this, we subtract off the width of a
// the quote character. Since the quote character comes from the resource
// string, it could really be just about an character, with just about
// any width. So we assume its about the width of the letter 0, which
// should be more than wide enough.
size.cx = 0;
GetTextExtentPoint(hdc, TEXT("0"), 1, &size);
cxWidth -= size.cx * 2;
if (!bIsARPWarning && !pcd->bShowCancel)
HideYesToAllAndCancel(hDlg);
switch (pcd->nSourceFiles)
{
case -1:
LoadString(HINST_THISDLL, IDS_SELECTEDFILES, szSrc, ARRAYSIZE(szSrc));
pszSource = szSrc;
break;
case 1:
if (bIsARPWarning)
{
TCHAR szTarget[MAX_PATH];
DWORD cchFriendlyName = ARRAYSIZE(szFriendlyName);
HRESULT hres = GetPathFromLinkFile(pcd->pFileSource, szTarget, ARRAYSIZE(szTarget));
if (S_OK == hres)
{
if (SUCCEEDED(AssocQueryString(ASSOCF_VERIFY | ASSOCF_OPEN_BYEXENAME, ASSOCSTR_FRIENDLYAPPNAME,
szTarget, NULL, szFriendlyName, &cchFriendlyName)))
{
pszSource = szFriendlyName;
}
else
{
pszSource = PathFindFileName(szTarget);
}
}
else if (S_FALSE == hres)
{
TCHAR szProductCode[MAX_PATH];
szProductCode[0] = 0;
if ((ERROR_SUCCESS == MsiDecomposeDescriptor(szTarget, szProductCode, NULL, NULL, NULL)) &&
(ERROR_SUCCESS == MsiGetProductInfo(szProductCode, INSTALLPROPERTY_PRODUCTNAME, szFriendlyName, &cchFriendlyName)))
{
pszSource = szFriendlyName;
}
else
goto UNKNOWNAPP;
}
else
{
UNKNOWNAPP:
LoadString(HINST_THISDLL, IDS_UNKNOWNAPPLICATION, szSrc, ARRAYSIZE(szSrc));
pszSource = szSrc;
}
}
else
{
SHGetFileInfo(pcd->pFileSource,
(pcd->fConfirm==CONFIRM_DELETE_FOLDER || pcd->fConfirm==CONFIRM_WONT_RECYCLE_FOLDER)? FILE_ATTRIBUTE_DIRECTORY : 0,
&sfi, sizeof(sfi), SHGFI_DISPLAYNAME | SHGFI_USEFILEATTRIBUTES);
pszSource = sfi.szDisplayName;
PathCompactPath(hdc, pszSource, cxWidth);
}
break;
default:
pszSource = AddCommas(pcd->nSourceFiles, szSrc, ARRAYSIZE(szSrc));
break;
}
// if we're supposed to show the date info, grab the icons and format the date string
if (pcd->bShowDates)
{
SHFILEINFO sfi2;
TCHAR szDateSrc[64], szDateDest[64];
BuildDateLine(szDateSrc, pcd->pfdSource, pcd->pFileSource);
SetDlgItemText(hDlg, IDD_FILEINFO_NEW, szDateSrc);
BuildDateLine(szDateDest, pcd->pfdDest, pcd->pFileDest);
SetDlgItemText(hDlg, IDD_FILEINFO_OLD, szDateDest);
SHGetFileInfo(pcd->pFileDest, pcd->pfdDest ? pcd->pfdDest->dwFileAttributes : 0, &sfi2, sizeof(sfi2),
pcd->pfdDest ? (SHGFI_USEFILEATTRIBUTES|SHGFI_ICON|SHGFI_LARGEICON) : (SHGFI_ICON|SHGFI_LARGEICON));
ReplaceDlgIcon(hDlg, IDD_ICON_OLD, sfi2.hIcon);
SHGetFileInfo(pcd->pFileSource, pcd->pfdSource ? pcd->pfdSource->dwFileAttributes : 0, &sfi2, sizeof(sfi2),
pcd->pfdSource ? (SHGFI_USEFILEATTRIBUTES|SHGFI_ICON|SHGFI_LARGEICON) : (SHGFI_ICON|SHGFI_LARGEICON));
ReplaceDlgIcon(hDlg, IDD_ICON_NEW, sfi2.hIcon);
}
if (!bIsARPWarning)
{
// there are multiple controls:
// IDD_TEXT contains regular text (normal file/folder)
// IDD_TEXT1 - IDD_TEXT4 contain optional secondary text
for (i = IDD_TEXT; i <= IDD_TEXT4; i++)
{
if (i == pcd->idText)
{
szMessage[0] = 0;
GetDlgItemText(hDlg, i, szMessage, ARRAYSIZE(szMessage));
}
else
{
HWND hwndCtl = GetDlgItem(hDlg, i);
if (hwndCtl)
ShowWindow(hwndCtl, SW_HIDE);
}
}
}
else
{
GetDlgItemText(hDlg, IDD_ARPWARNINGTEXT, szMessage, ARRAYSIZE(szMessage));
}
// REVIEW Is there some better way? The code above always hides
// this control, and I don't see a way around this
if (pcd->pStreamNames)
{
SetDlgItemText(hDlg, IDD_TEXT1, pcd->pStreamNames);
ShowWindow(GetDlgItem(hDlg, IDD_TEXT1), SW_SHOW);
}
if (pcd->bShrinkDialog)
ShrinkDialog(hDlg, pcd->idText);
if (pcd->pFileDest)
{
SHGetFileInfo(pcd->pFileDest, 0,
&sfiDest, sizeof(sfiDest), SHGFI_DISPLAYNAME | SHGFI_USEFILEATTRIBUTES);
pszFileDest = sfiDest.szDisplayName;
PathCompactPath(hdc, pszFileDest, cxWidth);
}
if (pcd->uDeleteWarning)
{
LPITEMIDLIST pidl;
if (SUCCEEDED(SHGetSpecialFolderLocation(NULL, CSIDL_BITBUCKET, &pidl)))
{
SHFILEINFO fi;
if (SHGetFileInfo((LPCTSTR)pidl, 0, &fi, sizeof(fi), SHGFI_PIDL | SHGFI_ICON |SHGFI_LARGEICON))
{
ReplaceDlgIcon(hDlg, IDD_ICON_WASTEBASKET, fi.hIcon);
}
ILFree(pidl);
}
LoadString(HINST_THISDLL, pcd->uDeleteWarning, szDeleteWarning, ARRAYSIZE(szDeleteWarning));
}
else
szDeleteWarning[0] = 0;
if (pcd->bFireIcon)
{
ReplaceDlgIcon(hDlg, IDD_ICON_WASTEBASKET, LoadImage(HINST_THISDLL, MAKEINTRESOURCE(IDI_NUKEFILE), IMAGE_ICON, 0, 0, LR_LOADMAP3DCOLORS));
}
pszMsg = ShellConstructMessageString(HINST_THISDLL, szMessage,
pszSource, pszFileDest, szDeleteWarning);
if (pszMsg)
{
SetDlgItemText(hDlg, pcd->idText, pszMsg);
LocalFree(pszMsg);
}
SelectObject(hdc, hfontSave);
ReleaseDC(hDlg, hdc);
}
BOOL_PTR CALLBACK ConfirmDlgProc(HWND hDlg, UINT wMsg, WPARAM wParam, LPARAM lParam)
{
CONFDLG_DATA *pcd = (CONFDLG_DATA *)GetWindowLongPtr(hDlg, DWLP_USER);
switch (wMsg)
{
case WM_INITDIALOG:
SetWindowLongPtr(hDlg, DWLP_USER, lParam);
pcd = (CONFDLG_DATA *)lParam;
pcd->InitConfirmDlg(hDlg, pcd);
break;
case WM_DESTROY:
// Handle case where the allocation of the PCD failed.
if (!pcd)
break;
if (pcd->bShowDates)
{
ReplaceDlgIcon(hDlg, IDD_ICON_NEW, NULL);
ReplaceDlgIcon(hDlg, IDD_ICON_OLD, NULL);
}
ReplaceDlgIcon(hDlg, IDD_ICON_WASTEBASKET, NULL);
break;
case WM_COMMAND:
if (!pcd)
break;
switch (GET_WM_COMMAND_ID(wParam, lParam))
{
case IDNO:
if (GetKeyState(VK_SHIFT) < 0) // force NOTOALL
{
// I use the fYesToAllMask here. There used to be a fNoToAllMask but I
// removed it. When you select "No To All" what you are saying is that
// anything I would be saying yes to all for I am actually saying "no to
// all" for. I feel that it is confusing and unnecessary to have both.
pcd->pcd->fNoToAll |= pcd->fYesToAllMask;
}
EndDialog(hDlg, IDNO);
break;
case IDD_YESTOALL:
// pcd is the confirmation data for just this file/folder. pcd->pcd is the
// confirm data for the entire copy operation. When we get a Yes To All we
// remove the coresponding bits from the entire operation.
pcd->pcd->fConfirm &= ~pcd->fYesToAllMask;
EndDialog(hDlg, IDYES);
break;
case IDYES:
// There are some messages that we only want to tell the use once even if they
// select Yes instead of Yes To All. As such we sometimes remove bits from the
// global confirm state even on a simple Yes. This mask is usually zero.
pcd->pcd->fConfirm &= ~pcd->fYesMask;
EndDialog(hDlg, IDYES);
break;
case IDCANCEL:
EndDialog(hDlg, IDCANCEL);
break;
}
break;
case WM_NOTIFY:
switch (((LPNMHDR)lParam)->code)
{
case NM_RETURN:
case NM_CLICK:
{
TCHAR szModule[MAX_PATH];
if (GetSystemDirectory(szModule, ARRAYSIZE(szModule)))
{
if (PathAppend(szModule, TEXT("appwiz.cpl")))
{
TCHAR szParam[1 + MAX_PATH + 2 + MAX_CCH_CPLNAME]; // See MakeCPLCommandLine function
TCHAR szAppwiz[64];
LoadString(g_hinst, IDS_APPWIZCPL, szAppwiz, SIZECHARS(szAppwiz));
MakeCPLCommandLine(szModule, szAppwiz, szParam, ARRAYSIZE(szParam));
SHRunControlPanelEx(szParam, NULL, FALSE);
}
}
EndDialog(hDlg, IDNO);
}
break;
}
break;
default:
return FALSE;
}
return TRUE;
}
void SetConfirmMaskAndText(CONFDLG_DATA *pcd, DWORD dwFileAttributes, LPCTSTR pszFile)
{
if (IS_SYSTEM_HIDDEN(dwFileAttributes) && !ShowSuperHidden())
{
dwFileAttributes &= ~FILE_ATTRIBUTE_SUPERHIDDEN;
}
// we used to have a desktop.ini "ConfirmFileOp" flag that was set
// to avoid this case, but there are no folders that are marked READONLY
// or SYSTEM for a reason other than the shell, so don't consider any as such
if ((dwFileAttributes & (FILE_ATTRIBUTE_SYSTEM | FILE_ATTRIBUTE_READONLY)) &&
(dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY))
{
dwFileAttributes &= ~(FILE_ATTRIBUTE_SYSTEM | FILE_ATTRIBUTE_READONLY);
}
if (dwFileAttributes & FILE_ATTRIBUTE_SYSTEM)
{
pcd->fConfirm = CONFIRM_SYSTEM_FILE;
pcd->fYesToAllMask |= CONFIRM_SYSTEM_FILE;
pcd->idText = IDD_TEXT2;
}
else if (dwFileAttributes & FILE_ATTRIBUTE_READONLY)
{
pcd->fConfirm = CONFIRM_READONLY_FILE;
pcd->fYesToAllMask |= CONFIRM_READONLY_FILE;
pcd->idText = IDD_TEXT1;
}
else if (pszFile && ((dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) == 0) &&
PathIsRegisteredProgram(pszFile))
{
pcd->fConfirm = CONFIRM_PROGRAM_FILE;
pcd->fYesToAllMask |= CONFIRM_PROGRAM_FILE;
pcd->idText = IDD_TEXT3;
}
}
void PauseAnimation(COPY_STATE *pcs, BOOL bStop)
{
// only called from within the hwndProgress wndproc so assum it's there
if (bStop)
Animate_Stop(GetDlgItem(pcs->hwndProgress, IDD_ANIMATE));
else
Animate_Play(GetDlgItem(pcs->hwndProgress, IDD_ANIMATE), -1, -1, -1);
}
// confirm a file operation UI.
//
// this routine uses the CONFIRM_DATA in the copy state structure to
// decide if it needs to put up a dailog to confirm the given file operation.
//
// in:
// pcs current copy state (confirm flags, hwnd)
// fConfirm only one bit may be set! (operation to confirm)
// pFileSource source file
// pFileDest optional destination file
// pfdSource
// pfdDest find data describing the destination
//
// returns:
// IDYES
// IDNO
// IDCANCEL
// ERROR_ (DE_) error codes (DE_MEMORY)
//
int ConfirmFileOp(HWND hwnd, COPY_STATE *pcs, CONFIRM_DATA *pcd,
int nSourceFiles, int cDepth, CONFIRM_FLAG fConfirm,
LPCTSTR pFileSource, const WIN32_FIND_DATA *pfdSource,
LPCTSTR pFileDest, const WIN32_FIND_DATA *pfdDest,
LPCTSTR pStreamNames)
{
int dlg;
int ret;
CONFDLG_DATA cdd;
CONFIRM_FLAG fConfirmType;
if (pcs)
nSourceFiles = pcs->nSourceFiles;
cdd.pfdSource = pfdSource;
cdd.pfdDest = NULL; // pfdDest is only partially filed in
cdd.pFileSource = pFileSource;
cdd.pFileDest = pFileDest;
cdd.pcd = pcd;
cdd.fConfirm = fConfirm; // default, changed below
cdd.fYesMask = 0;
cdd.fYesToAllMask = 0;
cdd.nSourceFiles = 1; // default to individual file names in message
cdd.idText = IDD_TEXT; // default string from the dlg template
cdd.bShowCancel = ((nSourceFiles != 1) || cDepth);
cdd.uDeleteWarning = 0;
cdd.bFireIcon = FALSE;
cdd.bShowDates = FALSE;
cdd.bShrinkDialog = FALSE;
cdd.InitConfirmDlg = InitConfirmDlg;
cdd.pStreamNames = NULL;
cdd.bARPWarning = FALSE;
fConfirmType = fConfirm & CONFIRM_FLAG_TYPE_MASK;
switch (fConfirmType)
{
case CONFIRM_DELETE_FILE:
case CONFIRM_DELETE_FOLDER:
{
BOOL bIsFolderShortcut = FALSE;
cdd.bShrinkDialog = TRUE;
// find data for source is in pdfDest
if ((nSourceFiles != 1) && (pcd->fConfirm & CONFIRM_MULTIPLE))
{
// this is the special CONFIRM_MULTIPLE case (usuall SHIFT+DELETE, or
// SHIFT+DRAG to Recycle Bin). if the user says yes to this, they
// basically get no more warnings.
cdd.nSourceFiles = nSourceFiles;
if ((fConfirm & CONFIRM_WASTEBASKET_PURGE) ||
(!pcs || !(pcs->fFlags & FOF_ALLOWUNDO)) ||
!BBWillRecycle(cdd.pFileSource, NULL))
{
// have the fire icon and the REALLY delete warning
cdd.uDeleteWarning = IDS_FOLDERDELETEWARNING;
cdd.bFireIcon = TRUE;
if (pcs)
pcs->fFlags &= ~FOF_ALLOWUNDO;
if (nSourceFiles == -1)
{
// -1 indicates that there were >= MAX_EMPTY_FILES files, so we stoped counting
// them all up for perf. We use the more generic message in this case.
cdd.idText = IDD_TEXT3;
}
else
{
// use the "are you sure you want to nuke XX files?" message
cdd.idText = IDD_TEXT4;
}
}
else
{
// uDeleteWarning must be set for the proper recycle icon to be loaded.
cdd.uDeleteWarning = IDS_FOLDERDELETEWARNING;
}
if (!pcs || !pcs->fNoConfirmRecycle)
{
POINT ptInvoke;
HWND hwndPos = NULL;
if ((GetNumberOfMonitors() > 1) && GetCursorPos(&ptInvoke))
{
HMONITOR hMon = MonitorFromPoint(ptInvoke, MONITOR_DEFAULTTONULL);
if (hMon)
{
hwndPos = _CreateStubWindow(&ptInvoke, hwnd);
}
}
ret = (int)DialogBoxParam(HINST_THISDLL, MAKEINTRESOURCE(DLG_DELETE_MULTIPLE), hwndPos ? hwndPos : hwnd, ConfirmDlgProc, (LPARAM)&cdd);
if (hwndPos)
{
DestroyWindow(hwndPos);
}
if (ret != IDYES)
{
return IDCANCEL;
}
}
// clear all other possible warnings
pcd->fConfirm &= ~(CONFIRM_MULTIPLE | CONFIRM_DELETE_FILE | CONFIRM_DELETE_FOLDER);
cdd.fConfirm &= ~(CONFIRM_DELETE_FILE | CONFIRM_DELETE_FOLDER);
cdd.nSourceFiles = 1; // use individual file name
}
SetConfirmMaskAndText(&cdd, pfdDest->dwFileAttributes, cdd.pFileSource);
if ((pfdDest->dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) &&
PathIsShortcut(cdd.pFileSource, pfdDest->dwFileAttributes))
{
// Its a folder and its a shortcut... must be a FolderShortcut!
bIsFolderShortcut = TRUE;
// since its a folder, we need to clear out all of these warnings
cdd.fYesMask |= CONFIRM_DELETE_FILE | CONFIRM_DELETE_FOLDER | CONFIRM_MULTIPLE;
cdd.fYesToAllMask |= CONFIRM_DELETE_FILE | CONFIRM_DELETE_FOLDER | CONFIRM_MULTIPLE;
}
// we want to treat FolderShortcuts as "files" instead of folders. We do this so we don't display dialogs
// that say stuff like "do you want to delete this and all of its contents" when to the user, this looks like
// an item instead of a folder (eg nethood shortcut).
if ((fConfirmType == CONFIRM_DELETE_FILE) || bIsFolderShortcut)
{
dlg = DLG_DELETE_FILE;
if ((nSourceFiles == 1) && PathIsShortcutToProgram(cdd.pFileSource))
{
dlg = DLG_DELETE_FILE_ARP;
cdd.idText = IDD_ARPWARNINGTEXT;
cdd.bShrinkDialog = FALSE;
cdd.bARPWarning = TRUE;
}
if ((fConfirm & CONFIRM_WASTEBASKET_PURGE) ||
(!pcs || !(pcs->fFlags & FOF_ALLOWUNDO)) ||
!BBWillRecycle(cdd.pFileSource, NULL))
{
// we are really nuking it, so show the appropriate icon/dialog
cdd.bFireIcon = TRUE;
if (pcs)
{
pcs->fFlags &= ~FOF_ALLOWUNDO;
}
cdd.uDeleteWarning = IDS_FILEDELETEWARNING;
if (cdd.idText == IDD_TEXT)
{
cdd.idText = IDD_TEXT4;
}
}
else
{
// we are recycling it
cdd.uDeleteWarning = IDS_FILERECYCLEWARNING;
}
}
else
{
// fConfirmType == CONFIRM_DELETE_FOLDER
if (pcs)
{
// show cancel on NEXT confirm dialog
pcs->nSourceFiles = -1;
}
cdd.fYesMask |= CONFIRM_DELETE_FILE | CONFIRM_DELETE_FOLDER | CONFIRM_MULTIPLE;
cdd.fYesToAllMask |= CONFIRM_DELETE_FILE | CONFIRM_DELETE_FOLDER | CONFIRM_MULTIPLE;
dlg = DLG_DELETE_FOLDER;
if ((fConfirm & CONFIRM_WASTEBASKET_PURGE) ||
(!pcs || !(pcs->fFlags & FOF_ALLOWUNDO)) ||
!BBWillRecycle(cdd.pFileSource, NULL))
{
// we are really nuking it, so show the appropriate icon/dialog
cdd.bFireIcon = TRUE;
if (pcs)
{
pcs->fFlags &= ~FOF_ALLOWUNDO;
}
cdd.uDeleteWarning = IDS_FOLDERDELETEWARNING;
}
else
{
// we are recycling it
cdd.uDeleteWarning = IDS_FOLDERRECYCLEWARNING;
}
}
//
// NTRAID#NTBUG9-100335-2001/01/03-jeffreys
// See also #128485 in the OSR v 4.1 database
//
// The fix for 128485 added the BBWillRecycle check below, but this
// caused NTBUG9-100335. These 2 bugs say the opposite things.
// We've had several customer complaints (see dupes of 100335)
// so I'm putting it back to the way it worked in Windows 2000.
//
if (pcs && pcs->fNoConfirmRecycle /*&& BBWillRecycle(cdd.pFileSource, NULL)*/)
{
cdd.fConfirm = 0;
}
}
break;
case CONFIRM_WONT_RECYCLE_FILE:
case CONFIRM_WONT_RECYCLE_FOLDER:
cdd.bShrinkDialog = TRUE;
cdd.nSourceFiles = 1;
cdd.bFireIcon = TRUE;
cdd.idText = IDD_TEXT;
cdd.fYesMask = CONFIRM_MULTIPLE;
cdd.fConfirm = fConfirmType;
cdd.fYesToAllMask = fConfirmType | CONFIRM_MULTIPLE;
// set the dialog to be file or folder
if (fConfirmType == CONFIRM_WONT_RECYCLE_FOLDER)
{
dlg = DLG_WONT_RECYCLE_FOLDER;
}
else
{
dlg = DLG_WONT_RECYCLE_FILE;
}
break;
case CONFIRM_PATH_TOO_LONG:
cdd.bShrinkDialog = TRUE;
cdd.nSourceFiles = 1;
cdd.bFireIcon = TRUE;
cdd.idText = IDD_TEXT;
cdd.fYesMask = CONFIRM_MULTIPLE;
cdd.fConfirm = CONFIRM_PATH_TOO_LONG;
cdd.fYesToAllMask = CONFIRM_PATH_TOO_LONG | CONFIRM_MULTIPLE;
dlg = DLG_PATH_TOO_LONG;
break;
case CONFIRM_WONT_RECYCLE_OFFLINE:
cdd.bShrinkDialog = TRUE;
cdd.nSourceFiles = 1;
cdd.bFireIcon = TRUE;
cdd.idText = IDD_TEXT;
cdd.fYesMask = CONFIRM_MULTIPLE;
cdd.fConfirm = fConfirmType;
cdd.fYesToAllMask = fConfirmType | CONFIRM_MULTIPLE;
dlg = DLG_WONT_RECYCLE_OFFLINE;
break;
case CONFIRM_STREAMLOSS:
cdd.bShrinkDialog = FALSE;
cdd.nSourceFiles = 1;
cdd.idText = IDD_TEXT;
cdd.fConfirm = CONFIRM_STREAMLOSS;
cdd.fYesToAllMask = CONFIRM_STREAMLOSS;
cdd.pStreamNames = pStreamNames;
dlg = DLG_STREAMLOSS_ON_COPY;
break;
case CONFIRM_FAILED_ENCRYPT:
cdd.bShrinkDialog = FALSE;
cdd.nSourceFiles = 1;
cdd.idText = IDD_TEXT;
cdd.bShowCancel = TRUE;
cdd.fConfirm = CONFIRM_FAILED_ENCRYPT;
cdd.fYesToAllMask = CONFIRM_FAILED_ENCRYPT;
dlg = DLG_FAILED_ENCRYPT;
break;
case CONFIRM_LOST_ENCRYPT_FILE:
case CONFIRM_LOST_ENCRYPT_FOLDER:
cdd.bShrinkDialog = FALSE;
cdd.nSourceFiles = 1;
cdd.idText = IDD_TEXT;
cdd.bShowCancel = TRUE;
cdd.fConfirm = CONFIRM_LOST_ENCRYPT_FILE | CONFIRM_LOST_ENCRYPT_FOLDER;
cdd.fYesToAllMask = CONFIRM_LOST_ENCRYPT_FILE | CONFIRM_LOST_ENCRYPT_FOLDER;
if (fConfirmType == CONFIRM_LOST_ENCRYPT_FILE)
{
dlg = DLG_LOST_ENCRYPT_FILE;
}
else
{
dlg = DLG_LOST_ENCRYPT_FOLDER;
}
break;
case CONFIRM_REPLACE_FILE:
cdd.bShowDates = TRUE;
cdd.fYesToAllMask = CONFIRM_REPLACE_FILE;
SetConfirmMaskAndText(&cdd, pfdDest->dwFileAttributes, NULL);
dlg = DLG_REPLACE_FILE;
break;
case CONFIRM_REPLACE_FOLDER:
cdd.bShowCancel = TRUE;
if (pcs) pcs->nSourceFiles = -1; // show cancel on NEXT confirm dialog
// this implies operations on the files
cdd.fYesMask = CONFIRM_REPLACE_FILE;
cdd.fYesToAllMask = CONFIRM_REPLACE_FILE | CONFIRM_REPLACE_FOLDER;
dlg = DLG_REPLACE_FOLDER;
break;
case CONFIRM_MOVE_FILE:
cdd.fYesToAllMask = CONFIRM_MOVE_FILE;
SetConfirmMaskAndText(&cdd, pfdSource->dwFileAttributes, NULL);
dlg = DLG_MOVE_FILE;
break;
case CONFIRM_MOVE_FOLDER:
cdd.bShowCancel = TRUE;
cdd.fYesToAllMask = CONFIRM_MOVE_FOLDER;
SetConfirmMaskAndText(&cdd, pfdSource->dwFileAttributes, cdd.pFileSource);
dlg = DLG_MOVE_FOLDER;
break;
case CONFIRM_RENAME_FILE:
SetConfirmMaskAndText(&cdd, pfdSource->dwFileAttributes, NULL);
dlg = DLG_RENAME_FILE;
break;
case CONFIRM_RENAME_FOLDER:
cdd.bShowCancel = TRUE;
if (pcs) pcs->nSourceFiles = -1; // show cancel on NEXT confirm dialog
SetConfirmMaskAndText(&cdd, pfdSource->dwFileAttributes, cdd.pFileSource);
dlg = DLG_RENAME_FOLDER;
break;
default:
DebugMsg(DM_WARNING, TEXT("bogus confirm option"));
return IDCANCEL;
}
// Does this operation need to be confirmed?
if (pcd->fConfirm & cdd.fConfirm)
{
// Has the user already said "No To All" for this operation?
if ((pcd->fNoToAll & cdd.fConfirm) == cdd.fConfirm)
{
ret = IDNO;
}
else
{
// HACK for multimon, make sure the file operation dialog box comes
// up on the correct monitor
POINT ptInvoke;
HWND hwndPos = NULL;
if ((GetNumberOfMonitors() > 1) && GetCursorPos(&ptInvoke))
{
HMONITOR hMon = MonitorFromPoint(ptInvoke, MONITOR_DEFAULTTONULL);
if (hMon)
{
hwndPos = _CreateStubWindow(&ptInvoke, hwnd);
}
}
ret = (int)DialogBoxParam(HINST_THISDLL, MAKEINTRESOURCE(dlg), (hwndPos ? hwndPos : hwnd), ConfirmDlgProc, (LPARAM)&cdd);
if (hwndPos)
DestroyWindow(hwndPos);
if (ret == -1)
ret = ERROR_NOT_ENOUGH_MEMORY;
}
}
else
{
ret = IDYES;
}
return ret;
}
//
// DTNIsParentConnectOrigin()
//
// When a folder ("c:\foo files") is moved to a different drive ("a:\"), the source and the
// destinations have different roots, and therefore the "fRecursive" flag is turned ON by default.
// This results in confirmations obtained for the individual files ("c:\foo files\aaa.gif")
// rather than the folder itself. We need to first find the parent and then save the confirmation
// in the connected element of it's parent. This function gets the top-most parent and then
// checks to see if it is a connect origin and if so returns that parent pointer.
//
PDIRTREENODE DTNGetConnectOrigin(PDIRTREENODE pdtn)
{
PDIRTREENODE pdtnParent = pdtn;
//Get the top-level parent of the given node.
while (pdtn)
{
pdtnParent = pdtn;
pdtn = pdtn->pdtnParent;
}
//Now check if the parent is a connect origin.
if (pdtnParent && DTNIsConnectOrigin(pdtnParent))
return pdtnParent; //If so, return him.
else
return NULL;
}
//
// CachedConfirmFileOp()
//
// When a file("foo.htm") is moved/copied, we may put up a confirmation dialog in case
// of a conflict and the end-user might have responded saying "Yes", "no" etc., When the
// corresponding connected element ("foo files") is also moved/copied etc., we should NOT put up
// a confirmation dialog again. We must simply store the answer to the original confirmation and
// use it later.
//
// What this function does is: if the given node is a connected element, it simply retrieves the
// confirmation for the original operation and returns. If the given element is NOT a connected
// element, then this function calls the ConfirmFileOp and stores the confirmation result in
// it's connected element sothat, it later it can be used by the connected element.
//
int CachedConfirmFileOp(HWND hwnd, COPY_STATE *pcs, CONFIRM_DATA *pcd,
int nSourceFiles, int cDepth, CONFIRM_FLAG fConfirm,
LPCTSTR pFileSource, const WIN32_FIND_DATA *pfdSource,
LPCTSTR pFileDest, const WIN32_FIND_DATA *pfdDest,
LPCTSTR pStreamNames)
{
int result;
//See if this is a connected item.
if (DTNIsConnected(pcs->dth.pdtnCurrent))
{
// Since this is a connected item, the confirmation must already have been obtained from
// the user and get it from the cache!
result = DTNGetConfirmationResult(pcs->dth.pdtnCurrent);
}
else
{
PDIRTREENODE pdtnConnectOrigin;
result = ConfirmFileOp(hwnd, pcs, pcd, nSourceFiles, cDepth, fConfirm, pFileSource,
pfdSource, pFileDest, pfdDest, pStreamNames);
//Check if this node has a connection.
if (pdtnConnectOrigin = DTNGetConnectOrigin(pcs->dth.pdtnCurrent))
{
pdtnConnectOrigin->pdtnConnected->ConnectedInfo.dwConfirmation = result;
// PERF: Can we check for the result to be IDCANCEL or IDNO and if so make the
// connected node a Dummy? Currently this won't work because current code assumes
// that dummy nodes do not have children. This connected node might have some children.
// if ((result == IDCANCEL) || (result == IDNO))
// pdtnConnectOrigin->pdtnConnected->fDummy = TRUE;
}
}
return result;
}
void GuessAShortName(LPCTSTR p, LPTSTR szT)
{
int i, j, fDot, cMax;
for (i = j = fDot = 0, cMax = 8; *p; p++)
{
if (*p == TEXT('.'))
{
// if there was a previous dot, step back to it
// this way, we get the last extension
if (fDot)
i -= j+1;
// set number of chars to 0, put the dot in
j = 0;
szT[i++] = TEXT('.');
// remember we saw a dot and set max 3 chars.
fDot = TRUE;
cMax = 3;
}
else if (j < cMax && (PathGetCharType(*p) & GCT_SHORTCHAR))
{
// if *p is a lead byte, we move forward one more
if (IsDBCSLeadByte(*p))
{
szT[i] = *p++;
if (++j >= cMax)
continue;
++i;
}
j++;
szT[i++] = *p;
}
}
szT[i] = 0;
}
/* GetNameDialog
*
* Runs the dialog box to prompt the user for a new filename when copying
* or moving from HPFS to FAT.
*/
typedef struct {
LPTSTR pszDialogFrom;
LPTSTR pszDialogTo;
BOOL bShowCancel;
} GETNAME_DATA;
BOOL_PTR CALLBACK GetNameDlgProc(HWND hDlg, UINT wMsg, WPARAM wParam, LPARAM lParam)
{
TCHAR szT[14];
TCHAR szTo[MAX_PATH];
GETNAME_DATA * pgn = (GETNAME_DATA *)GetWindowLongPtr(hDlg, DWLP_USER);
switch (wMsg)
{
case WM_INITDIALOG:
SetWindowLongPtr(hDlg, DWLP_USER, lParam);
pgn = (GETNAME_DATA *)lParam;
// inform the user of the old name
PathSetDlgItemPath(hDlg, IDD_FROM, pgn->pszDialogFrom);
// directory the file will go into
PathRemoveFileSpec(pgn->pszDialogTo);
PathSetDlgItemPath(hDlg, IDD_DIR, pgn->pszDialogTo);
// generate a guess for the new name
GuessAShortName(PathFindFileName(pgn->pszDialogFrom), szT);
lstrcpy(szTo, pgn->pszDialogTo);
PathAppend(szTo, szT);
// make sure that name is unique
PathYetAnotherMakeUniqueName(szTo, szTo, NULL, NULL);
SetDlgItemText(hDlg, IDD_TO, PathFindFileName(szTo));
SendDlgItemMessage(hDlg, IDD_TO, EM_LIMITTEXT, 13, 0L);
SHAutoComplete(GetDlgItem(hDlg, IDD_TO), 0);
if (!pgn->bShowCancel)
HideYesToAllAndNo(hDlg);
break;
case WM_COMMAND:
switch (GET_WM_COMMAND_ID(wParam, lParam))
{
case IDD_YESTOALL:
case IDYES:
GetDlgItemText(hDlg, IDD_TO, szT, ARRAYSIZE(szT));
PathAppend(pgn->pszDialogTo, szT);
PathQualify(pgn->pszDialogTo);
// fall through
case IDNO:
case IDCANCEL:
EndDialog(hDlg,GET_WM_COMMAND_ID(wParam, lParam));
break;
case IDD_TO:
{
LPCTSTR p;
GetDlgItemText(hDlg, IDD_TO, szT, ARRAYSIZE(szT));
for (p = szT; *p; p = CharNext(p))
{
if (!(PathGetCharType(*p) & GCT_SHORTCHAR))
break;
}
EnableWindow(GetDlgItem(hDlg,IDYES), ((!*p) && (p != szT)));
}
break;
default:
return FALSE;
}
break;
default:
return FALSE;
}
return TRUE;
}
int GetNameDialog(HWND hwnd, COPY_STATE *pcs, BOOL fMultiple,UINT wOp, LPTSTR pFrom, LPTSTR pTo)
{
int iRet;
// if we don't want to confirm this, just mock up a string and return ok
if (!(pcs->cd.fConfirm & CONFIRM_LFNTOFAT))
{
TCHAR szTemp[MAX_PATH];
GuessAShortName(PathFindFileName(pFrom), szTemp);
PathRemoveFileSpec(pTo);
PathAppend(pTo, szTemp);
// make sure that name is unique
PathYetAnotherMakeUniqueName(pTo, pTo, NULL, NULL);
iRet = IDYES;
}
else
{
GETNAME_DATA gn;
gn.pszDialogFrom = pFrom;
gn.pszDialogTo = pTo;
gn.bShowCancel = fMultiple;
iRet = (int)DialogBoxParam(HINST_THISDLL, MAKEINTRESOURCE(DLG_LFNTOFAT), hwnd, GetNameDlgProc, (LPARAM)(GETNAME_DATA *)&gn);
if (iRet == IDD_YESTOALL)
pcs->cd.fConfirm &= ~CONFIRM_LFNTOFAT;
}
return iRet;
}
STDAPI_(void) SHFreeNameMappings(void *hNameMappings)
{
HDSA hdsaRenamePairs = (HDSA)hNameMappings;
int i;
if (!hdsaRenamePairs)
return;
i = DSA_GetItemCount(hdsaRenamePairs) - 1;
for (; i >= 0; i--)
{
SHNAMEMAPPING FAR* prp = DSA_GetItemPtr(hdsaRenamePairs, i);
LocalFree(prp->pszOldPath);
LocalFree(prp->pszNewPath);
}
DSA_Destroy(hdsaRenamePairs);
}
void _ProcessNameMappings(LPTSTR pszTarget, HDSA hdsaRenamePairs)
{
int i;
if (!hdsaRenamePairs)
return;
for (i = DSA_GetItemCount(hdsaRenamePairs) - 1; i >= 0; i--)
{
TCHAR cTemp;
SHNAMEMAPPING FAR* prp = DSA_GetItemPtr(hdsaRenamePairs, i);
// I don't call StrCmpNI 'cause I already know cchOldPath, and
// it has to do a couple of lstrlen()s to calculate it.
cTemp = pszTarget[prp->cchOldPath];
pszTarget[prp->cchOldPath] = 0;
// Does the target match this collision renaming entry?
// NOTE: We are trying to compare a path to a path. prp->pszOldPath
// does not have a trailing "\" character, so this isn't covered
// by the lstrcmpi below. As such, cTemp had best be the path
// seperator character to ensure that the modified pszTarget is actually
// a path and not a filename or a longer path name that doesn't match
// but happens to start with the same characters as prp->pszOldPath.
if ((cTemp == TEXT('\\')) && !lstrcmpi(pszTarget, prp->pszOldPath))
{
// Get subtree string of the target.
TCHAR *pszSubTree = &(pszTarget[prp->cchOldPath + 1]);
// Generate the new target path.
PathCombine(pszTarget, prp->pszNewPath, pszSubTree);
break;
}
else
{
// Restore the trounced character.
pszTarget[prp->cchOldPath] = cTemp;
}
}
}
/* Sets the status dialog item in the modeless status dialog box. */
// used for both the drag drop status dialogs and the manual user
// entry dialogs so be careful what you change
void SetProgressText(COPY_STATE *pcs, LPCTSTR pszFrom, LPCTSTR pszTo)
{
HWND hwndProgress = pcs->hwndProgress;
if (hwndProgress && !(pcs->fFlags & FOF_SIMPLEPROGRESS))
{
TCHAR szFrom[MAX_PATH], szTo[MAX_PATH];
LPTSTR pszMsg = NULL;
HDC hdc;
HFONT hfont;
HFONT hfontSave;
RECT rc;
int cxWidth;
SIZE size;
//
// Compute the size we can use for our file names (REVIEW: Cache this result?)
//
hdc = GetDC(hwndProgress);
hfont = (HFONT)SendMessage(hwndProgress, WM_GETFONT, 0, 0);
hfontSave = (HFONT)SelectObject(hdc, hfont);
GetWindowRect(GetDlgItem(hwndProgress, IDD_TONAME), &rc);
cxWidth = rc.right - rc.left;
if (NULL != pszTo && pcs->fFlags & FOF_MULTIDESTFILES)
{
lstrcpy(szFrom, pszTo);
}
else
{
lstrcpy(szFrom, pszFrom);
}
PathStripPath(szFrom);
PathCompactPath(hdc, szFrom, cxWidth);
SetDlgItemText(hwndProgress, IDD_NAME, szFrom);
lstrcpy(szFrom, pszFrom);
if (szFrom[0])
{
LPTSTR pszResource = MAKEINTRESOURCE(IDS_FROM);
LPTSTR pszToUsable = NULL;
szTo[0] = TEXT('\0');
if (pszTo)
{
pszToUsable = szTo;
pszResource = MAKEINTRESOURCE(IDS_FROMTO);
}
pszMsg = ShellConstructMessageString(HINST_THISDLL,
pszResource, "", pszToUsable);
if (NULL != pszMsg)
{
GetTextExtentPoint(hdc, pszMsg, lstrlen(pszMsg), &size);
cxWidth -= size.cx;
LocalFree(pszMsg);
}
//
// Now build the file names
//
PathRemoveFileSpec(szFrom);
PathStripPath(szFrom);
if (pszTo)
{
lstrcpy(szTo, pszTo);
PathRemoveFileSpec(szTo);
PathStripPath(szTo);
PathCompactPath(hdc, szFrom, cxWidth/2);
PathCompactPath(hdc, szTo, cxWidth/2);
}
else
{
PathCompactPath(hdc, szFrom, cxWidth);
}
//
// Now create the real message
//
pszMsg = ShellConstructMessageString(HINST_THISDLL,
pszResource, szFrom, pszToUsable);
}
else if (!pcs->fDTBuilt)
{
TCHAR szFunc[80];
if (LoadString(HINST_THISDLL, FOFuncToStringID(pcs->lpfo->wFunc),
szFunc, ARRAYSIZE(szFunc)))
{
pszMsg = ShellConstructMessageString(HINST_THISDLL,
MAKEINTRESOURCE(IDS_PREPARINGTO), szFunc);
}
}
if (pszMsg)
{
SetDlgItemText(hwndProgress, IDD_TONAME, pszMsg);
LocalFree(pszMsg);
}
SelectObject(hdc, hfontSave);
ReleaseDC(hwndProgress, hdc);
}
}
void SetProgressTimeEst(COPY_STATE *pcs, DWORD dwTimeLeft)
{
TCHAR szFmt[60];
TCHAR szOut[70];
DWORD dwTime;
if (pcs->hwndProgress)
{
if (dwTimeLeft > 4*60*60) // 4 hours and over you get no text
{
szFmt[0] = TEXT('\0');
}
else if (dwTimeLeft > 60)
{
// Note that dwTime is at least 2, so we only need a plural form
LoadString(HINST_THISDLL, IDS_TIMEEST_MINUTES, szFmt, ARRAYSIZE(szFmt));
dwTime = (dwTimeLeft / 60) + 1;
}
else
{
LoadString(HINST_THISDLL, IDS_TIMEEST_SECONDS, szFmt, ARRAYSIZE(szFmt));
// Round up to 5 seconds so it doesn't look so random
dwTime = ((dwTimeLeft+4) / 5) * 5;
}
wsprintf(szOut, szFmt, dwTime);
SetDlgItemText(pcs->hwndProgress, IDD_TIMEEST, szOut);
}
}
// this updates the animation, which could change because we could switch between
// doing a move to recycle bin and really nuke if the file/folder was bigger that
// the allowable size of the recycle bin.
void UpdateProgressAnimation(COPY_STATE *pcs)
{
if (pcs->hwndProgress && pcs->lpfo)
{
INT_PTR idAni, idAniCurrent;
HWND hwndAnimation;
switch (pcs->lpfo->wFunc)
{
case FO_DELETE:
if ((pcs->lpfo->lpszProgressTitle == MAKEINTRESOURCE(IDS_BB_EMPTYINGWASTEBASKET)) ||
(pcs->lpfo->lpszProgressTitle == MAKEINTRESOURCE(IDS_BB_DELETINGWASTEBASKETFILES)))
{
idAni = IDA_FILENUKE;
break;
}
else if (!(pcs->fFlags & FOF_ALLOWUNDO))
{
idAni = IDA_FILEDELREAL;
break;
} // else fall through to default
default:
idAni = (IDA_FILEMOVE + (int)pcs->lpfo->wFunc - FO_MOVE);
}
hwndAnimation = GetDlgItem(pcs->hwndProgress,IDD_ANIMATE);
idAniCurrent = (INT_PTR) GetProp(hwndAnimation, TEXT("AnimationID"));
if (idAni != idAniCurrent)
{
// the one we should be using is different from the one we have,
// so update it
// close the old clip
Animate_Close(hwndAnimation);
// open the new one
Animate_Open(hwndAnimation, idAni);
// if the window is enabled, start the new animation playing
if (IsWindowEnabled(pcs->hwndProgress))
Animate_Play(hwndAnimation, -1, -1, -1);
// set the current idAni
SetProp(hwndAnimation, TEXT("AnimationID"), (HANDLE)idAni);
// at the same time we update the animation, we also update the text,
// so that the two will always be in sync
SetProgressText(pcs, pcs->dth.szSrcPath, pcs->lpfo->wFunc == FO_DELETE ? NULL : pcs->dth.szDestPath);
}
}
}
void SendProgressMessage(COPY_STATE *pcs, UINT uMsg, WPARAM wParam, LPARAM lParam)
{
if (pcs->hwndProgress)
SendDlgItemMessage(pcs->hwndProgress, IDD_PROBAR, uMsg, wParam, lParam);
}
//
// creates folder and all parts of the path if necessary (parent does not need
// to exists) and verifies that the contents of the folder will be visibile.
//
// in:
// hwnd hwnd to post UI on
// pszPath full path to create
// psa security attributes
//
// returns:
// ERROR_SUCCESS (0) success
// ERROR_ failure
//
STDAPI_(int) SHCreateDirectoryEx(HWND hwnd, LPCTSTR pszPath, SECURITY_ATTRIBUTES *psa)
{
int ret = ERROR_SUCCESS;
if (PathIsRelative(pszPath))
{
// if not a "full" path bail
// to ensure that we dont create a dir in the current working directory
SetLastError(ERROR_BAD_PATHNAME);
return ERROR_BAD_PATHNAME;
}
if (!Win32CreateDirectory(pszPath, psa))
{
TCHAR *pEnd, *pSlash, szTemp[MAX_PATH];
ret = GetLastError();
// There are certain error codes that we should bail out here
// before going through and walking up the tree...
switch (ret)
{
case ERROR_FILENAME_EXCED_RANGE:
case ERROR_FILE_EXISTS:
case ERROR_ALREADY_EXISTS:
return ret;
}
lstrcpyn(szTemp, pszPath, ARRAYSIZE(szTemp));
pEnd = PathAddBackslash(szTemp); // for the loop below
// assume we have 'X:\' to start this should even work
// on UNC names because will will ignore the first error
pSlash = szTemp + 3;
// create each part of the dir in order
while (*pSlash)
{
while (*pSlash && *pSlash != TEXT('\\'))
pSlash = CharNext(pSlash);
if (*pSlash)
{
ASSERT(*pSlash == TEXT('\\'));
*pSlash = 0; // terminate path at seperator
ret = Win32CreateDirectory(szTemp, pSlash + 1 == pEnd ? psa : NULL) ? ERROR_SUCCESS : GetLastError();
}
*pSlash++ = TEXT('\\'); // put the seperator back
}
}
if (ERROR_SUCCESS != ret)
{
// We failed, so let's try to display error UI.
if (hwnd && ERROR_CANCELLED != ret)
{
SHSysErrorMessageBox(hwnd, NULL, IDS_CANNOTCREATEFOLDER, ret,
pszPath ? PathFindFileName(pszPath) : NULL,
MB_OK | MB_ICONEXCLAMATION);
ret = ERROR_CANCELLED; // Indicate we already displayed Error UI.
}
}
return ret;
}
STDAPI_(int) SHCreateDirectory(HWND hwnd, LPCTSTR pszPath)
{
return SHCreateDirectoryEx(hwnd, pszPath, NULL);
}
#ifdef UNICODE
STDAPI_(int) SHCreateDirectoryExA(HWND hwnd, LPCSTR pszPath, SECURITY_ATTRIBUTES *psa)
{
WCHAR wsz[MAX_PATH];
SHAnsiToUnicode(pszPath, wsz, SIZECHARS(wsz));
return SHCreateDirectoryEx(hwnd, wsz, psa);
}
#else
STDAPI_(int) SHCreateDirectoryExW(HWND hwnd, LPCWSTR pszPath, SECURITY_ATTRIBUTES *psa)
{
char sz[MAX_PATH];
SHUnicodeToAnsi(pszPath, sz, SIZECHARS(sz));
return SHCreateDirectoryEx(hwnd, sz, psa);
}
#endif
// call MPR to find out the speed of a given path
//
// returns
// 0 for unknown
// 144 for 14.4 modems
// 96 for 9600
// 24 for 2400
//
// if the device does not return a speed we return 0
//
DWORD GetPathSpeed(LPCTSTR pszPath)
{
NETCONNECTINFOSTRUCT nci;
NETRESOURCE nr;
TCHAR szPath[MAX_PATH];
lstrcpyn(szPath, pszPath, ARRAYSIZE(szPath));
PathStripToRoot(szPath); // get a root to this path
memset(&nci, 0, sizeof(nci));
nci.cbStructure = sizeof(nci);
memset(&nr, 0, sizeof(nr));
if (PathIsUNC(szPath))
nr.lpRemoteName = szPath;
else
{
// Don't bother for local drives
if (!IsRemoteDrive(DRIVEID(szPath)))
return 0;
// we are passing in a local drive and MPR does not like us to pass a
// local name as Z:\ but only wants Z:
szPath[2] = 0; // Strip off after character and :
nr.lpLocalName = szPath;
}
// dwSpeed is returned by MultinetGetConnectionPerformance
MultinetGetConnectionPerformance(&nr, &nci);
return nci.dwSpeed;
}
DWORD CopyCallbackProc(LARGE_INTEGER liTotSize, LARGE_INTEGER liBytes,
LARGE_INTEGER liStreamSize, LARGE_INTEGER liStreamBytes,
DWORD dwStream, DWORD dwCallback,
HANDLE hSource, HANDLE hDest, void *pv)
{
COPY_STATE *pcs = (COPY_STATE *)pv;
DebugMsg(DM_TRACE, TEXT("CopyCallbackProc[%08lX], totsize=%08lX, bytes=%08lX"),
dwCallback, liTotSize.LowPart, liBytes.LowPart);
if (FOQueryAbort(pcs))
return PROGRESS_CANCEL;
DTSetFileCopyProgress(&pcs->dth, liBytes);
if (pcs->fInitialize)
{
// preserve the create date when moving across volumes, otherwise use the
// create date the file system picked when we did the CreateFile()
// always preserve modified date (ftLastWriteTime)
// bummer is we loose accuracy when going to VFAT compared to NT servers
SetFileTime((HANDLE)hDest, (pcs->lpfo->wFunc == FO_MOVE) ? &pcs->pfd->ftCreationTime : NULL,
NULL, &pcs->pfd->ftLastWriteTime);
pcs->fInitialize = FALSE;
}
switch (dwCallback)
{
case CALLBACK_STREAM_SWITCH:
break;
case CALLBACK_CHUNK_FINISHED:
break;
default:
break;
}
return PROGRESS_CONTINUE;
}
// copy the SECURITY_DESCRIPTOR for two files
//
// in:
// pszSource fully qualified source path
// pszDest fully qualified destination path
//
// returns:
// 0 ERROR_SUCCESS
// WIN32 error codes
//
DWORD
CopyFileSecurity(LPCTSTR pszSource, LPCTSTR pszDest)
{
DWORD err = ERROR_SUCCESS;
BOOL fRet = TRUE;
BYTE buf[512];
// arbitrarily saying do everything we can
// except SACL_SECURITY_INFORMATION because
SECURITY_INFORMATION si = OWNER_SECURITY_INFORMATION | GROUP_SECURITY_INFORMATION | DACL_SECURITY_INFORMATION;
PSECURITY_DESCRIPTOR psd = (PSECURITY_DESCRIPTOR) buf;
DWORD cbPsd = sizeof(buf);
if (!SHRestricted(REST_FORCECOPYACLWITHFILE))
{
// shell restriction so return access denied?
return ERROR_ACCESS_DENIED;
}
fRet = GetFileSecurity(pszSource, si, psd, cbPsd, &cbPsd);
if (!fRet)
{
err = GetLastError();
if (ERROR_INSUFFICIENT_BUFFER == err)
{
// just need to resize the buffer and try again
psd = (PSECURITY_DESCRIPTOR) LocalAlloc(LPTR, cbPsd);
if (psd)
{
fRet = GetFileSecurity(pszSource, si, psd, cbPsd, &cbPsd);
}
else
{
err = ERROR_NOT_ENOUGH_MEMORY;
}
}
}
if (fRet)
{
fRet = SetFileSecurity(pszDest, si, psd);
if (!fRet)
err = GetLastError();
}
if (psd && psd != buf)
LocalFree(psd);
if (fRet)
return ERROR_SUCCESS;
return err;
}
// reset the SECURITY_DESCRIPTOR on a file or directory
//
// in:
// pszDest fully qualified destination path
//
// returns:
// 0 ERROR_SUCCESS
// WIN32 error codes
//
DWORD
ResetFileSecurity(LPCTSTR pszDest)
{
DWORD err = ERROR_SUCCESS;
if (!SHRestricted(REST_FORCECOPYACLWITHFILE))
{
ACL acl;
InitializeAcl(&acl, sizeof(acl), ACL_REVISION);
// TreeResetNamedSecurityInfo has a callback mechanism, but
// we currently don't use it. Note that the paths passed to
// the callback look like
// "\Device\HarddiskVolume1\dir\name"
err = TreeResetNamedSecurityInfo((LPTSTR)pszDest,
SE_FILE_OBJECT,
DACL_SECURITY_INFORMATION | UNPROTECTED_DACL_SECURITY_INFORMATION,
NULL,
NULL,
&acl,
NULL,
FALSE, // KeepExplicit (perms on children)
NULL,
ProgressInvokeNever,
NULL);
}
return err;
}
//
// in:
// hwnd Window to report things to.
// pszSource fully qualified source path
// pszDest fully qualified destination path
// pfd source file find data (size/date/time/attribs)
//
// returns:
// ERROR_SUCCESS (0)
// other Win32 ERROR_ codes
//
UINT FileCopy(COPY_STATE *pcs, LPCTSTR pszSource, LPCTSTR pszDest, const WIN32_FIND_DATA *pfd, BOOL fCreateAlways)
{
UINT iRet = ERROR_CANCELLED;
BOOL fRetryPath = FALSE;
BOOL fRetryAttr = FALSE;
BOOL fCopyOrMoveSucceeded = FALSE;
BOOL fSecurityObtained = FALSE;
DWORD dwCopyFlags;
// Buffers for security info
BYTE rgbSecurityDescriptor[512];
SECURITY_INFORMATION si = OWNER_SECURITY_INFORMATION | GROUP_SECURITY_INFORMATION | DACL_SECURITY_INFORMATION;
PSECURITY_DESCRIPTOR psd = (PSECURITY_DESCRIPTOR) rgbSecurityDescriptor;
DWORD cbPsd = sizeof(rgbSecurityDescriptor);
// Make sure we can start
if (FOQueryAbort(pcs))
return ERROR_CANCELLED;
//
// Now do the file copy/move
//
// Get the security info from the source file. If there is a problem
// (e.g. the file is on FAT) we ignore it and proceed with the copy/move.
if (!(pcs->fFlags & FOF_NOCOPYSECURITYATTRIBS))
{
if (SHRestricted(REST_FORCECOPYACLWITHFILE))
{
if (GetFileSecurity(pszSource, si, psd, cbPsd, &cbPsd))
{
fSecurityObtained = TRUE;
}
else
{
if (ERROR_INSUFFICIENT_BUFFER == GetLastError())
{
psd = (PSECURITY_DESCRIPTOR) LocalAlloc(LPTR, cbPsd);
if (psd)
{
if (GetFileSecurity(pszSource, si, psd, cbPsd, &cbPsd))
{
fSecurityObtained = TRUE;
}
}
}
}
}
}
TryCopyAgain:
pcs->fInitialize = TRUE;
pcs->pfd = pfd;
SetProgressText(pcs, pszSource, pszDest);
dwCopyFlags = 0;
if (pcs->fLostEncryptOk)
{
dwCopyFlags |= COPY_FILE_ALLOW_DECRYPTED_DESTINATION;
}
if (FO_MOVE == pcs->lpfo->wFunc)
{
fCopyOrMoveSucceeded = MoveFileWithProgress(pszSource, pszDest, CopyCallbackProc, pcs, MOVEFILE_COPY_ALLOWED | (fCreateAlways ? MOVEFILE_REPLACE_EXISTING : 0));
}
else
{
if (!fCreateAlways)
{
dwCopyFlags |= COPY_FILE_FAIL_IF_EXISTS;
}
fCopyOrMoveSucceeded = CopyFileEx(pszSource, pszDest, CopyCallbackProc, pcs, &pcs->bAbort, dwCopyFlags);
}
if (!fCopyOrMoveSucceeded)
{
int iLastError = (int)GetLastError();
DebugMsg(TF_DEBUGCOPY, TEXT("FileCopy() failed, get last error returned 0x%08x"), iLastError);
switch (iLastError)
{
// Let the caller handle this one
case ERROR_FILE_EXISTS:
case ERROR_ALREADY_EXISTS: // nt5 221893 CopyFileEx now returns this for some reason...
iRet = ERROR_FILE_EXISTS;
goto Exit;
case ERROR_DISK_FULL:
if (PathIsUNC(pszDest) || !IsRemovableDrive(DRIVEID(pszDest)) || PathIsSameRoot(pszDest,pszSource))
{
break;
}
iLastError = ERROR_DISK_FULL;
// Fall through
case ERROR_PATH_NOT_FOUND:
if (!fRetryPath)
{
// ask the user to stick in another disk or empty wastebasket
ULARGE_INTEGER ulFileSize;
ulFileSize.LowPart = pfd->nFileSizeLow;
ulFileSize.HighPart = pfd->nFileSizeHigh;
iLastError = CopyMoveRetry(pcs, pszDest, iLastError, &ulFileSize);
if (!iLastError)
{
fRetryPath = TRUE;
goto TryCopyAgain;
}
CopyError(pcs, pszSource, pszDest, (UINT)iLastError | ERRORONDEST, FO_COPY, OPER_DOFILE);
iRet = ERROR_CANCELLED;
goto Exit;
}
break;
case ERROR_ENCRYPTION_FAILED:
if (pfd->dwFileAttributes & FILE_ATTRIBUTE_ENCRYPTED && FALSE == pcs->fLostEncryptOk)
{
int result;
result = CachedConfirmFileOp(pcs->hwndDlgParent, pcs,
&pcs->cd, pcs->nSourceFiles,
FALSE,
CONFIRM_LOST_ENCRYPT_FILE,
pszSource, pfd, pszDest, NULL, NULL);
switch (result)
{
case IDYES:
pcs->fLostEncryptOk = TRUE;
goto TryCopyAgain;
case IDNO:
case IDCANCEL:
pcs->bAbort = TRUE;
iRet = result;
break;
default:
iRet = result;
break;
}
}
break;
case ERROR_ACCESS_DENIED:
// check if the filename is too long
if (lstrlen(PathFindFileName(pszSource)) + lstrlen(pszDest) >= MAX_PATH)
{
iLastError = DE_FILENAMETOOLONG;
}
else if (!fRetryAttr)
{
// If the file is readonly, reset the readonly attribute
// and have another go at it
DWORD dwAttributes = GetFileAttributes(pszDest);
if (0xFFFFFFFF != dwAttributes)
{
dwAttributes &= ~(FILE_ATTRIBUTE_READONLY | FILE_ATTRIBUTE_HIDDEN | FILE_ATTRIBUTE_SYSTEM);
if (SetFileAttributes(pszDest, dwAttributes))
{
fRetryAttr = TRUE;
goto TryCopyAgain;
}
}
// GetFileAttributes() 10 lines above clobers GetLastError() and CopyError()
// needs it.
SetLastError(iLastError);
}
break;
}
if (!pcs->bAbort)
{
CopyError(pcs, pszSource, pszDest, iLastError, FO_COPY, OPER_DOFILE);
}
iRet = ERROR_CANCELLED; // error already reported
goto Exit;
}
// If copying from a CDRom - clear the read-only bit
if (pcs->fFromCDRom)
{
SetFileAttributes(pszDest, pfd->dwFileAttributes & ~FILE_ATTRIBUTE_READONLY);
}
// Set the source's security on the destination, ignoring any error.
if (fSecurityObtained)
{
SetFileSecurity(pszDest, si, psd);
}
SHChangeNotify(SHCNE_CREATE, SHCNF_PATH, pszDest, NULL);
if (FO_MOVE == pcs->lpfo->wFunc)
{
// Let windows waiting on notifications of Source know of change. We have to check
// to see if the file is actually gone in order to tell if it actually moved or not.
if (!PathFileExists(pszSource))
SHChangeNotify(SHCNE_DELETE, SHCNF_PATH, pszSource, NULL);
}
else if (0 == StrCmpIC(pfd->cFileName, TEXT("desktop.ini")))
{
// clean out stuff from the desktop.ini
WritePrivateProfileSection(TEXT("DeleteOnCopy"), NULL, pszDest);
}
iRet = ERROR_SUCCESS; // 0
Exit:
// If we had to alloc a buffer for the security descriptor,
// free it now.
if (psd && (rgbSecurityDescriptor != psd))
LocalFree(psd);
return iRet;
}
// note: this is a very slow call
DWORD GetFreeClusters(LPCTSTR szPath)
{
DWORD dwFreeClus;
DWORD dwTemp;
if (GetDiskFreeSpace(szPath, &dwTemp, &dwTemp, &dwFreeClus, &dwTemp))
return dwFreeClus;
else
return (DWORD)-1;
}
// note: this is a very slow call
BOOL TotalCapacity(LPCTSTR szPath, ULARGE_INTEGER *puliDiskSize)
{
int idDrive = PathGetDriveNumber(szPath);
if (idDrive != -1)
{
TCHAR szDrive[5];
ULARGE_INTEGER ullDiskFreeForUser;
PathBuildRoot(szDrive, idDrive);
return GetDiskFreeSpaceEx(szDrive, &ullDiskFreeForUser, puliDiskSize, NULL);
}
return FALSE;
}
typedef struct
{
LPTSTR pszTitle;
LPTSTR pszText;
} DISKERRORPARAM;
BOOL_PTR CALLBACK DiskErrDlgProc(HWND hDlg, UINT uMessage, WPARAM wParam, LPARAM lParam)
{
switch (uMessage)
{
case WM_INITDIALOG:
{
DISKERRORPARAM *pDiskError = (DISKERRORPARAM *) lParam;
if (pDiskError)
{
SetWindowText(hDlg, pDiskError->pszTitle);
SetDlgItemText(hDlg, IDC_DISKERR_EXPLAIN, pDiskError->pszText);
}
Static_SetIcon(GetDlgItem(hDlg, IDC_DISKERR_STOPICON),
LoadIcon(NULL, IDI_HAND));
}
break;
case WM_COMMAND:
switch (LOWORD(wParam))
{
case IDOK:
case IDCANCEL:
case IDC_DISKERR_LAUNCHCLEANUP:
EndDialog (hDlg, LOWORD(wParam));
break;
default:
return FALSE;
}
break;
default:
return FALSE;
}
return TRUE;
}
void DisplayFileOperationError(HWND hParent, int idVerb, int wFunc, int nError, LPCTSTR pszReason, LPCTSTR pszPath, LPCTSTR pszDest)
{
TCHAR szBuffer[80];
DISKERRORPARAM diskparams;
// Grab title from resource
if (LoadString(HINST_THISDLL, IDS_FILEERROR + wFunc, szBuffer, ARRAYSIZE(szBuffer)))
{
diskparams.pszTitle = szBuffer;
}
else
{
diskparams.pszTitle = NULL;
}
// Build Message to display
diskparams.pszText = ShellConstructMessageString(HINST_THISDLL,
MAKEINTRESOURCE(idVerb), pszReason, PathFindFileName(pszPath));
if (diskparams.pszText)
{
int idDrive = DriveIDFromBBPath(pszDest);
//if we want to show Disk cleanup do our stuff, otherwise do MessageBox
if (nError == ERROR_DISK_FULL &&
IsBitBucketableDrive(idDrive) &&
!PathIsUNC(pszDest) &&
GetDiskCleanupPath(NULL, 0))
{
if (DialogBoxParam(HINST_THISDLL, MAKEINTRESOURCE(DLG_DISKERR), hParent,
DiskErrDlgProc, (LPARAM)&diskparams) == IDC_DISKERR_LAUNCHCLEANUP)
{
LaunchDiskCleanup(hParent, idDrive, DISKCLEANUP_NOFLAG);
}
}
else
{
MessageBox(hParent, diskparams.pszText, diskparams.pszTitle,
MB_OK | MB_ICONSTOP | MB_SETFOREGROUND);
}
LocalFree(diskparams.pszText);
}
}
/***********************************************************************\
DESCRIPTION:
We received an SHARINGVIOLATION or ACCESSDENIED error. We want
to generate the most accruate error message for the user to inform
them better. These are the cases we care about:
ERROR_ACCESS_DENIED: This is the legacy case with the message:
"Access is denied. The source file may be in use."
DE_DEST_IS_CDROM: This is displayed in case the user copies a file to
their cd-rom drive.
DE_DEST_IS_CDRECORD: user deletes from CD recordable drive, we need an error
message that isn't so scary about "cant copy files to CD".
DE_DEST_IS_DVD: This is displayed in case the user copies a file to
their DVD drive
DE_SHARING_VIOLATION: The file can't be copied because it's open by someone
who doesn't allow others to read the file while they
use it.
DE_PERMISSIONDENIED: This should be displayed if the user doesn't have
the ACLs (security permissions) to read/copy the file.
\***********************************************************************/
int GenAccessDeniedError(LPCTSTR pszSource, LPCTSTR pszDest, int nError)
{
int nErrorMsg = ERROR_ACCESS_DENIED;
int iDrive = PathGetDriveNumber(pszDest);
if (iDrive != -1)
{
if (IsCDRomDrive(iDrive))
{
WCHAR szDrive[4];
// check if user is deleting from cd-r drive. error message saying "cant copy or move files to cd drive"
// doesn't apply. since we're about to put up ui its not like we have to be super fast here, call into cdburning code.
if (SUCCEEDED(CDBurn_GetRecorderDriveLetter(szDrive, ARRAYSIZE(szDrive))) &&
(DRIVEID(szDrive) == iDrive))
{
nErrorMsg = DE_DEST_IS_CDRECORD;
}
else
{
nErrorMsg = DE_DEST_IS_CDROM;
}
}
if (DriveIsDVD(iDrive))
nErrorMsg = DE_DEST_IS_DVD;
}
// TODO: DE_SHARING_VIOLATION, DE_PERMISSIONDENIED
return nErrorMsg;
}
//
// The following function reports errors for the copy engine
//
// Parameters
// pszSource source file name
// pszDest destination file name
// nError dos (or our exteneded) error code
// 0xFFFF for special case NET error
// wFunc FO_* values
// nOper OPER_* values, operation being performed
//
void CopyError(LPCOPY_STATE pcs, LPCTSTR pszSource, LPCTSTR pszDest, int nError, UINT wFunc, int nOper)
{
TCHAR szReason[200];
TCHAR szFile[MAX_PATH];
int idVerb;
BOOL bDest;
BOOL fSysError = FALSE;
DWORD dwError = GetLastError(); // get Extended error now before we blow it away.
if (!pcs || (pcs->fFlags & FOF_NOERRORUI))
return; // caller doesn't want to report errors
bDest = nError & ERRORONDEST; // was dest file cause of error
nError &= ~ERRORONDEST; // clear the dest bit
// We also may need to remap some new error codes into old error codes
//
if (nError == ERROR_BAD_PATHNAME)
nError = DE_INVALIDFILES;
if (nError == ERROR_CANCELLED) // user abort
return;
lstrcpyn(szFile, bDest ? pszDest : pszSource, ARRAYSIZE(szFile));
if (!szFile[0])
{
LoadString(HINST_THISDLL, IDS_FILE, szFile, ARRAYSIZE(szFile));
}
else
{
// make the path fits on the screen
RECT rcMonitor;
HWND hwnd = pcs->hwndProgress ? pcs->hwndProgress : pcs->hwndDlgParent;
GetMonitorRect(MonitorFromWindow(hwnd, TRUE), &rcMonitor);
PathCompactPath(NULL, szFile, (rcMonitor.right - rcMonitor.left) / 3);
}
// get the verb string
// since we now recycle folders as well as files, added OPER_ENTERDIR check here
if ((nOper == OPER_DOFILE) || (nOper == OPER_ENTERDIR) || (nOper == 0))
{
if ((nError != -1) && bDest)
{
idVerb = IDS_REPLACING;
}
else
{
idVerb = IDS_VERBS + wFunc;
}
}
else
{
idVerb = IDS_ACTIONS + (nOper >> 8);
}
// get the reason string
if (nError == 0xFFFF)
{
DWORD dw;
WNetGetLastError(&dw, szReason, ARRAYSIZE(szReason), NULL, 0);
}
else
{
// transform some error cases
if (bDest)
{
// This caseing of error codes is error prone.. it would
// be better to find the explicit ones we wish to map to
// this one instead of trying to guess all the ones
// we don't want to map...
if ((nError == ERROR_DISK_FULL) ||
((nError != ERROR_ACCESS_DENIED) &&
(nError != ERROR_NETWORK_ACCESS_DENIED) &&
(nError != ERROR_WRITE_PROTECT) &&
(nError != ERROR_BAD_NET_NAME) &&
(GetFreeClusters(pszDest) == 0L)))
{
nError = ERROR_DISK_FULL;
}
else if (dwError == ERROR_WRITE_FAULT)
{
nError = ERROR_WRITE_FAULT;
}
else if (dwError == ERROR_INVALID_NAME)
{
nError = ERROR_INVALID_NAME;
}
}
else
{
if (nError == ERROR_ACCESS_DENIED)
{
// Check the extended error for more info about the error...
// We just map these errors to something generic that
// tells the user something weird is going on.
switch (dwError)
{
case ERROR_CRC:
case ERROR_SEEK:
case ERROR_SECTOR_NOT_FOUND:
case ERROR_READ_FAULT:
case ERROR_GEN_FAILURE:
nError = ERROR_GEN_FAILURE;
break;
// We can't test for ERROR_FILE_NOT_FOUND because in the case where we copy to
// a write-protected dest we check to see if the reason we got access denied was
// because there's already a read-only file there. If there isn't _that_ test is
// going to SetLastError() to ERROR_FILE_NOT_FOUND and that's what we're going to
// report as an error. [davepl]
//
// case ERROR_FILE_NOT_FOUND:
// nError = ERROR_GEN_FAILURE;
// break;
case ERROR_SHARING_VIOLATION:
case ERROR_ACCESS_DENIED:
nError = GenAccessDeniedError(pszSource, pszDest, nError);
break;
default:
TraceMsg(TF_WARNING, "CopyEngine: hit error %x , not currently special cased", dwError);
break;
}
}
else
{
// This error occures when a user drags & drops a file from point a to
// point b twice. The second time fails because the first time hasn't finished.
if (nError == (OPER_ERROR | ERROR_FILE_NOT_FOUND))
{
nError = ERROR_GEN_FAILURE;
}
}
}
}
// the error munging above is in several places, but there are some errors that we
// know for SURE the user will never want to see so zap them to generic failures.
// this whole thing needs a redesign... we shouldnt depend generally on errors getting
// UI ("There is not enough space on the disk.") because then we get crap like this.
// but everybody already knows that.
switch (nError)
{
case ERROR_SWAPERROR: // Error performing inpage operation.
nError = ERROR_GEN_FAILURE;
break;
}
if (nError <= DE_ERROR_MAX)
{
BOOL fOverridden = FALSE;
if (nError == ERROR_SHARING_VIOLATION)
{
// in the sharing violation case we can try to be a little better in the error UI by
// going through the running object table and seeing if the file is registered in there.
// if it's not in there, no biggie, just use our normal handling.
PWSTR pszApp;
if (SUCCEEDED(FindAppForFileInUse(bDest ? pszDest : pszSource, &pszApp)))
{
PWSTR pszMessage = ShellConstructMessageString(HINST_THISDLL, MAKEINTRESOURCE(IDS_SHAREVIOLATION_HINT), pszApp);
if (pszMessage)
{
StrCpyN(szReason, pszMessage, ARRAYSIZE(szReason));
fOverridden = TRUE;
LocalFree(pszMessage);
}
LocalFree(pszApp);
}
}
if (!fOverridden)
{
fSysError = !LoadString(HINST_THISDLL, IDS_REASONS + nError, szReason, ARRAYSIZE(szReason));
}
}
if (nOper == OPER_DOFILE)
{
PathRemoveExtension(szFile);
}
if (fSysError)
{
SHSysErrorMessageBox(pcs->hwndDlgParent, MAKEINTRESOURCE(IDS_FILEERROR + wFunc),
idVerb, nError, PathFindFileName(szFile),
MB_OK | MB_ICONSTOP | MB_SETFOREGROUND);
}
else
{
if (nError > DE_ERROR_MAX &&
0 == FormatMessage(FORMAT_MESSAGE_FROM_SYSTEM,
NULL,
nError,
0,
szReason,
ARRAYSIZE(szReason),
NULL))
{
szReason[0] = 0;
}
DisplayFileOperationError(pcs->hwndDlgParent, idVerb, wFunc, nError, szReason, szFile, pszDest);
}
}
//
// The following function is used to retry failed move/copy operations
// due to out of disk situations or path not found errors
// on the destination.
//
// parameters:
// pszDest Fully qualified path to destination file (ANSI)
// nError type of error: ERROR_DISK_FULL or ERROR_PATH_NOT_FOUND
// dwFileSize amount of space needed for this file if ERROR_DISK_FULL
//
// returns:
// 0 success (destination path has been created)
// != 0 dos error code including ERROR_CANCELLED
//
int CopyMoveRetry(COPY_STATE *pcs, LPCTSTR pszDest, int nError, ULARGE_INTEGER* pulFileSize)
{
UINT wFlags;
int result;
LPCTSTR wID;
TCHAR szTemp[MAX_PATH];
BOOL fFirstRetry = TRUE;
if (pcs->fFlags & FOF_NOERRORUI)
{
result = ERROR_CANCELLED;
goto ErrorExit;
}
lstrcpyn(szTemp, pszDest, ARRAYSIZE(szTemp));
PathRemoveFileSpec(szTemp);
do
{
// until the destination path has been created
if (nError == ERROR_PATH_NOT_FOUND)
{
if (!(pcs->fFlags & FOF_NOCONFIRMMKDIR))
{
wID = MAKEINTRESOURCE(IDS_PATHNOTTHERE);
wFlags = MB_ICONEXCLAMATION | MB_YESNO;
}
else
{
wID = 0;
}
}
else // ERROR_DISK_FULL
{
ULARGE_INTEGER ulDiskSize;
wFlags = MB_ICONEXCLAMATION | MB_RETRYCANCEL;
if (pulFileSize && TotalCapacity(pszDest, &ulDiskSize) && pulFileSize->QuadPart > ulDiskSize.QuadPart)
{
wID = MAKEINTRESOURCE(IDS_FILEWONTFIT);
}
else
{
wID = MAKEINTRESOURCE(IDS_DESTFULL);
}
}
if (wID)
{
// szTemp will be ignored if there's no %1%s in the string.
result = ShellMessageBox(HINST_THISDLL, pcs->hwndDlgParent, wID, MAKEINTRESOURCE(IDS_UNDO_FILEOP + pcs->lpfo->wFunc), wFlags, (LPTSTR)szTemp);
}
else
{
result = IDYES;
}
if (result == IDRETRY || result == IDYES)
{
TCHAR szDrive[5];
int idDrive;
// Allow the disk to be formatted
// REVIEW, could this be FO_MOVE as well?
if (FAILED(SHPathPrepareForWrite(((pcs->fFlags & FOF_NOERRORUI) ? NULL : pcs->hwndDlgParent), NULL, szTemp, SHPPFW_DEFAULT)))
return ERROR_CANCELLED;
idDrive = PathGetDriveNumber(szTemp);
if (idDrive != -1)
PathBuildRoot(szDrive, idDrive);
else
szDrive[0] = 0;
// if we're not copying to the root
if (lstrcmpi(szTemp, szDrive))
{
result = SHCreateDirectory(pcs->hwndDlgParent, szTemp);
if (result == ERROR_CANCELLED)
goto ErrorExit;
if (result == ERROR_ALREADY_EXISTS)
{
// if SHPathPrepareForWrite created the directory we shouldn't treat this as an error
result = 0;
}
else if (result && (nError == ERROR_PATH_NOT_FOUND))
{
result |= ERRORONDEST;
// We try twice to allow the recyclebin to be flushed.
if (fFirstRetry)
fFirstRetry = FALSE;
else
goto ErrorExit;
}
}
else
{
result = 0;
}
}
else
{
result = ERROR_CANCELLED;
goto ErrorExit;
}
} while (result);
ErrorExit:
return result; // success
}
BOOL ValidFilenames(LPCTSTR pList)
{
if (!*pList)
return FALSE;
for (; *pList; pList += lstrlen(pList) + 1)
{
if (PathIsInvalid(pList))
{
return FALSE;
}
}
return TRUE;
}
void AddRenamePairToHDSA(LPCTSTR pszOldPath, LPCTSTR pszNewPath, HDSA* phdsaRenamePairs)
{
//
// Update our collision mapping table
//
if (!*phdsaRenamePairs)
*phdsaRenamePairs = DSA_Create(sizeof(SHNAMEMAPPING), 4);
if (*phdsaRenamePairs)
{
SHNAMEMAPPING rp;
rp.cchOldPath = lstrlen(pszOldPath);
rp.cchNewPath = lstrlen(pszNewPath);
rp.pszOldPath = StrDup(pszOldPath);
if (rp.pszOldPath)
{
rp.pszNewPath = StrDup(pszNewPath);
if (rp.pszNewPath)
{
if (DSA_AppendItem(*phdsaRenamePairs, &rp) == -1)
{
LocalFree(rp.pszOldPath);
LocalFree(rp.pszNewPath);
}
}
else
{
LocalFree(rp.pszOldPath);
}
}
}
}
BOOL _HandleRename(LPCTSTR pszSource, LPTSTR pszDest, FILEOP_FLAGS fFlags, COPY_STATE * pcs)
{
TCHAR *pszConflictingName = PathFindFileName(pszSource);
TCHAR szTemp[MAX_PATH];
TCHAR szTemplate[MAX_PATH];
LPTSTR lpszLongPlate;
PathRemoveFileSpec(pszDest);
if (LoadString(HINST_THISDLL, IDS_COPYLONGPLATE, szTemplate, ARRAYSIZE(szTemplate)))
{
LPTSTR lpsz;
lpsz = pszConflictingName;
lpszLongPlate = szTemplate;
// see if the first part of the template is the same as the name "Copy #"
while (*lpsz && *lpszLongPlate &&
*lpsz == *lpszLongPlate &&
*lpszLongPlate != TEXT('('))
{
lpsz++;
lpszLongPlate++;
}
if (*lpsz == TEXT('(') && *lpszLongPlate == TEXT('('))
{
// conflicting name already in the template, use it instead
lpszLongPlate = pszConflictingName;
}
else
{
// otherwise build our own
// We need to make sure not to overflow a max buffer.
int ichFixed = lstrlen(szTemplate) + lstrlen(pszDest) + 5;
lpszLongPlate = szTemplate;
if ((ichFixed + lstrlen(pszConflictingName)) <= MAX_PATH)
{
lstrcat(lpszLongPlate, pszConflictingName);
}
else
{
// Need to remove some of the name
LPTSTR pszExt = StrRChr(pszConflictingName, NULL, TEXT('.'));
if (pszExt)
{
int ichTemplate = lstrlen(lpszLongPlate);
lstrcpyn(lpszLongPlate + ichTemplate,
pszConflictingName,
max(MAX_PATH - ichFixed - lstrlen(pszExt), 0));
// use as much of the buffer as possible
StrCatBuff(lpszLongPlate, pszExt, max(MAX_PATH - ichFixed + ichTemplate, 0));
}
else
{
lstrcpyn(lpszLongPlate + lstrlen(lpszLongPlate),
pszConflictingName,
MAX_PATH - ichFixed);
}
}
}
}
else
{
lpszLongPlate = NULL;
}
if (PathYetAnotherMakeUniqueName(szTemp, pszDest, pszConflictingName, lpszLongPlate))
{
//
// If there are any other files in the queue which are to
// be copied into a subtree of pszDest, we must update them
// as well.
//
// Put the new (renamed) target in pszDest.
lstrcpy(pszDest, szTemp);
// Rebuild the old dest name and put it in szTemp.
// I'm going for minimum stack usage here, so I don't want more
// than one MAX_PATH lying around.
PathRemoveFileSpec(szTemp);
PathAppend(szTemp, pszConflictingName);
AddRenamePairToHDSA(szTemp, pszDest, &pcs->dth.hdsaRenamePairs);
return TRUE;
}
return FALSE;
}
// test input for "multiple" filespec
//
// examples:
// 1 foo.bar (single non directory file)
// -1 *.exe (wild card on any of the files)
// n foo.bar bletch.txt (number of files)
//
int CountFiles(LPCTSTR pInput)
{
int count;
for (count = 0; *pInput; pInput += lstrlen(pInput) + 1, count++)
{
// wild cards imply multiple files
if (PathIsWild(pInput))
return -1;
}
return count;
}
#define ISDIGIT(c) ((c) >= TEXT('0') && (c) <= TEXT('9'))
BOOL IsCompressedVolume(LPCTSTR pszSource, DWORD dwAttributes)
{
int i;
LPTSTR pszFileName, pszExtension;
TCHAR szPath[MAX_PATH];
// must be marked system and hidden
if (!IS_SYSTEM_HIDDEN(dwAttributes))
return FALSE;
lstrcpy(szPath, pszSource);
pszFileName = PathFindFileName(szPath);
pszExtension = PathFindExtension(pszFileName);
// make sure the extension is a 3 digit number
if (!*pszExtension)
return FALSE; // no extension
for (i = 1; i < 4; i++)
{
if (!pszExtension[i] || !ISDIGIT(pszExtension[i]))
return FALSE;
}
// make sure it's null terminated here
if (pszExtension[4])
return FALSE;
// now knock off the extension and make sure the stem matches
*pszExtension = 0;
if (lstrcmpi(pszFileName, TEXT("DRVSPACE")) &&
lstrcmpi(pszFileName, TEXT("DBLSPACE")))
{
return FALSE;
}
// make sure it's in the root
PathRemoveFileSpec(szPath);
if (!PathIsRoot(szPath))
{
return FALSE;
}
return TRUE; // passed all tests!
}
void _DeferMoveDlgItem(HDWP hdwp, HWND hDlg, int nItem, int x, int y)
{
RECT rc;
HWND hwnd = GetDlgItem(hDlg, nItem);
GetClientRect(hwnd, &rc);
MapWindowPoints(hwnd, hDlg, (LPPOINT) &rc, 2);
DeferWindowPos(hdwp, hwnd, 0, rc.left + x, rc.top + y, 0, 0,
SWP_NOZORDER | SWP_NOSIZE | SWP_SHOWWINDOW | SWP_NOACTIVATE);
}
void _RecalcWindowHeight(HWND hWnd, LPTSTR lpszText)
{
HDC hdc = GetDC(hWnd);
RECT rc;
HWND hwndText = GetDlgItem(hWnd,IDC_MBC_TEXT);
HDWP hdwp;
int iHeightDelta, cx;
// Get the starting rect of the text area (for the width)
GetClientRect(hwndText, &rc);
MapWindowPoints(hwndText, hWnd, (LPPOINT) &rc, 2);
// Calc how high the static text area needs to be, given the above width
iHeightDelta = RECTHEIGHT(rc);
cx = RECTWIDTH(rc);
DrawText(hdc, lpszText, -1, &rc, DT_CALCRECT | DT_WORDBREAK | DT_LEFT | DT_INTERNAL | DT_EDITCONTROL);
iHeightDelta = RECTHEIGHT(rc) - iHeightDelta;
cx = RECTWIDTH(rc) - cx; // Should only change for really long words w/o spaces
if (cx < 0)
cx = 0;
ReleaseDC(hWnd, hdc);
hdwp = BeginDeferWindowPos(4);
if (hdwp)
{
hdwp = DeferWindowPos(hdwp, hwndText, 0, rc.left, rc.top, RECTWIDTH(rc), RECTHEIGHT(rc), SWP_NOZORDER | SWP_NOACTIVATE);
if (hdwp)
{
_DeferMoveDlgItem(hdwp, hWnd, IDC_MESSAGEBOXCHECKEX, 0, iHeightDelta);
_DeferMoveDlgItem(hdwp, hWnd, IDYES, cx, iHeightDelta);
_DeferMoveDlgItem(hdwp, hWnd, IDNO, cx, iHeightDelta);
EndDeferWindowPos(hdwp);
}
}
GetWindowRect(hWnd, &rc);
SetWindowPos(hWnd, 0, rc.left - (cx/2), rc.top - (iHeightDelta/2), RECTWIDTH(rc)+cx, RECTHEIGHT(rc)+iHeightDelta, SWP_NOZORDER | SWP_NOACTIVATE);
return;
}
BOOL_PTR CALLBACK RenameMsgBoxCheckDlgProc(HWND hDlg, UINT uMsg, WPARAM wParam, LPARAM lParam)
{
switch (uMsg)
{
// we only handle the WM_INITDIALOG so that we can resize the dialog
// approprately and to set the default button to IDNO
case WM_INITDIALOG:
{
HWND hwndNO = GetDlgItem(hDlg, IDNO);
_RecalcWindowHeight(hDlg, (LPTSTR)lParam);
SetDlgItemText(hDlg,IDC_MBC_TEXT,(LPTSTR)lParam);
SendMessage(hDlg, DM_SETDEFID, IDNO, 0);
SetFocus(hwndNO);
return FALSE; // we set the focus, so return false
}
}
// didnt handle this message
return FALSE;
}
int ConfirmRenameOfConnectedItem(COPY_STATE *pcs, WIN32_FIND_DATA *pfd, LPTSTR szSource)
{
int result = IDYES; //For non-connected elements, the default is IDYES!
LPTSTR pszMessage;
LPTSTR lpConnectedItem, lpConnectOrigin;
LPTSTR lpStringID;
//Check if this item being renamed has a connected item.
if (DTNIsConnectOrigin(pcs->dth.pdtnCurrent))
{
//Yes! It has a connected element! Form the strings to create the confirmation dialog!
//Get the name of the connected element
lpConnectedItem = PathFindFileName(pcs->dth.pdtnCurrent->pdtnConnected->szName);
lpConnectOrigin = PathFindFileName(pcs->dth.pFrom);
// Mark the connected item as dummy as this will never get renamed.
// (Note that this connected node could be a folder. It is still OK to mark it as
// dummy because for rename operation, a folder is treated just like a file in
// DTGotoNextNode()).
pcs->dth.pdtnCurrent->pdtnConnected->fDummy = TRUE;
if (pfd && (pfd->dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY))
lpStringID = MAKEINTRESOURCE(IDS_HTML_FOLDER_RENAME);
else
lpStringID = MAKEINTRESOURCE(IDS_HTML_FILE_RENAME);
//Load the confirmation message and format it!
pszMessage = ShellConstructMessageString(HINST_THISDLL, lpStringID,
lpConnectedItem, lpConnectOrigin);
if (pszMessage)
{
//Get the confirmation from the end-user;
result = SHMessageBoxCheckEx(pcs->hwndDlgParent, HINST_THISDLL,
MAKEINTRESOURCE(DLG_RENAME_MESSAGEBOXCHECK),
RenameMsgBoxCheckDlgProc,
(void *)pszMessage,
IDYES,
REG_VAL_GENERAL_RENAMEHTMLFILE);
//It is possible we get IDCANCEL if the "X" in the caption is clicked to clost
// the dialog. The following code makes sure we get one of the return code that we want.
if ((result != IDYES) && (result != IDNO))
result = IDNO;
SHFree(pszMessage);
}
else
result = IDNO; //For connected elements, the default is "Don't rename";
}
else
{
if (DTNIsConnected(pcs->dth.pdtnCurrent))
result = IDNO; //Connected elements, do not get renamed.
}
return result;
}
int AllConfirmations(COPY_STATE *pcs, WIN32_FIND_DATA *pfd, UINT oper, UINT wFunc,
LPTSTR szSource, LPTSTR szDest, BOOL bTimeToUpdate,
WIN32_FIND_DATA *pfdDest, LPINT lpret)
{
int result = IDYES;
LPTSTR p;
LPTSTR pszStatusDest = NULL;
CONFIRM_FLAG fConfirm;
WIN32_FIND_DATA *pfdUse1 = NULL;
WIN32_FIND_DATA *pfdUse2;
BOOL fSetProgress = FALSE;
BOOL fShowConfirm = FALSE;
switch (oper | wFunc)
{
case OPER_ENTERDIR | FO_MOVE:
if (PathIsSameRoot(szSource, szDest))
{
fConfirm = CONFIRM_MOVE_FOLDER;
pfdUse1 = pfd;
pfdUse2 = pfdDest;
fShowConfirm = TRUE;
}
break;
case OPER_ENTERDIR | FO_DELETE:
// Confirm removal of directory on this pass. The directories
// are actually removed on the OPER_LEAVEDIR pass
if (DTNIsRootNode(pcs->dth.pdtnCurrent))
fSetProgress = TRUE;
if (!PathIsRoot(szSource))
{
fShowConfirm = TRUE;
pfdUse2 = pfd;
fConfirm = CONFIRM_DELETE_FOLDER;
szDest = NULL;
}
break;
case OPER_DOFILE | FO_RENAME:
// pszStatusDest = szDest;
fSetProgress = TRUE;
p = PathFindFileName(szSource);
if (!IntlStrEqNI(szSource, szDest, (int)(p - szSource)))
{
result = DE_DIFFDIR;
}
else
{
if (pfd && (pfd->dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY))
fConfirm = CONFIRM_RENAME_FOLDER;
else
fConfirm = CONFIRM_RENAME_FILE;
if (PathIsRoot(szSource) || (PathIsRoot(szDest)))
{
result = DE_ROOTDIR | ERRORONDEST;
}
else
{
// We need to bring up a special confirmation dialog if this file/folder being
// renamed has a connected element (if "foo.htm" or "foo files" is renamed that
// will break the links).
result = ConfirmRenameOfConnectedItem(pcs, pfd, szSource);
if (result != IDNO)
{
fShowConfirm = TRUE;
pfdUse2 = pfdDest;
pfdUse1 = pfd;
}
}
}
break;
case OPER_DOFILE | FO_MOVE:
fSetProgress = TRUE;
pszStatusDest = szDest;
if (PathIsRoot(szSource))
{
result = DE_ROOTDIR;
}
else if (PathIsRoot(szDest))
{
result = DE_ROOTDIR | ERRORONDEST;
}
else
{
fConfirm = CONFIRM_MOVE_FILE;
fShowConfirm = TRUE;
pfdUse2 = pfdDest;
pfdUse1 = pfd;
}
break;
case OPER_DOFILE | FO_DELETE:
fSetProgress = TRUE;
if (IsCompressedVolume(szSource, pfd->dwFileAttributes))
{
CopyError(pcs, szSource, szDest, DE_COMPRESSEDVOLUME, wFunc, oper);
result = IDNO;
}
else
{
fShowConfirm = TRUE;
szDest = NULL;
pfdUse2 = pfd;
fConfirm = CONFIRM_DELETE_FILE;
}
break;
}
if (fShowConfirm)
{
result = CachedConfirmFileOp(pcs->hwndDlgParent, pcs, &pcs->cd, pcs->nSourceFiles, !DTNIsRootNode(pcs->dth.pdtnCurrent), fConfirm,
szSource, pfdUse1, szDest, pfdUse2, NULL);
}
if (oper == OPER_DOFILE || oper == OPER_ENTERDIR)
{
if ((wFunc == FO_MOVE) || (wFunc == FO_COPY))
{
if ((result != IDNO) && (result != IDCANCEL))
{
LPTSTR pszDataToBeLost;
WCHAR wszDestDir[MAX_PATH];
BOOL bNoStreamLossThisDir = FALSE;
lstrcpy(wszDestDir, szDest);
PathRemoveFileSpec(wszDestDir);
// Files with multiple streams will suffer stream loss on a downlevel
// copy, but CopyFile special-cases native structure storage.
pszDataToBeLost = GetDownlevelCopyDataLossText(szSource, wszDestDir, (oper == OPER_ENTERDIR), &bNoStreamLossThisDir);
if (pszDataToBeLost)
{
fConfirm = CONFIRM_STREAMLOSS;
pfdUse2 = pfd;
result = CachedConfirmFileOp(pcs->hwndDlgParent, pcs, &pcs->cd, pcs->nSourceFiles, !DTNIsRootNode(pcs->dth.pdtnCurrent), fConfirm,
szSource, pfdUse1, szDest, pfdUse2, pszDataToBeLost);
LocalFree(pszDataToBeLost);
}
else if (bNoStreamLossThisDir)
{
// pcs->bStreamLossPossible = FALSE;
}
}
}
}
// We only really care about OPER_ENTERDIR when deleting and
// OPER_DOFILE when renaming, but I guess the hook will figure it out
if ((result == IDYES) &&
ISDIRFINDDATA(*pfd) &&
(oper==OPER_ENTERDIR || oper==OPER_DOFILE))
{
result = CallFileCopyHooks(pcs->hwndDlgParent, wFunc, pcs->fFlags,
szSource, pfd->dwFileAttributes,
szDest, pfdDest->dwFileAttributes);
}
if ((result != IDCANCEL) && (result != IDNO) && fSetProgress && bTimeToUpdate)
SetProgressText(pcs, szSource, pszStatusDest);
return result;
}
// return TRUE if they're the same file
// assumes that given two file specs, the short name will
// be identical (except case)
BOOL SameFile(LPTSTR pszSource, LPTSTR pszDest)
{
TCHAR szShortSrc[MAX_PATH];
if (GetShortPathName(pszSource, szShortSrc, ARRAYSIZE(szShortSrc)))
{
TCHAR szShortDest[MAX_PATH];
if (GetShortPathName(pszDest, szShortDest, ARRAYSIZE(szShortDest)))
return !lstrcmpi(szShortSrc, szShortDest);
}
return FALSE;
}
// make sure we aren't operating on the current dir to avoid
// ERROR_CURRENT_DIRECTORY kinda errors
void AvoidCurrentDirectory(LPCTSTR p)
{
TCHAR szTemp[MAX_PATH];
GetCurrentDirectory(ARRAYSIZE(szTemp), szTemp);
if (lstrcmpi(szTemp, p) == 0)
{
DebugMsg(TF_DEBUGCOPY, TEXT("operating on current dir(%s), cd .."), p);
PathRemoveFileSpec(szTemp);
SetCurrentDirectory(szTemp);
}
}
// this resolves short/long name collisions such as moving
// "NewFolde" onto a dir with "New Folder" whose short name is "NEWFOLDE"
//
// we resolve this by renaming "New Folder" to a unique short name (like TMP1)
//
// making a temporary file of name "NEWFOLDE"
//
// renaming TMP1 back to "New Folder" (at which point it will have a new short
// name like "NEWFOL~1"
// PERF: it'd be faster if we didn't make the temporary file, but that
// would require that we rename the file back to the long name at the
// end of the operation.. which would mean we'd need to queue them all up..
// too much for right now.
BOOL ResolveShortNameCollisions(LPCTSTR lpszDest, WIN32_FIND_DATA *pfd)
{
BOOL fRet = FALSE;
// first verify that we're in the name collision.
// we are if lpszDest is the same as the pfd's short name which is different
// than it's long name.
if (!lstrcmpi(PathFindFileName(lpszDest), pfd->cAlternateFileName) &&
lstrcmpi(pfd->cAlternateFileName, pfd->cFileName))
{
// yes... do the renaming
TCHAR szTemp[MAX_PATH];
TCHAR szLongName[MAX_PATH];
lstrcpy(szTemp, lpszDest);
PathRemoveFileSpec(szTemp);
// build the original long name
lstrcpy(szLongName, szTemp);
PathAppend(szLongName, pfd->cFileName);
GetTempFileName(szTemp, c_szNULL, 1, szTemp);
DebugMsg(TF_DEBUGCOPY, TEXT("Got %s as a temp file"), szTemp);
// rename "New Folder" to "tmp1"
if (Win32MoveFile(szLongName, szTemp, ISDIRFINDDATA(*pfd)))
{
// make a temporary "NewFolde"
fRet = CreateWriteCloseFile(NULL, lpszDest, NULL, 0);
ASSERT(fRet);
// move it back...
if (!Win32MoveFile(szTemp, szLongName, ISDIRFINDDATA(*pfd)))
{
//
// Can't move it back, so delete the empty dir and then
// move it back. Return FALSE to denote failure.
//
DeleteFile(lpszDest);
Win32MoveFile(szTemp, szLongName, ISDIRFINDDATA(*pfd));
fRet = FALSE;
}
else
{
// send this out because we could have confused views
// with this swapping files around... by the time they get the first
// move file notification, the temp file is likely gone
// so they could blow that off.. which would mess up the rest of this.
SHChangeNotify(SHCNE_UPDATEITEM, SHCNF_PATH, szLongName, NULL);
//
// We've now created an empty dir entry of this name type.
//
Win32DeleteFile(lpszDest);
}
DebugMsg(TF_DEBUGCOPY, TEXT("ResolveShortNameCollision: %s = original, %s = destination,\n %s = temp file, %d = return"), szLongName, lpszDest, szTemp, fRet);
}
}
return fRet;
}
typedef struct { LPTSTR szFilename; int iResult; } RENAMEEXEMPTIONINFO;
RENAMEEXEMPTIONINFO g_rgExemptions[] = {
{ TEXT("thumbs.db"), IDYES }
};
// return values.
//
// IDCANCEL = bail out of all operations
// IDNO = skip this one
// IDRETRY = try operation again
// IDUNKNOWN = this (collision) is not the problem
#define IDUNKNOWN IDOK
int CheckForRenameCollision(COPY_STATE *pcs, UINT oper, LPTSTR pszSource, LPTSTR pszDest,
WIN32_FIND_DATA *pfdDest, WIN32_FIND_DATA* pfd)
{
int iRet = IDUNKNOWN;
ASSERT((pcs->lpfo->wFunc != FO_DELETE) && (oper != OPER_LEAVEDIR));
/* Check to see if we are overwriting an existing file or
directory. If so, better confirm */
if ((oper == OPER_DOFILE) ||
((oper == OPER_ENTERDIR) && (pcs->fFlags & FOF_RENAMEONCOLLISION)))
{
HANDLE hfindT;
// REVIEW this slows things down checking for the dest file
if ((hfindT = FindFirstFile(pszDest, pfdDest)) != INVALID_HANDLE_VALUE)
{
FindClose(hfindT);
iRet = IDCANCEL;
if (pcs->lpfo->wFunc != FO_RENAME || !SameFile(pszSource, pszDest))
{
if (!ResolveShortNameCollisions(pszDest, pfdDest))
{
if (pcs->fFlags & FOF_RENAMEONCOLLISION)
{
// The client wants us to generate a new name for the
// source file to avoid a collision at the destination
// dir. Must also update the current queue and the
// copy root.
_HandleRename(pszSource, pszDest, pcs->fFlags, pcs);
iRet = IDRETRY;
}
else
{
int result = IDRETRY;
if (pcs->lpfo->wFunc == FO_RENAME)
{
return ERROR_ALREADY_EXISTS;
}
// Is this a super-hidden file we don't want to prompt the
// user regarding?
if (IS_SYSTEM_HIDDEN(pfd->dwFileAttributes) &&
IS_SYSTEM_HIDDEN(pfdDest->dwFileAttributes) &&
!ShowSuperHidden())
{
int cExempt = 0;
for (; cExempt < ARRAYSIZE(g_rgExemptions); cExempt++)
{
if (0 == StrCmpI(g_rgExemptions[cExempt].szFilename, PathFindFileName(pszSource)))
{
result = g_rgExemptions[cExempt].iResult;
break;
}
}
}
// REVIEW, if the destination file we are copying over
// is actually a directory we are doomed. we can
// try to remove the dir but that will fail if there
// are files there. we probably need a special error message
// for this case.
if (result == IDRETRY)
{
result = CachedConfirmFileOp(pcs->hwndDlgParent, pcs,
&pcs->cd, pcs->nSourceFiles,
!DTNIsRootNode(pcs->dth.pdtnCurrent),
CONFIRM_REPLACE_FILE,
pszSource, pfd, pszDest, pfdDest, NULL);
}
switch (result)
{
case IDYES:
if ((pcs->lpfo->wFunc == FO_MOVE) && (PathIsSameRoot(pszSource, pszDest)))
{
int ret;
// For FO_MOVE we need to delete the
// destination first. Do that now.
// FEATURE this replace options should be undable
ret = Win32DeleteFile(pszDest) ? 0 : GetLastError();
if (ret)
{
ret |= ERRORONDEST;
result = ret;
}
}
if (pcs->lpua)
FOUndo_Release(pcs->lpua);
iRet = IDRETRY;
break;
case IDNO:
case IDCANCEL:
pcs->lpfo->fAnyOperationsAborted = TRUE;
iRet = result;
break;
default:
iRet = result;
break;
}
}
}
else
{
iRet = IDRETRY;
}
}
}
}
return iRet;
}
int LeaveDir_Delete(COPY_STATE *pcs, LPTSTR pszSource)
{
int ret;
if (PathIsRoot(pszSource))
return 0;
AvoidCurrentDirectory(pszSource);
// We already confirmed the delete at MKDIR time, so attempt
// to delete the directory
ret = Win32RemoveDirectory(pszSource) ? 0 : GetLastError();
if (!ret)
{
FOUndo_FileReallyDeleted(pszSource);
}
return ret;
}
int EnterDir_Copy(COPY_STATE* pcs, LPTSTR pszSource, LPTSTR pszDest,
WIN32_FIND_DATA *pfd, WIN32_FIND_DATA * pfdDest, BOOL fRenameTried)
{
int ret;
int result;
BOOL fSetDestAttributes = FALSE;
DWORD dwDesiredAttributes = pfd->dwFileAttributes;
// Whenever we enter a directory, we need to reset the bStreamLossPossible flag,
// since we could have stepped out from an NTFS->NTFS to NTFS->FAT scenario via
// a junction point
pcs->bStreamLossPossible = TRUE;
// SHMoveFile restricts the based on path length. To be consistent, we make the same
// restricton on Copy directory also.
if (IsDirPathTooLongForCreateDir(pszDest))
{
ret = ERROR_FILENAME_EXCED_RANGE;
}
else
{
BOOL fWithoutTemplate = FALSE;
if (pcs->fLostEncryptOk)
{
dwDesiredAttributes &= ~FILE_ATTRIBUTE_ENCRYPTED; // Pretend its not encrypted
fSetDestAttributes = TRUE;
fWithoutTemplate = TRUE;
}
if (pfd->dwFileAttributes & FILE_ATTRIBUTE_REPARSE_POINT)
{
if (!(pcs->fFlags & FOF_NORECURSEREPARSE))
{
dwDesiredAttributes &= ~FILE_ATTRIBUTE_REPARSE_POINT; // Pretend like its just a folder
fSetDestAttributes = TRUE;
fWithoutTemplate = TRUE;
}
}
if (fWithoutTemplate)
{
ret = (CreateDirectory(pszDest, NULL) ? 0 : GetLastError());
// Since we didn't call CreateDirectoryEx, we need to manually
// propogate the attributes to the dest directory.
fSetDestAttributes = TRUE;
}
else
{
ret = (CreateDirectoryEx(pszSource, pszDest, NULL) ? 0 : GetLastError());
}
if (ret == ERROR_SUCCESS)
{
SHChangeNotify(SHCNE_MKDIR, SHCNF_PATH, pszDest, NULL);
}
}
switch (ret)
{
case 0: // successful folder creation (or it already exists)
// propogate the attributes (if there are any)
if (pcs->fFromCDRom)
{
// Don't propogate read-only from CDRoms
dwDesiredAttributes &= ~FILE_ATTRIBUTE_READONLY;
fSetDestAttributes = TRUE;
}
if (fSetDestAttributes)
{
// Avoid setting FILE_ATTRIBUTE_DIRECTORY, since its
// already a directory, and is less error prone.
SetFileAttributes(pszDest, dwDesiredAttributes);
}
// we should set the security ACLs here on NT
// we ignore any kind of failure though, is that OK?
//
CopyFileSecurity(pszSource, pszDest);
// add to the undo atom
if (pcs->lpua)
{
if (DTNIsRootNode(pcs->dth.pdtnCurrent) && !DTNIsConnected(pcs->dth.pdtnCurrent))
FOUndo_AddInfo(pcs->lpua, pszSource, pszDest, 0);
}
break;
case ERROR_ALREADY_EXISTS:
case ERROR_DISK_FULL:
case ERROR_ACCESS_DENIED:
case ERROR_INVALID_NAME:
{
DWORD dwFileAttributes;
if (!fRenameTried)
{
int result = CheckForRenameCollision(pcs, OPER_ENTERDIR, pszSource, pszDest, pfdDest, pfd);
switch (result)
{
case IDUNKNOWN:
break;
case IDRETRY:
return EnterDir_Copy(pcs, pszSource, pszDest, pfd, pfdDest, TRUE);
case IDCANCEL:
pcs->bAbort = TRUE;
return result;
case IDNO:
return result;
default:
return result;
}
}
dwFileAttributes = GetFileAttributes(pszDest);
if (dwFileAttributes == (DWORD)-1)
{
// The dir does not exist, so it looks like a problem
// with a read-only drive or disk full
if (ret == ERROR_DISK_FULL &&
IsRemovableDrive(DRIVEID(pszDest)) &&
!PathIsSameRoot(pszDest, pszSource))
{
ret = CopyMoveRetry(pcs, pszDest, ERROR_DISK_FULL, NULL);
if (!ret)
{
return EnterDir_Copy(pcs, pszSource, pszDest, pfd, pfdDest, fRenameTried);
}
else
{
pcs->bAbort = TRUE;
return ret;
}
}
// Maybe its an encrypted folder thats losing its encryption?
if (pfd->dwFileAttributes & FILE_ATTRIBUTE_ENCRYPTED)
{
int result;
result = CachedConfirmFileOp(pcs->hwndDlgParent, pcs,
&pcs->cd, pcs->nSourceFiles,
FALSE,
CONFIRM_LOST_ENCRYPT_FOLDER,
pszSource, pfd, pszDest, NULL, NULL);
switch (result)
{
case IDYES:
pcs->fLostEncryptOk = TRUE;
return EnterDir_Copy(pcs, pszSource, pszDest, pfd, pfdDest, fRenameTried);
case IDNO:
case IDCANCEL:
pcs->bAbort = TRUE;
ret = result;
break;
default:
ret = result;
break;
}
return ret;
}
CopyError(pcs, pszSource, pszDest, ERROR_ACCESS_DENIED | ERRORONDEST, FO_COPY, OPER_DOFILE);
pcs->bAbort = TRUE;
return ret;
}
if (!(dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY))
{
// A file with this name already exists
CopyError(pcs, pszSource, pszDest, DE_FLDDESTISFILE | ERRORONDEST, FO_COPY, OPER_DOFILE);
pcs->bAbort = TRUE;
return ret;
}
result = CachedConfirmFileOp(pcs->hwndDlgParent, pcs, &pcs->cd,
pcs->nSourceFiles,
!DTNIsRootNode(pcs->dth.pdtnCurrent),
CONFIRM_REPLACE_FOLDER,
pszSource, pfd, pszDest, pfdDest, NULL);
switch (result)
{
case IDYES:
ret = 0; // convert to no error
pcs->fMerge = TRUE;
if (pcs->lpua)
FOUndo_Release(pcs->lpua);
break;
case IDNO:
DTAbortCurrentNode(&pcs->dth); // so we don't recurse down this folder
pcs->lpfo->fAnyOperationsAborted = TRUE;
ret = IDNO; // Don't put up error message on this one...
// Since the end-user cancelled the copy operation on this folder, we can cancel the
// copy operation on the corresponding connected file too!
if (DTNIsConnectOrigin(pcs->dth.pdtnCurrent))
pcs->dth.pdtnCurrent->pdtnConnected->fDummy = TRUE;
break;
case IDCANCEL:
pcs->lpfo->fAnyOperationsAborted = TRUE;
pcs->bAbort = TRUE;
// Since the end-user cancelled the copy operation on this folder, we can cancel the
// copy operation on the corresponding connected file too!
if (DTNIsConnectOrigin(pcs->dth.pdtnCurrent))
pcs->dth.pdtnCurrent->pdtnConnected->fDummy = TRUE;
break;
default:
result = ret;
break;
}
break;
}
case ERROR_CANCELLED:
pcs->bAbort = TRUE;
break;
case ERROR_FILENAME_EXCED_RANGE:
DTAbortCurrentNode(&pcs->dth); // so we don't recurse down this folder
break;
default: // ret != 0 (dos error code)
ret |= ERRORONDEST;
break;
}
return ret;
}
int EnterDir_Move(COPY_STATE* pcs, LPTSTR pszSource, LPTSTR pszDest,
WIN32_FIND_DATA *pfd, WIN32_FIND_DATA * pfdDest, BOOL fRenameTried)
{
int ret;
// Whenever we enter a directory, we need to reset the bStreamLossPossible flag,
// since we could have stepped out from an NTFS->NTFS to NTFS->FAT scenario via
// a junction point
pcs->bStreamLossPossible = TRUE;
// if these are in the same drive, try using MoveFile on it.
// if that fails then fail through to the copy
if (PathIsSameRoot(pszSource, pszDest))
{
AvoidCurrentDirectory(pszSource);
ret = Win32MoveFile(pszSource, pszDest, TRUE) ? 0 : GetLastError();
switch (ret)
{
case 0:
DebugMsg(TF_DEBUGCOPY, TEXT("Move Folder worked!"));
DTAbortCurrentNode(&pcs->dth); // so we don't recurse down this folder
// add to the undo atom
if (pcs->lpua && DTNIsRootNode(pcs->dth.pdtnCurrent) && !DTNIsConnected(pcs->dth.pdtnCurrent))
FOUndo_AddInfo(pcs->lpua, pszSource, pszDest, 0);
if (!SHRestricted(REST_NOENCRYPTONMOVE) &&
!(pfd->dwFileAttributes & FILE_ATTRIBUTE_ENCRYPTED))
{
TCHAR szDestDir[MAX_PATH];
DWORD dwAttribs;
StrCpyN(szDestDir, pszDest, ARRAYSIZE(szDestDir));
PathRemoveFileSpec(szDestDir);
dwAttribs = GetFileAttributes(szDestDir);
if ((dwAttribs != -1) && (dwAttribs & FILE_ATTRIBUTE_ENCRYPTED))
{
// Encrypt the directory by pretending we are the
// property sheet properties->Advanced. Fill in the fake
// information and call the helper.
FILEPROPSHEETPAGE fpsp;
FOLDERCONTENTSINFO fci;
fci.fIsCompressionAvailable = FALSE;
fci.fMultipleFiles = TRUE;
ZeroMemory(&fpsp, SIZEOF(fpsp));
fpsp.hDlg = GetWindow(pcs->hwndDlgParent, GW_CHILD);
fpsp.fRecursive = TRUE;
fpsp.fIsDirectory = TRUE;
fpsp.pfci = &fci;
// As long as asInitial.* == asCurrent.* it won't be changed
fpsp.asInitial.fReadOnly = BST_INDETERMINATE;
fpsp.asInitial.fHidden = BST_INDETERMINATE;
fpsp.asInitial.fIndex = BST_INDETERMINATE;
fpsp.asInitial.fArchive = BST_INDETERMINATE;
fpsp.asInitial.fCompress = BST_INDETERMINATE;
fpsp.asInitial.fEncrypt = BST_UNCHECKED; // Not encrypted yet
fpsp.asInitial.fRecordingEnabled = BST_INDETERMINATE;
fpsp.asCurrent.fReadOnly = BST_INDETERMINATE;
fpsp.asCurrent.fHidden = BST_INDETERMINATE;
fpsp.asCurrent.fIndex = BST_INDETERMINATE;
fpsp.asCurrent.fArchive = BST_INDETERMINATE;
fpsp.asCurrent.fCompress = BST_INDETERMINATE;
fpsp.asCurrent.fEncrypt = BST_CHECKED; // Now encrypt
fpsp.asCurrent.fRecordingEnabled = BST_INDETERMINATE;
ApplyRecursiveFolderAttribs(pszDest, &fpsp);
}
}
// Win32MoveFile on a single-volume leaves the original ACL
// intact. If necessary, pick up perms from the destination.
if (pcs->fFlags & FOF_NOCOPYSECURITYATTRIBS)
{
ResetFileSecurity(pszDest);
}
return 0;
case ERROR_PATH_NOT_FOUND:
ret = CopyMoveRetry(pcs, pszDest, ret, NULL);
if (!ret)
return EnterDir_Move(pcs, pszSource, pszDest, pfd, pfdDest, fRenameTried);
return ret;
case ERROR_ALREADY_EXISTS:
case ERROR_FILE_EXISTS:
if (!fRenameTried)
{
int result = CheckForRenameCollision(pcs, OPER_ENTERDIR, pszSource, pszDest, pfdDest, pfd);
switch (result)
{
case IDUNKNOWN:
break;
case IDRETRY:
return EnterDir_Move(pcs, pszSource, pszDest, pfd, pfdDest, TRUE);
case IDCANCEL:
pcs->bAbort = TRUE;
return result;
case IDNO:
return result;
default:
return result;
}
}
break;
case ERROR_FILENAME_EXCED_RANGE:
case ERROR_ONLY_IF_CONNECTED:
DTAbortCurrentNode(&pcs->dth); // so we don't recurse down this folder
return ret;
}
}
// we're going to recurse in.... if we've not enumerated the children for
// this folder, set it for delayed enumeration now.
if (!pcs->dth.pdtnCurrent->pdtnChild)
{
pcs->dth.pdtnCurrent->pdtnChild = DTN_DELAYED;
}
if (DTNIsConnected(pcs->dth.pdtnCurrent) && !PathFileExists(pszSource))
{
// This can happen if the end-user moved "foo.htm" AND "foo files" together.
// As a result the connected element "foo files" has already been moved.
DTAbortCurrentNode(&pcs->dth); // so we don't recurse down this folder
return(0); //No error! This connected element seems to have been moved.
}
return EnterDir_Copy(pcs, pszSource, pszDest, pfd, pfdDest, FALSE);
}
int EnterDir_Delete(COPY_STATE * pcs, WIN32_FIND_DATA *pfdSrc, LPTSTR pszSource, HDPA *phdpaDeletedFiles)
{
int iRet = 0;
if (!DTNIsRootNode(pcs->dth.pdtnCurrent))
{
// we are not at a root node... when doing a delete this can only mean
// that we are really nuking the folder. we dont need to enum children
// because we already did a non-lazy enum at the root node.
return iRet;
}
else if (!pcs->lpua)
{
NukeFolder:
// we are at a root node and we have no undo atom, this means that we
// really want to nuke this whole dir, so enum the children
DTForceEnumChildren(&pcs->dth);
// do a non-layz enum of the children to prevent the progress
// bar from going back and forth as we recurse down into any subdirs.
DTEnumChildren(&pcs->dth, pcs, TRUE, DTF_FILES_AND_FOLDERS);
return iRet;
}
if (DeleteFileBB(pszSource, &iRet, pcs, TRUE, pfdSrc, phdpaDeletedFiles))
{
DTAbortCurrentNode(&pcs->dth); // so we don't recurse down this folder
}
else
{
// DeleteFileBB failed, check iRet to find out why
switch (iRet)
{
case BBDELETE_PATH_TOO_LONG:
case BBDELETE_SIZE_TOO_BIG:
case BBDELETE_NUKE_OFFLINE:
{
// This is the case where the folder is too big to fit in the Recycle Bin or the folder
// is offline. We have no choice but to really nuke it, but we warn the user first since
// they may have thought that it was being sent to the recycle bin.
int result = CachedConfirmFileOp(pcs->hwndDlgParent,
pcs,
&pcs->cd,
pcs->nSourceFiles,
FALSE,
(iRet == BBDELETE_SIZE_TOO_BIG) ?
CONFIRM_WONT_RECYCLE_FOLDER :
((iRet == BBDELETE_NUKE_OFFLINE) ?
CONFIRM_WONT_RECYCLE_OFFLINE :
CONFIRM_PATH_TOO_LONG),
pszSource,
pfdSrc,
NULL,
NULL,
NULL);
switch (result)
{
case IDNO:
// user said "please dont really nuke the file"
DTAbortCurrentNode(&pcs->dth); // so we don't recurse down this folder
pcs->lpfo->fAnyOperationsAborted = TRUE;
iRet = IDNO; // Don't put up error message for this case
//Because the Delete on this FOLDER is aborted, we can cancel the "Delete"
// on the corresponding FILE too!
if (DTNIsConnectOrigin(pcs->dth.pdtnCurrent))
{
pcs->dth.pdtnCurrent->pdtnConnected->fDummy = TRUE;
}
break;
case IDCANCEL:
// user canceled the operation
pcs->lpfo->fAnyOperationsAborted = TRUE;
pcs->bAbort = TRUE;
//Because the Delete on this FOLDER is cancelled, we can cancel the "Delete"
// on the corresponding FILE too!
if (DTNIsConnectOrigin(pcs->dth.pdtnCurrent))
{
pcs->dth.pdtnCurrent->pdtnConnected->fDummy = TRUE;
}
break;
case IDYES:
default:
// user said "please nuke the file"
// assume noerror
iRet = 0;
// set this so the is correct progress animation is displayed
if (pcs)
{
pcs->fFlags &= ~FOF_ALLOWUNDO;
}
// dont allow undo since we are really nuking it (cant bring it back...)
if (pcs->lpua)
{
FOUndo_Release(pcs->lpua);
}
UpdateProgressAnimation(pcs);
goto NukeFolder;
break;
}
}
break;
case BBDELETE_CANNOT_DELETE:
{
// This is the non-deletable file case. Note: this is an NT only case, and
// it could be caused by acls or the fact that the file is currently in use.
// We attemt to really delete the file (which should fail) so we can generate
// the proper error value
DWORD dwAttributes = GetFileAttributes(pszSource);
if (dwAttributes & FILE_ATTRIBUTE_DIRECTORY)
{
iRet = Win32RemoveDirectory(pszSource);
}
else
{
iRet = Win32DeleteFile(pszSource);
}
if (!iRet)
{
// indeed, the file/folder could not be deleted.
// Get last error to find out why
iRet = GetLastError();
}
else
{
// DeleteFileBB said that it couldn't be deleted, but we just nuked it. We will
// end up falling into this case when we hit things like Mounted Volumes.
// As Obi-Wan would say: "You don't need to see his identification... these aren't
// the droids you are looking for... He can go about his business... Move along."
iRet = ERROR_SUCCESS;
DTAbortCurrentNode(&pcs->dth); // so we don't recurse down this folder
// dont allow undo since we reall nuked it (cant bring it back...)
if (pcs->lpua)
{
FOUndo_Release(pcs->lpua);
}
}
}
break;
case BBDELETE_FORCE_NUKE:
{
// This is the catch-all case. If iRet = BDETETE_FORCE_NUKE, then we just nuke the
// file without warning.
// return noerror so we recurse into this dir and nuke it
iRet = ERROR_SUCCESS;
// set this so the is correct progress animation is displayed
if (pcs)
{
pcs->fFlags &= ~FOF_ALLOWUNDO;
}
// dont allow undo since we are really nuking it (cant bring it back...)
if (pcs->lpua)
{
FOUndo_Release(pcs->lpua);
}
UpdateProgressAnimation(pcs);
goto NukeFolder;
}
break;
case BBDELETE_CANCELLED:
{
// user canceled the operation
pcs->lpfo->fAnyOperationsAborted = TRUE;
pcs->bAbort = TRUE;
//Because the Delete on this FOLDER is cancelled, we can cancel the "Delete"
// on the corresponding FILE too!
if (DTNIsConnectOrigin(pcs->dth.pdtnCurrent))
{
pcs->dth.pdtnCurrent->pdtnConnected->fDummy = TRUE;
}
}
case BBDELETE_UNKNOWN_ERROR:
default:
{
iRet = GetLastError();
ASSERT(iRet != ERROR_SUCCESS);
}
break;
}
} // DeleteFileBB
return iRet;
}
BOOL DoFile_Win32DeleteFileWithPidl(LPCTSTR pszFile, SIMPLEPIDLCACHE *pspc)
{
LPITEMIDLIST pidlFile = NULL;
int iRet;
if (pspc)
{
pidlFile = SimplePidlCache_GetFilePidl(pspc, pszFile);
}
iRet = Win32DeleteFilePidl(pszFile, pidlFile);
ILFree(pidlFile);
return iRet;
}
int DoFile_Delete(COPY_STATE* pcs, WIN32_FIND_DATA *pfdSrc, LPTSTR pszSource, HDPA *phdpaDeletedFiles, BOOL fShouldSuspendEvents)
{
int iRet = 0;
// if we dont have an undo atom or this isint a root node or if this is a network file
// then we need to really nuke it
if (!pcs->lpua || !DTNIsRootNode(pcs->dth.pdtnCurrent) || IsNetDrive(PathGetDriveNumber(pszSource)))
{
iRet = DoFile_Win32DeleteFileWithPidl(pszSource, fShouldSuspendEvents ? NULL : &pcs->spc) ? 0 : GetLastError();
if (!iRet)
{
FOUndo_FileReallyDeleted(pszSource);
}
}
else if (!DeleteFileBB(pszSource, &iRet, pcs, FALSE, pfdSrc, phdpaDeletedFiles))
{
// DeleteFileBB failed, check iRet to find out why
switch (iRet)
{
case BBDELETE_SIZE_TOO_BIG:
case BBDELETE_NUKE_OFFLINE:
{
// This is the case where the file is too big to fit in the Recycle Bin. We have no
// choice but to really nuke it, but we warn the user first since they may have thought
// that it was being sent to the recycle bin.
int result = CachedConfirmFileOp(pcs->hwndDlgParent,
pcs,
&pcs->cd,
pcs->nSourceFiles,
FALSE,
(iRet == BBDELETE_SIZE_TOO_BIG) ?
CONFIRM_WONT_RECYCLE_FOLDER :
CONFIRM_WONT_RECYCLE_OFFLINE,
pszSource,
pfdSrc,
NULL,
NULL,
NULL);
switch (result)
{
case IDNO:
// user said "please dont really nuke the file"
pcs->lpfo->fAnyOperationsAborted = TRUE;
iRet = IDNO; // Don't put up error message for this case
// WARNING: It is tempting to mark the corresponding connected folder as dummy here.
// But, this will not work because currently folders (nodes with children) can not be
// marked as dummy.
break;
case IDCANCEL:
// user canceled the operation
pcs->lpfo->fAnyOperationsAborted = TRUE;
pcs->bAbort = TRUE;
// WARNING: It is tempting to mark the corresponding connected folder as dummy here.
// But, this will not work because currently folders (nodes with children) can not be
// marked as dummy.
break;
case IDYES:
default:
// user said "please nuke the file"
// set this so the is correct progress animation is displayed
if (pcs)
{
pcs->fFlags &= ~FOF_ALLOWUNDO;
}
// dont allow undo since we are really nuking it
if (pcs->lpua)
{
FOUndo_Release(pcs->lpua);
}
UpdateProgressAnimation(pcs);
iRet = DoFile_Win32DeleteFileWithPidl(pszSource, &pcs->spc) ? 0 : GetLastError();
break;
}
}
break;
case BBDELETE_CANNOT_DELETE:
{
// This is the non-deletable file case. Note: this is an NT only case, and
// it could be caused by acls or the fact that the file is currently in use.
// We attemt to really delete the file (which should fail) so we can generate
// the proper error value
iRet = Win32DeleteFile(pszSource);
if (!iRet)
{
// indeed, the file/folder could not be deleted.
// Get last error to find out why
iRet = GetLastError();
}
else
{
// DeleteFileBB said that it couldn't be deleted, but we just nuked it. We will
// end up falling into this case when we hit things like Mounted Volumes and other
// reparse points that we can't "recycle".
// As Obi-Wan would say: "You don't need to see his identification... these aren't
// the droids you are looking for... He can go about his business... Move along."
iRet = ERROR_SUCCESS;
DTAbortCurrentNode(&pcs->dth); // so we don't recurse down this folder
// dont allow undo since we really nuked it (cant bring it back...)
if (pcs->lpua)
{
FOUndo_Release(pcs->lpua);
}
}
}
break;
case BBDELETE_FORCE_NUKE:
{
// This is the catch-all case. If iRet = BDETETE_FORCE_NUKE, then we just nuke the
// file without warning.
// set this so the is correct progress animation is displayed
if (pcs)
{
pcs->fFlags &= ~FOF_ALLOWUNDO;
}
// dont allow undo since we are going to nuke this file
if (pcs->lpua)
{
FOUndo_Release(pcs->lpua);
}
UpdateProgressAnimation(pcs);
iRet = DoFile_Win32DeleteFileWithPidl(pszSource, &pcs->spc) ? 0 : GetLastError();
}
break;
case BBDELETE_CANCELLED:
{
// user canceled the operation
pcs->lpfo->fAnyOperationsAborted = TRUE;
pcs->bAbort = TRUE;
}
break;
case BBDELETE_UNKNOWN_ERROR:
default:
{
iRet = GetLastError();
ASSERT(iRet != ERROR_SUCCESS);
}
break;
}
} // !DeleteFileBB
return iRet;
}
int DoFile_Copy(COPY_STATE* pcs, LPTSTR pszSource, LPTSTR pszDest,
WIN32_FIND_DATA *pfd, WIN32_FIND_DATA * pfdDest, BOOL fRenameTried)
{
/* Now try to copy the file. Do extra error processing only
in 2 cases:
1) If a removeable drive is full let the user stick in a new disk
2) If the path doesn't exist (the user typed in
and explicit path that doesn't exits) ask if
we should create it for him. */
int ret = FileCopy(pcs, pszSource, pszDest, pfd, fRenameTried);
if (ret == ERROR_CANCELLED)
{
pcs->bAbort = TRUE;
return ret;
}
if ((ret & ~ERRORONDEST) == ERROR_FILE_EXISTS)
{
if (!fRenameTried)
{
int result = CheckForRenameCollision(pcs, OPER_DOFILE, pszSource, pszDest, pfdDest, pfd);
switch (result)
{
case IDUNKNOWN:
break;
case IDRETRY:
return DoFile_Copy(pcs, pszSource, pszDest, pfd, pfdDest, TRUE);
case IDCANCEL:
pcs->bAbort = TRUE;
return result;
case IDNO:
return result;
default:
return result;
}
}
}
if ((((ret & ~ERRORONDEST) == ERROR_DISK_FULL) &&
IsRemovableDrive(DRIVEID(pszDest))) ||
((ret & ~ERRORONDEST) == ERROR_PATH_NOT_FOUND))
{
ULARGE_INTEGER ulFileSize;
ulFileSize.LowPart = pfd->nFileSizeLow;
ulFileSize.HighPart = pfd->nFileSizeHigh;
ret = CopyMoveRetry(pcs, pszDest, ret & ~ERRORONDEST, &ulFileSize);
if (!ret)
{
return DoFile_Copy(pcs, pszSource, pszDest, pfd, pfdDest, fRenameTried);
}
else
{
pcs->bAbort = TRUE;
return ret;
}
}
if (!ret)
{
// add to the undo atom
// if we're doing a copy, only keep track of the highest most
// level.. unless we're doing a merge sort of copy
if (pcs->lpua)
{
if (DTNIsRootNode(pcs->dth.pdtnCurrent) && !DTNIsConnected(pcs->dth.pdtnCurrent))
FOUndo_AddInfo(pcs->lpua, pszSource, pszDest, 0);
}
// if we copied in a new desktop ini, send out an update event for the paretn
if (!lstrcmpi(PathFindFileName(pszDest), c_szDesktopIni))
{
TCHAR szDest[MAX_PATH];
lstrcpyn(szDest, pszDest, ARRAYSIZE(szDest));
PathRemoveFileSpec(szDest);
SHChangeNotify(SHCNE_UPDATEITEM, SHCNF_PATH, szDest, NULL);
}
}
return ret;
}
int DoFile_Move(COPY_STATE* pcs, LPTSTR pszSource, LPTSTR pszDest,
WIN32_FIND_DATA *pfd, WIN32_FIND_DATA * pfdDest, BOOL fRenameTried)
{
int ret = 0;
if (PathIsRoot(pszSource))
{
return DE_ROOTDIR;
}
if (PathIsRoot(pszDest))
{
return DE_ROOTDIR | ERRORONDEST;
}
AvoidCurrentDirectory(pszSource);
if (PathIsSameRoot(pszSource, pszDest))
{
TryAgain:
ret = Win32MoveFile(pszSource, pszDest, ISDIRFINDDATA(*pfd)) ? 0 : GetLastError();
// try to create the destination if it is not there
if (ret == ERROR_PATH_NOT_FOUND)
{
ret = CopyMoveRetry(pcs, pszDest, ret, NULL);
if (!ret)
{
goto TryAgain;
}
}
if (ret == ERROR_ALREADY_EXISTS)
{
if (!fRenameTried)
{
int result = CheckForRenameCollision(pcs, OPER_DOFILE, pszSource, pszDest, pfdDest, pfd);
switch (result)
{
case IDUNKNOWN:
break;
case IDRETRY:
fRenameTried = TRUE;
goto TryAgain;
case IDCANCEL:
pcs->bAbort = TRUE;
return result;
case IDNO:
return result;
default:
return result;
}
}
}
if ((ret == ERROR_SUCCESS) &&
!SHRestricted(REST_NOENCRYPTONMOVE) &&
!(pfd->dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) &&
!(pfd->dwFileAttributes & FILE_ATTRIBUTE_ENCRYPTED))
{
TCHAR szDestDir[MAX_PATH];
DWORD dwAttribs;
// We are moving a file that is NOT encrypted. On Win2k, we need to check to see if this was a move to
// an encrypted folder. If so, we automatically encrypt the file.
lstrcpyn(szDestDir, pszDest, ARRAYSIZE(szDestDir));
PathRemoveFileSpec(szDestDir);
dwAttribs = GetFileAttributes(szDestDir);
if ((dwAttribs != -1) && (dwAttribs & FILE_ATTRIBUTE_ENCRYPTED))
{
// sainity check
ASSERT(dwAttribs & FILE_ATTRIBUTE_DIRECTORY);
// attempt to encrypt the file
if (!SHEncryptFile(pszDest, TRUE))
{
int result = CachedConfirmFileOp(pcs->hwndDlgParent,
pcs,
&pcs->cd,
pcs->nSourceFiles,
FALSE,
CONFIRM_FAILED_ENCRYPT,
pszDest,
pfd, // since we just moved it, the attibs should be the same as the src
NULL,
NULL,
NULL);
switch (result)
{
case IDCANCEL:
// user canceled the operation
pcs->lpfo->fAnyOperationsAborted = TRUE;
pcs->bAbort = TRUE;
break;
case IDNO:
// user choose to "restore" the file to its original location
ret = Win32MoveFile(pszDest, pszSource, ISDIRFINDDATA(*pfd)) ? 0 : GetLastError();
case IDYES:
default:
// user ignored the error
break;
}
}
}
}
if (ret == ERROR_SUCCESS)
{
if (pcs->lpua && DTNIsRootNode(pcs->dth.pdtnCurrent) && !DTNIsConnected(pcs->dth.pdtnCurrent))
{
// add to the undo atom
FOUndo_AddInfo(pcs->lpua, pszSource, pszDest, 0);
}
// Win32MoveFile on a single-volume leaves the original ACL
// intact. If necessary, pick up perms from the destination.
if (pcs->fFlags & FOF_NOCOPYSECURITYATTRIBS)
{
ResetFileSecurity(pszDest);
}
// if we copied in a new desktop ini, send out an update event for the paretn
if (!lstrcmpi(PathFindFileName(pszDest), c_szDesktopIni))
{
TCHAR szDest[MAX_PATH];
lstrcpyn(szDest, pszDest, ARRAYSIZE(szDest));
PathRemoveFileSpec(szDest);
SHChangeNotify(SHCNE_UPDATEITEM, SHCNF_PATH, szDest, NULL);
}
}
}
else
{
// we must force all copies to go through
// straight so we can remove the source
if (DTNIsConnected(pcs->dth.pdtnCurrent) && !PathFileExists(pszSource))
{
//This can happen if "foo.htm" and "foo files" were moved by the end-user.
// The connected file had already been moved and hence this is not an error!
ret = 0; //No error! That file has been moved already!
}
else
{
ret = DoFile_Copy(pcs, pszSource, pszDest, pfd, pfdDest, FALSE);
}
}
return ret;
}
int DoFile_Rename(COPY_STATE* pcs, LPTSTR pszSource, LPTSTR pszDest,
WIN32_FIND_DATA *pfd, WIN32_FIND_DATA * pfdDest, BOOL fRenameTried)
{
LPTSTR p = PathFindFileName(pszSource);
/* Get raw source and dest paths. Check to make sure the
paths are the same */
int ret = !IntlStrEqNI(pszSource, pszDest, (int)(p - pszSource));
if (ret)
{
return DE_DIFFDIR;
}
return DoFile_Move(pcs, pszSource, pszDest, pfd, pfdDest, fRenameTried);
}
int MoveCopyInitPCS(COPY_STATE * pcs)
{
BOOL fMultiDest = FALSE;
int ret = 0;
LPTSTR p = NULL;
TCHAR szDestPath[MAX_PATH];
pcs->nSourceFiles = CountFiles(pcs->lpfo->pFrom); // multiple source files?
pcs->fProgressOk = TRUE;
// skip destination processing if we are deleting files
if (pcs->lpfo->wFunc != FO_DELETE)
{
lstrcpyn(szDestPath, pcs->lpfo->pTo, ARRAYSIZE(szDestPath));
if (!szDestPath[0]) // NULL dest is same as "."
{
szDestPath[0] = TEXT('.');
szDestPath[1] = 0;
}
if (PathIsInvalid(szDestPath))
{
CopyError(pcs, c_szNULL, c_szNULL, DE_INVALIDFILES | ERRORONDEST, pcs->lpfo->wFunc, 0);
return ERROR_ACCESS_DENIED;
}
if (pcs->lpfo->wFunc == FO_RENAME)
{
// don't let them rename multiple files to one single file
if ((pcs->nSourceFiles != 1) && !PathIsWild(szDestPath))
{
CopyError(pcs, c_szNULL, c_szNULL, DE_MANYSRC1DEST, pcs->lpfo->wFunc, 0);
return DE_MANYSRC1DEST;
}
fMultiDest = TRUE;
}
else // FO_COPY or FO_MOVE at this point
{
fMultiDest = ((pcs->fFlags & FOF_MULTIDESTFILES) &&
(pcs->nSourceFiles == CountFiles(pcs->lpfo->pTo)));
if (!fMultiDest)
{
// for backwards compat.
// copy c:\foo.bar c:\folder\foo.bar means
// multi dest if foo.bar doesn't exist.
// Hack if it is a root we special case this for the offline
// floppy case...
if (pcs->nSourceFiles == 1 && !PathIsRoot(szDestPath) &&
!PathIsDirectory(szDestPath))
{
fMultiDest = TRUE;
}
}
}
}
pcs->dth.fMultiDest = fMultiDest;
return 0;
}
DWORD g_dwStopWatchMode = 0xffffffff; // Shell performance mode
// actually this does move/copy/rename/delete
int MoveCopyDriver(COPY_STATE *pcs)
{
int ret;
WIN32_FIND_DATA fdSrc;
WIN32_FIND_DATA fdDest;
HDPA hdpaDeletedFiles = NULL;
LPSHFILEOPSTRUCT lpfo = pcs->lpfo;
TCHAR szText[28];
BOOL bInitialAllowUndo = FALSE;
DWORD dwLastUpdateTime = 0;
BOOL fShouldSuspendEvents = FALSE;
HANDLE hEventRunning;
if (g_dwStopWatchMode)
{
if (g_dwStopWatchMode == 0xffffffff)
{
g_dwStopWatchMode = StopWatchMode(); // Since the stopwatch funcs live in shdocvw, delay this call so we don't load shdocvw until we need to
}
if (g_dwStopWatchMode)
{
lstrcpy((LPTSTR)szText, TEXT("Shell "));
switch (lpfo->wFunc)
{
case FO_COPY:
lstrcat((LPTSTR)szText, TEXT("Copy "));
break;
case FO_MOVE:
lstrcat((LPTSTR)szText, TEXT("Move "));
break;
case FO_DELETE:
lstrcat((LPTSTR)szText, TEXT("Delete"));
break;
case FO_RENAME:
lstrcat((LPTSTR)szText, TEXT("Rename"));
break;
default:
lstrcat((LPTSTR)szText, TEXT("Copy? "));
break;
}
lstrcat((LPTSTR)szText, TEXT(": Start"));
StopWatch_Start(SWID_COPY, (LPCTSTR)szText, SPMODE_SHELL | SPMODE_DEBUGOUT);
}
}
// start by assuming an error. Non-zero means an error has occured. If we don't
// start with this assumption then we will return success if MoveCopyInitPCS fails.
ret = ERROR_GEN_FAILURE;
if (!ValidFilenames(lpfo->pFrom))
{
CopyError(pcs, c_szNULL, c_szNULL, DE_INVALIDFILES, lpfo->wFunc, 0);
return ERROR_ACCESS_DENIED;
}
StartCopyEngine(&hEventRunning);
// Check the pcs destination directory to make sure it is valid for the given source file list
if (MoveCopyInitPCS(pcs))
{
goto ExitLoop; // Destination is invalid so we bail out
}
// Build a tree where each node is a source file, a dest file, and an operation to perform
ret = DTBuild(pcs);
if (ret)
{
goto ShowMessageBox;
}
// Speed optimization: for a delete, sending all FSNotifies really bogs down the system,
// so we skip it and rely on the file system notifies.
if ((lpfo->wFunc == FO_DELETE || lpfo->wFunc == FO_MOVE) && pcs->dth.dtAll.dwFiles > 100)
{
// Only suspend notifies for local moves
if (lpfo->wFunc == FO_MOVE)
{
if (lpfo->pTo)
{
int idDrive = PathGetDriveNumber(lpfo->pFrom);
if (idDrive == PathGetDriveNumber(lpfo->pTo) && !IsNetDrive(idDrive))
{
fShouldSuspendEvents = TRUE;
}
}
}
else
{
fShouldSuspendEvents = TRUE;
}
}
if (fShouldSuspendEvents)
{
// SuspendSHNotify can fail if another thread is using it. Only one thread at a time can suspend notify.
fShouldSuspendEvents = SuspendSHNotify();
}
// save off the initial state of the allowundo flag
if (pcs->fFlags & FOF_ALLOWUNDO)
{
bInitialAllowUndo = TRUE;
}
// When first starting, we assume that stream loss is possible until we prove
// otherwise for the current directory. This gets reset to true each time we
// enter a new dir via EnterDir_Move or EnterDir_Copy
pcs->bStreamLossPossible = TRUE;
for (;;)
{
BOOL bUpdateAnimation = FALSE;
int result;
DWORD dwTickCount;
BOOL bTimeToUpdate = FALSE;
pcs->dth.oper = DTGoToNextNode(&pcs->dth,pcs);
dwTickCount = GetTickCount();
if ((dwTickCount - dwLastUpdateTime) > 10)
{
dwLastUpdateTime = dwTickCount;
bTimeToUpdate = TRUE;
}
if ((pcs->dth.oper & OPER_MASK) == OPER_ERROR)
{
CopyError(pcs, pcs->dth.szSrcPath, pcs->dth.szDestPath, LOBYTE(pcs->dth.oper), pcs->lpfo->wFunc, OPER_DOFILE);
// If the directory is copied but a file inside that directory could not
// be copied because of long filename, check to see if this is
// a connected element. If so, invoke undo, sothat we getback the orginal html file
// in the same place as the associated folder.
if ((pcs->dth.oper == (OPER_ERROR | DE_INVALIDFILES)) &&
(DTNIsConnected(pcs->dth.pdtnCurrent)))
{
if (pcs->lpua)
{
pcs->lpua->foFlags |= FOF_NOCONFIRMATION;
FOUndo_Invoke(pcs->lpua);
pcs->lpua = NULL;
}
}
break;
}
if (!pcs->dth.oper || pcs->bAbort) // all done?
{
break;
}
if (DTNIsRootNode(pcs->dth.pdtnCurrent) && (pcs->dth.oper != OPER_LEAVEDIR))
{
int iDrive;
// check to see if we switched between doing a move to
// recycle bin and a true delete (this would happen when
// there was an object that was too big for the recycle bin)
if (!(pcs->fFlags & FOF_ALLOWUNDO) && bInitialAllowUndo)
{
// reset the allowundo flag since we have a new root node, and we
// want to attempt to send it to the recycle bin
pcs->fFlags |= FOF_ALLOWUNDO;
// we delay to update the progress animation till we are basically
// done, which allows us to keep the progress and animation in sync
bUpdateAnimation = TRUE;
}
pcs->fMerge = FALSE;
pcs->fFromCDRom = FALSE;
// Check source for being a CDRom
iDrive = PathGetDriveNumber(pcs->dth.szSrcPath);
if (-1 != iDrive)
{
TCHAR szDrive[4];
if (DRIVE_CDROM == GetDriveType(PathBuildRoot(szDrive, iDrive)))
{
pcs->fFromCDRom = TRUE;
}
}
}
DTGetWin32FindData(pcs->dth.pdtnCurrent, &fdSrc);
fdDest.dwFileAttributes = 0;
DebugMsg(TF_DEBUGCOPY, TEXT("MoveCopyDriver(): Oper %x From(%s) To(%s)"), pcs->dth.oper, (LPCTSTR)pcs->dth.szSrcPath, (LPCTSTR)pcs->dth.szDestPath);
// some operation that may effect the destination (have a collision)
if ((pcs->lpfo->wFunc != FO_DELETE) && (pcs->dth.oper != OPER_LEAVEDIR))
{
// this compare needs to be case sensitive, and locale insensitive
if (!StrCmpC(pcs->dth.szSrcPath, pcs->dth.szDestPath) &&
!(pcs->fFlags & FOF_RENAMEONCOLLISION))
{
// Source and dest are the same file, and name collision
// resolution is not turned on, so we just return an error.
// TODO: Show the error dialog here and allow for SKIP
ret = DE_SAMEFILE;
goto ShowMessageBox;
}
}
result = AllConfirmations(pcs, &fdSrc, pcs->dth.oper, pcs->lpfo->wFunc, pcs->dth.szSrcPath,
pcs->dth.szDestPath, bTimeToUpdate, &fdDest, &ret);
switch (result)
{
case IDNO:
DTAbortCurrentNode(&pcs->dth);
lpfo->fAnyOperationsAborted = TRUE;
continue;
case IDCANCEL:
pcs->bAbort = TRUE;
goto ExitLoop;
case IDYES:
break;
default:
ret = result;
goto ShowMessageBox;
}
/* Now determine which operation to perform */
switch (pcs->dth.oper | pcs->lpfo->wFunc)
{
// Note that ENTERDIR is not done for a root, even though LEAVEDIR is
case OPER_ENTERDIR | FO_MOVE: // Create dest, verify source delete
ret = EnterDir_Move(pcs, pcs->dth.szSrcPath, pcs->dth.szDestPath, &fdSrc, &fdDest, FALSE);
break;
case OPER_ENTERDIR | FO_COPY: // Create destination directory
ret = EnterDir_Copy(pcs, pcs->dth.szSrcPath, pcs->dth.szDestPath, &fdSrc, &fdDest, FALSE);
break;
case OPER_LEAVEDIR | FO_MOVE:
case OPER_LEAVEDIR | FO_DELETE:
ret = LeaveDir_Delete(pcs, pcs->dth.szSrcPath);
break;
case OPER_LEAVEDIR | FO_COPY:
break;
case OPER_DOFILE | FO_COPY:
ret = DoFile_Copy(pcs, pcs->dth.szSrcPath, pcs->dth.szDestPath, &fdSrc, &fdDest, FALSE);
break;
case OPER_DOFILE | FO_RENAME:
ret = DoFile_Rename(pcs, pcs->dth.szSrcPath, pcs->dth.szDestPath, &fdSrc, &fdDest, FALSE);
break;
case OPER_DOFILE | FO_MOVE:
ret = DoFile_Move(pcs, pcs->dth.szSrcPath, pcs->dth.szDestPath, &fdSrc, &fdDest, FALSE);
break;
case OPER_ENTERDIR | FO_DELETE:
ret = EnterDir_Delete(pcs, &fdSrc, pcs->dth.szSrcPath, &hdpaDeletedFiles);
break;
case OPER_DOFILE | FO_DELETE:
ret = DoFile_Delete(pcs, &fdSrc, pcs->dth.szSrcPath, &hdpaDeletedFiles, fShouldSuspendEvents);
break;
default:
DebugMsg(DM_ERROR, TEXT("Invalid file operation"));
ret = 0; // internal error
break;
} // switch (pcs->dth.oper | pcs->lpfo->wFunc)
if (pcs->bAbort)
break;
if (ret == IDNO)
{
pcs->lpfo->fAnyOperationsAborted = TRUE;
}
else if (ret)
{ // any errors?
ShowMessageBox:
// If source file is a connected item and is not found, that means that
// we have already moved/deleted/renamed it. So, don't report that as error!
if ((!pcs->dth.pdtnCurrent) || (!pcs->dth.pdtnCurrent->fConnectedElement) ||
((ret != ERROR_FILE_NOT_FOUND) && (ret != ERROR_PATH_NOT_FOUND)))
{
CopyError(pcs, pcs->dth.szSrcPath, pcs->dth.szDestPath, ret, pcs->lpfo->wFunc, pcs->dth.oper);
// If the directory is copied but a file inside that directory could not
// be copied because of long filename, check to see if this is
// a connected element. If so, invoke undo, sothat we getback the orginal html file
// in the same place as the associated folder.
if ((ret == ERROR_FILENAME_EXCED_RANGE) &&
(DTNIsConnected(pcs->dth.pdtnCurrent)))
{
if (pcs->lpua)
{
pcs->lpua->foFlags |= FOF_NOCONFIRMATION;
FOUndo_Invoke(pcs->lpua);
pcs->lpua = NULL;
}
}
break;
}
}
if (bTimeToUpdate)
{
// perform the delayed update of the dialog
if (bUpdateAnimation)
{
UpdateProgressAnimation(pcs);
bUpdateAnimation = FALSE;
}
// We check to see if we are finished here (instead of at the
// start) since we want to keep the progress a step behind what
// we are doing to ensure we have the correct progress animation
// and text (since FOQueryAbort updates the progress text)
if (FOQueryAbort(pcs))
break;
}
}
ExitLoop:
// this happens in error cases where we broke out of the pcr loop
// without hitting the end
lpfo->hNameMappings = pcs->dth.hdsaRenamePairs;
DTCleanup(&pcs->dth);
BBFinishDelete(hdpaDeletedFiles);
if (fShouldSuspendEvents)
{
ResumeSHNotify();
if (lpfo->wFunc == FO_DELETE)
{
TCHAR szBBPath[MAX_PATH];
// Since we probably blew away any chance at having the FSNotify work, make sure
// we update item for this path... we can send the message on any drive since
// the bitbucket listens for changes on all drives.
DriveIDToBBPath(DriveIDFromBBPath(lpfo->pFrom), szBBPath);
SHChangeNotify(SHCNE_UPDATEDIR, SHCNF_PATH, szBBPath, NULL);
}
}
if (g_dwStopWatchMode)
{
lstrcpy((LPTSTR)&szText[12], TEXT(": Stop "));
StopWatch_Stop(SWID_COPY, (LPCTSTR)szText, SPMODE_SHELL | SPMODE_DEBUGOUT);
}
EndCopyEngine(hEventRunning);
return ret;
}
void SetWindowTextFromRes(HWND hwnd, int id)
{
TCHAR szTemp[80];
LoadString(HINST_THISDLL, id, szTemp, ARRAYSIZE(szTemp));
SetWindowText(hwnd, szTemp);
}
int CountProgressPoints(COPY_STATE *pcs, PDIRTOTALS pdt)
{
// point value for each item
int iTotal = 0;
UINT uSize = pcs->uSize;
if (!uSize)
{
uSize = 32*1024;
}
// now add it up.
iTotal += (UINT)((pdt->liSize.QuadPart/uSize) * pcs->dth.iSizePoints);
iTotal += pdt->dwFiles * pcs->dth.iFilePoints;
iTotal += pdt->dwFolders * pcs->dth.iFolderPoints;
return iTotal;
}
void UpdateProgressDialog(COPY_STATE* pcs)
{
int iRange; // from 0 to iRange
int iPos; // how much is done.
if (pcs->fProgressOk)
{
if (pcs->dth.dtAll.fChanged)
{
pcs->dth.dtAll.fChanged = FALSE;
iRange = CountProgressPoints(pcs, &pcs->dth.dtAll);
SendProgressMessage(pcs, PBM_SETRANGE32, 0, iRange);
DebugMsg(TF_DEBUGCOPY, TEXT("UpdateProgressDialog iRange = %d "), iRange);
}
if (pcs->dth.dtDone.fChanged)
{
pcs->dth.dtDone.fChanged = FALSE;
iPos = CountProgressPoints(pcs, &pcs->dth.dtDone);
SendProgressMessage(pcs, PBM_SETPOS, iPos, 0);
DebugMsg(TF_DEBUGCOPY, TEXT("UpdateProgressDialog iPos = %d "), iPos);
}
}
}
// NOTE: !! do NOT refrence pcs->lpfo anywhere in this dialog proc !!
//
// It can be freed while we are still running. If you need to get information from it,
// add a new member to the FOUITHREADINFO struct and copy the value from the pcs->lpfo
// into the member (while holding the critsec) right before we create this dlg.
BOOL_PTR CALLBACK FOFProgressDlgProc(HWND hDlg, UINT wMsg, WPARAM wParam, LPARAM lParam)
{
FOUITHREADINFO* pfouiti = (FOUITHREADINFO*)GetWindowLongPtr(hDlg, DWLP_USER);
COPY_STATE *pcs = (pfouiti ? pfouiti->pcs : NULL);
if (WM_INITDIALOG == wMsg)
{
SetWindowLongPtr(hDlg, DWLP_USER, lParam);
pfouiti = (FOUITHREADINFO*)lParam;
pcs = pfouiti->pcs;
SetWindowTextFromRes(hDlg, IDS_ACTIONTITLE + pfouiti->wFunc);
if (pcs->fFlags & FOF_SIMPLEPROGRESS)
{
TCHAR szFrom[MAX_PATH];
if (pcs->lpszProgressTitle)
{
if (IS_INTRESOURCE(pcs->lpszProgressTitle))
{
LoadString(HINST_THISDLL, PtrToUlong(pcs->lpszProgressTitle), szFrom, ARRAYSIZE(szFrom));
pcs->lpszProgressTitle = szFrom;
}
SetDlgItemText(hDlg, IDD_NAME, pcs->lpszProgressTitle);
// null it so we only set it once
pcs->lpszProgressTitle = NULL;
}
}
return FALSE;
}
if (pcs)
{
switch (wMsg)
{
case WM_TIMER:
if (IsWindowEnabled(hDlg))
SetProgressTime(pcs);
break;
case WM_SHOWWINDOW:
if (wParam)
{
int idAni;
HWND hwndAnimation;
ASSERT(pfouiti->wFunc >= FO_MOVE && pfouiti->wFunc <= FO_DELETE);
ASSERT(FO_COPY==FO_MOVE+1);
ASSERT(FO_DELETE==FO_COPY+1);
ASSERT(IDA_FILECOPY==IDA_FILEMOVE+1);
ASSERT(IDA_FILEDEL ==IDA_FILECOPY+1);
switch (pfouiti->wFunc)
{
case FO_DELETE:
if (pfouiti->bIsEmptyRBOp)
{
idAni = IDA_FILENUKE;
break;
}
else if (!(pcs->fFlags & FOF_ALLOWUNDO))
{
idAni = IDA_FILEDELREAL;
break;
}
// else fall through
default:
idAni = (IDA_FILEMOVE + (int)pfouiti->wFunc - FO_MOVE);
}
hwndAnimation = GetDlgItem(hDlg,IDD_ANIMATE);
Animate_Open(hwndAnimation, IntToPtr(idAni));
SetProp(hwndAnimation, TEXT("AnimationID"), IntToPtr(idAni));
// a timer every MS_TIMESLICE seconds to update the progress time estimate
SetTimer(hDlg, 1, MS_TIMESLICE, NULL);
}
break;
case WM_ENABLE:
if (wParam)
{
if (pcs->dwPreviousTime)
{
// if we're enabling it, set the previous time to now
// because no action has happened while we were disabled
pcs->dwPreviousTime = GetTickCount();
}
}
else
{
SetProgressTime(pcs);
}
PauseAnimation(pcs, wParam == 0);
break;
case WM_COMMAND:
switch (GET_WM_COMMAND_ID(wParam, lParam))
{
case IDCANCEL:
pcs->bAbort = TRUE;
ShowWindow(hDlg, SW_HIDE);
break;
}
break;
case PDM_SHUTDOWN:
// Make sure this window is shown before telling the user there
// is a problem
// ignore FOF_NOERRORUI here because of the nature of the situation
ShellMessageBox(HINST_THISDLL, hDlg, MAKEINTRESOURCE(IDS_CANTSHUTDOWN),
NULL, MB_OK | MB_ICONEXCLAMATION | MB_SETFOREGROUND);
break;
case PDM_NOOP:
// a dummy id that we can take so that folks can post to us and make
// us go through the main loop
break;
case PDM_UPDATE:
pcs->dth.fChangePosted = FALSE;
UpdateProgressDialog(pcs);
break;
case WM_QUERYENDSESSION:
// Post a message telling the dialog to show the "We can't shutdown now"
// dialog and return to USER right away, so we don't have to worry about
// the user not clicking the OK button before USER puts up its "this
// app didn't respond" dialog
PostMessage(hDlg, PDM_SHUTDOWN, 0, 0);
// Make sure the dialog box procedure returns FALSE
SetWindowLongPtr(hDlg, DWLP_MSGRESULT, FALSE);
return TRUE;
default:
return FALSE;
}
}
return TRUE;
}
int CALLBACK FOUndo_FileReallyDeletedCallback(UNDOATOM *lpua, LPARAM lParam)
{
LPTSTR * ppsz = (LPTSTR*)lParam;
// this is our signal to nuke the rest
if (!*ppsz)
return EUA_DELETE;
switch (lpua->uType)
{
case IDS_RENAME:
case IDS_COPY:
case IDS_MOVE:
case IDS_DELETE:
{
LPFOUNDODATA lpud = (LPFOUNDODATA)lpua->lpData;
HDPA hdpa = lpud->hdpa;
// only the destinations matter.
int i, iMax = DPA_GetPtrCount(hdpa);
for (i = 1; i <= iMax; i += 2)
{
LPTSTR lpsz = DPA_GetPtr(hdpa, i);
if (lstrcmpi(lpsz, *ppsz) == 0)
{
*ppsz = NULL;
break;
}
}
}
break;
}
// this is our signal to nuke the rest
if (!*ppsz)
return EUA_DELETE;
else
return EUA_DONOTHING;
}
// someone really really deleted a file. make sure we no longer have
// any undo information pointing to it.
void FOUndo_FileReallyDeleted(LPTSTR lpszFile)
{
EnumUndoAtoms(FOUndo_FileReallyDeletedCallback, (LPARAM)&lpszFile);
}
int CALLBACK FOUndo_FileRestoredCallback(UNDOATOM *lpua, LPARAM lParam)
{
LPTSTR psz = (LPTSTR)lParam;
switch (lpua->uType)
{
case IDS_DELETE:
{
LPFOUNDODATA lpud = (LPFOUNDODATA)lpua->lpData;
HDPA hdpa = lpud->hdpa;
LPTSTR lpsz;
int i, iMax;
ASSERT(hdpa);
// only the destinations matter.
iMax = DPA_GetPtrCount(hdpa);
for (i = 1; i <= iMax; i += 2)
{
lpsz = DPA_GetPtr(hdpa, i);
if (lstrcmpi(lpsz, psz) == 0)
{
ENTERCRITICAL;
Str_SetPtr(&lpsz, NULL);
lpsz = DPA_GetPtr(hdpa, i - 1);
Str_SetPtr(&lpsz, NULL);
DPA_DeletePtr(hdpa, i);
DPA_DeletePtr(hdpa, i - 1);
LEAVECRITICAL;
if (DPA_GetPtrCount(hdpa))
return EUA_ABORT;
else
return EUA_DELETEABORT;
}
}
}
break;
}
return EUA_DONOTHING;
}
// this means someone restored a file (via ui in the bitbucket)
// so we need to clean up the undo info.
void FOUndo_FileRestored(LPCTSTR lpszFile)
{
EnumUndoAtoms(FOUndo_FileRestoredCallback, (LPARAM)lpszFile);
}
void FOUndo_AddInfo(UNDOATOM *lpua, LPTSTR lpszSrc, LPTSTR lpszDest, DWORD dwAttributes)
{
HDPA hdpa;
LPTSTR lpsz = NULL;
int i;
LPFOUNDODATA lpud;
if (lpua->lpData == (void *)-1)
return;
if (!lpua->lpData)
{
lpua->lpData = LocalAlloc(LPTR, sizeof(FOUNDODATA));
if (!lpua->lpData)
return;
((LPFOUNDODATA)lpua->lpData)->hdpa = (void *)DPA_Create(4);
}
lpud = lpua->lpData;
hdpa = lpud->hdpa;
if (!hdpa)
return;
// if it's a directory that got deleted, we're just going to save it's
// attributes so that we can recreate it later.
// directories do NOT get moved into the wastebasket
if ((lpua->uType == IDS_DELETE) && (dwAttributes & FILE_ATTRIBUTE_DIRECTORY))
{
FOUNDO_DELETEDFILEINFO dfi;
if (!lpud->hdsa)
{
lpud->hdsa = DSA_Create(sizeof(FOUNDO_DELETEDFILEINFO), 4);
if (!lpud->hdsa)
return;
}
Str_SetPtr(&lpsz, lpszSrc);
dfi.lpszName = lpsz;
dfi.dwAttributes = dwAttributes;
DSA_AppendItem(lpud->hdsa, &dfi);
}
else
{
Str_SetPtr(&lpsz, lpszSrc);
if (!lpsz)
return;
if ((i = DPA_AppendPtr(hdpa, lpsz)) == -1)
{
return;
}
lpsz = NULL;
Str_SetPtr(&lpsz, lpszDest);
if (!lpsz ||
DPA_AppendPtr(hdpa, lpsz) == -1)
{
DPA_DeletePtr(hdpa, i);
}
}
}
LPTSTR DPA_ToFileList(HDPA hdpa, int iStart, int iEnd, int iIncr)
{
LPTSTR lpsz;
LPTSTR lpszReturn;
int ichSize;
int ichTemp;
int i;
// undo copy by deleting destinations
lpszReturn = (LPTSTR)(void*)LocalAlloc(LPTR, 1);
if (!lpszReturn)
{
return NULL;
}
ichSize = 1;
// build the NULL separated file list
// go from the end to the front.. restore in reverse order!
for (i = iEnd; i >= iStart ; i -= iIncr)
{
LPTSTR psz;
lpsz = DPA_GetPtr(hdpa, i);
ASSERT(lpsz);
ichTemp = ichSize - 1;
ichSize += (lstrlen(lpsz) + 1);
psz = (LPTSTR)(void*)LocalReAlloc((HLOCAL)lpszReturn, ichSize * sizeof(TCHAR),
LMEM_MOVEABLE|LMEM_ZEROINIT);
if (!psz)
{
break;
}
lpszReturn = psz;
lstrcpy(lpszReturn + ichTemp, lpsz);
}
if ((i + iIncr) != iStart)
{
LocalFree((HLOCAL)lpszReturn);
lpszReturn = NULL;
}
return lpszReturn;
}
// from dpa to:
// 'file 1', 'file 2' and 'file 3'
LPTSTR DPA_ToQuotedFileList(HDPA hdpa, int iStart, int iEnd, int iIncr)
{
LPTSTR lpsz;
LPTSTR lpszReturn;
TCHAR szFile[MAX_PATH];
int ichSize;
int ichTemp;
int i;
SHELLSTATE ss;
// undo copy by deleting destinations
lpszReturn = (LPTSTR)(void*)LocalAlloc(LPTR, 1);
if (!lpszReturn)
{
return NULL;
}
SHGetSetSettings(&ss, SSF_SHOWEXTENSIONS|SSF_SHOWALLOBJECTS, FALSE);
ichSize = 1;
// build the quoted file list
for (i = iStart; i < iEnd ; i += iIncr)
{
LPTSTR psz;
ichTemp = ichSize - 1;
// get the name (filename only without extension)
lpsz = DPA_GetPtr(hdpa, i);
lstrcpy(szFile, PathFindFileName(lpsz));
if (!ss.fShowExtensions)
{
PathRemoveExtension(szFile);
}
// grow the buffer and add it in
ichSize += lstrlen(szFile) + 2;
psz = (LPTSTR)(void*)LocalReAlloc((HLOCAL)lpszReturn, ichSize * sizeof(TCHAR),
LMEM_MOVEABLE|LMEM_ZEROINIT);
if (!psz)
{
LocalFree(lpszReturn);
lpszReturn = NULL;
break;
}
lpszReturn = psz;
// is it too long?
if (ichSize >= MAX_PATH)
{
lstrcat(lpszReturn, c_szEllipses);
return lpszReturn;
}
else
{
StrCatBuff(lpszReturn, TEXT("'"), ichSize); //A single quote BEFORE the filename.
StrCatBuff(lpszReturn, szFile, ichSize);
StrCatBuff(lpszReturn, TEXT("'"), ichSize); //A single quote AFTER the filename.
}
ASSERT(ichSize == ichTemp + (lstrlen(lpszReturn + ichTemp) + 1));
ichTemp = ichSize - 1;
// check to see if we need the "and"
if ((i + iIncr) < iEnd)
{
TCHAR szTemp[40];
int id;
ichSize += 40;
if ((i + (iIncr*2)) >= iEnd)
{
id = IDS_SPACEANDSPACE;
}
else
{
id = IDS_COMMASPACE;
}
psz = (LPTSTR)LocalReAlloc((HLOCAL)lpszReturn, ichSize * sizeof(TCHAR),
LMEM_MOVEABLE|LMEM_ZEROINIT);
if (!psz)
{
LocalFree(lpszReturn);
lpszReturn = NULL;
break;
}
lpszReturn = psz;
LoadString(HINST_THISDLL, id, szTemp, ARRAYSIZE(szTemp));
StrCatBuff(lpszReturn, szTemp, ichSize);
ichSize = ichTemp + (lstrlen(lpszReturn + ichTemp) + 1);
}
}
return lpszReturn;
}
void CALLBACK FOUndo_GetText(UNDOATOM *lpua, TCHAR * buffer, int type)
{
LPFOUNDODATA lpud = (LPFOUNDODATA)lpua->lpData;
HDPA hdpa = lpud->hdpa;
if (type == UNDO_MENUTEXT)
{
LoadString(HINST_THISDLL, lpua->uType, buffer, MAX_PATH);
}
else
{
TCHAR szTemplate[80];
// thank god for growable stacks..
TCHAR szFile1[MAX_PATH];
TCHAR szFile2[MAX_PATH];
TCHAR szFile1Short[30];
TCHAR szFile2Short[30];
TCHAR *lpszFile1;
TCHAR *lpszFile2;
// get the template
LoadString(HINST_THISDLL, lpua->uType + (IDS_UNDO_FILEOPHELP - IDS_UNDO_FILEOP), szTemplate, ARRAYSIZE(szTemplate));
if (lpua->uType == IDS_RENAME)
{
SHELLSTATE ss;
LPTSTR pszTemp;
// fill in the file names
lpszFile1 = DPA_GetPtr(hdpa, 0);
lpszFile2 = DPA_GetPtr(hdpa, 1);
lstrcpy(szFile1, PathFindFileName(lpszFile1));
lstrcpy(szFile2, PathFindFileName(lpszFile2));
SHGetSetSettings(&ss, SSF_SHOWEXTENSIONS, FALSE);
if (!ss.fShowExtensions)
{
PathRemoveExtension(szFile1);
PathRemoveExtension(szFile2);
}
// length sanity check
// don't just whack "..." at 30 bytes into szFile1 since that may be a dbcs character...
PathCompactPathEx(szFile1Short, szFile1, ARRAYSIZE(szFile1Short), 0);
PathCompactPathEx(szFile2Short, szFile2, ARRAYSIZE(szFile2Short), 0);
pszTemp = ShellConstructMessageString(HINST_THISDLL, szTemplate, szFile1Short, szFile2Short);
if (pszTemp)
{
StrCpyN(buffer, pszTemp, MAX_PATH);
LocalFree(pszTemp);
}
}
else
{
TCHAR *lpszFile1;
HDPA hdpaFull = hdpa;
// in the case of delete (where ther's an hdsa)
// we need to add in the names of folders deleted
// we do this by cloning the hdpa and tacking on our names.
if (lpud->hdsa)
{
hdpaFull = DPA_Clone(hdpa, NULL);
if (hdpaFull)
{
int iMax;
int i;
LPFOUNDO_DELETEDFILEINFO lpdfi;
iMax = DSA_GetItemCount(lpud->hdsa);
for (i = 0; i < iMax; i++)
{
lpdfi = DSA_GetItemPtr(lpud->hdsa, i);
DPA_AppendPtr(hdpaFull, lpdfi->lpszName);
DPA_AppendPtr(hdpaFull, lpdfi->lpszName);
}
}
else
{
hdpaFull = hdpa;
}
}
lpszFile1 = DPA_ToQuotedFileList(hdpaFull, 0, DPA_GetPtrCount(hdpaFull), 2);
wnsprintf(buffer, MAX_PATH, szTemplate, lpszFile1);
LocalFree((HLOCAL)lpszFile1);
if (hdpaFull != hdpa)
{
DPA_Destroy(hdpaFull);
}
}
}
}
void CALLBACK FOUndo_Release(UNDOATOM *lpua)
{
LPFOUNDODATA lpud = (LPFOUNDODATA)lpua->lpData;
int i;
LPTSTR lpsz;
if (lpud && (lpud != (void *)-1))
{
HDPA hdpa = lpud->hdpa;
HDSA hdsa = lpud->hdsa;
if (hdpa)
{
i = DPA_GetPtrCount(hdpa) - 1;
for (; i >= 0; i--)
{
lpsz = DPA_FastGetPtr(hdpa, i);
Str_SetPtr(&lpsz, NULL);
}
DPA_Destroy(hdpa);
}
if (hdsa)
{
LPFOUNDO_DELETEDFILEINFO lpdfi;
i = DSA_GetItemCount(hdsa) - 1;
for (; i >= 0 ; i--)
{
lpdfi = DSA_GetItemPtr(hdsa, i);
Str_SetPtr(&lpdfi->lpszName, NULL);
}
DSA_Destroy(hdsa);
}
LocalFree(lpud);
lpua->lpData = (void *)-1;
}
}
DWORD WINAPI FOUndo_InvokeThreadInit(UNDOATOM *lpua)
{
LPFOUNDODATA lpud = (LPFOUNDODATA)lpua->lpData;
HDPA hdpa = lpud->hdpa;
HWND hwnd = lpua->hwnd;
BOOL fNukeAtom = TRUE;
SHFILEOPSTRUCT sFileOp =
{
hwnd,
0,
NULL,
NULL,
0,
} ;
int iMax;
SuspendUndo(TRUE);
iMax = DPA_GetPtrCount(hdpa);
switch (lpua->uType)
{
case IDS_RENAME:
{
TCHAR szFromPath[MAX_PATH + 1];
if (iMax < 2)
goto Exit;
sFileOp.wFunc = FO_RENAME;
sFileOp.pFrom = DPA_GetPtr(hdpa, 1);
sFileOp.pTo = DPA_GetPtr(hdpa, 0);
if (sFileOp.pFrom && sFileOp.pTo)
{
lstrcpy(szFromPath, sFileOp.pFrom);
szFromPath[lstrlen(sFileOp.pFrom) + 1] = 0;
sFileOp.pFrom = szFromPath;
SHFileOperation(&sFileOp);
if (sFileOp.fAnyOperationsAborted)
{
fNukeAtom = FALSE;
}
}
// In the rename case the DPA owns these pointers, in all other cases
// they must be freed below. To prevent freeing these during a rename
// we NULL them out when we're done with them
sFileOp.pFrom = NULL;
sFileOp.pTo = NULL;
}
break;
case IDS_COPY:
sFileOp.pFrom = DPA_ToFileList(hdpa, 1, iMax - 1, 2);
if (!sFileOp.pFrom)
goto Exit;
sFileOp.wFunc = FO_DELETE;
//
// If this delete is occuring because of an automatic undo caused by
// connected files, then do not ask for confirmation.
//
if (lpua->foFlags & FOF_NOCONFIRMATION)
sFileOp.fFlags |= FOF_NOCONFIRMATION;
SHFileOperation(&sFileOp);
if (sFileOp.fAnyOperationsAborted)
{
fNukeAtom = FALSE;
}
break;
case IDS_MOVE:
sFileOp.pFrom = DPA_ToFileList(hdpa, 1, iMax-1, 2);
sFileOp.pTo = DPA_ToFileList(hdpa, 0, iMax-2, 2);
if (!sFileOp.pFrom || !sFileOp.pTo)
goto Exit;
sFileOp.wFunc = FO_MOVE;
sFileOp.fFlags = FOF_MULTIDESTFILES;
if (lpua->foFlags & FOF_NOCOPYSECURITYATTRIBS)
{
sFileOp.fFlags |= FOF_NOCOPYSECURITYATTRIBS;
}
SHFileOperation(&sFileOp);
if (sFileOp.fAnyOperationsAborted)
{
fNukeAtom = FALSE;
}
break;
case IDS_DELETE:
{
// first create any directories
if (lpud->hdsa)
{
HDSA hdsa = lpud->hdsa;
int i;
// do it in reverse order to get the parentage right
for (i = DSA_GetItemCount(hdsa) - 1; i >= 0; i--)
{
LPFOUNDO_DELETEDFILEINFO lpdfi = DSA_GetItemPtr(hdsa, i);
if (lpdfi)
{
if (Win32CreateDirectory(lpdfi->lpszName, NULL))
{
SetFileAttributes(lpdfi->lpszName, lpdfi->dwAttributes & ~FILE_ATTRIBUTE_DIRECTORY);
}
}
}
}
if (iMax)
{
sFileOp.pFrom = DPA_ToFileList(hdpa, 1, iMax-1, 2);
sFileOp.pTo = DPA_ToFileList(hdpa, 0, iMax-2, 2);
if (!sFileOp.pFrom || !sFileOp.pTo)
goto Exit;
UndoBBFileDelete(sFileOp.pTo, sFileOp.pFrom);
}
break;
}
}
SHChangeNotify(0, SHCNF_FLUSH | SHCNF_FLUSHNOWAIT, NULL, NULL);
Exit:
if (sFileOp.pFrom)
LocalFree((HLOCAL)sFileOp.pFrom);
if (sFileOp.pTo)
LocalFree((HLOCAL)sFileOp.pTo);
SuspendUndo(FALSE);
if (fNukeAtom)
NukeUndoAtom(lpua);
return 1;
}
void CALLBACK FOUndo_Invoke(UNDOATOM *lpua)
{
DWORD idThread;
HANDLE hthread = CreateThread(NULL, 0, FOUndo_InvokeThreadInit, lpua, 0, &idThread);
if (hthread)
CloseHandle(hthread);
}
UNDOATOM *FOAllocUndoAtom(LPSHFILEOPSTRUCT lpfo)
{
UNDOATOM *lpua = (UNDOATOM *)LocalAlloc(LPTR, sizeof(*lpua));
if (lpua)
{
lpua->uType = FOFuncToStringID(lpfo->wFunc);
lpua->GetText = FOUndo_GetText;
lpua->Invoke = FOUndo_Invoke;
lpua->Release = FOUndo_Release;
lpua->foFlags = 0;
if (lpfo->fFlags & FOF_NOCOPYSECURITYATTRIBS)
{
lpua->foFlags |= FOF_NOCOPYSECURITYATTRIBS;
}
}
return lpua;
}
//============================================================================
//
// The following function is the mainline function for COPYing, RENAMEing,
// DELETEing, and MOVEing single or multiple files.
//
// in:
// hwnd the parent to create the progress dialog from if FOF_CREATEPROGRESSDLG is set.
//
//
// wFunc operation to be performed:
// FO_DELETE - Delete files in pFrom (pTo unused)
// FO_RENAME - Rename files
// FO_MOVE - Move files in pFrom to pTo
// FO_COPY - Copy files in pFrom to pTo
//
// pFrom list of source file specs either qualified or
// unqualified. unqualified names will be qualified based on the current
// global current directories. examples include
// "foo.txt bar.txt *.bak ..\*.old dir_name"
//
// pTo destination file spec.
//
// fFlags flags that control the operation
//
// returns:
// 0 indicates success
// != 0 is the DE_ (dos error code) of last failed operation
//
//
//===========================================================================
int WINAPI SHFileOperation(LPSHFILEOPSTRUCT lpfo)
{
int ret;
BOOL bRecycledStuff = FALSE;
COPY_STATE *pcs;
if (!lpfo || !lpfo->pFrom)
{
// return an error instead of waiting to AV
return ERROR_INVALID_PARAMETER;
}
lpfo->fAnyOperationsAborted = FALSE;
lpfo->hNameMappings = NULL;
if (lpfo->wFunc < FO_MOVE || lpfo->wFunc > FO_RENAME) // validate
{
// NOTE: We used to return 0 here (win95gold -> IE401).
//
// If we run into app compat bugs because they were relying on the old
// buggy return value, then add an app hack here.
//
// this is not a DE_ error, and I don't care!
return ERROR_INVALID_PARAMETER;
}
pcs = (COPY_STATE*)LocalAlloc(LPTR, sizeof(COPY_STATE));
if (!pcs)
{
return ERROR_NOT_ENOUGH_MEMORY;
}
pcs->nRef = 1;
//
// REVIEW: We want to allow copying of a file within a given directory
// by having default renaming on collisions within a directory.
//
if (!(lpfo->fFlags & FOF_NOCONFIRMATION))
{
pcs->cd.fConfirm =
CONFIRM_DELETE_FILE |
CONFIRM_DELETE_FOLDER |
CONFIRM_REPLACE_FILE |
CONFIRM_REPLACE_FOLDER |
CONFIRM_WONT_RECYCLE_FILE |
CONFIRM_WONT_RECYCLE_FOLDER |
CONFIRM_PATH_TOO_LONG |
// CONFIRM_MOVE_FILE |
// CONFIRM_MOVE_FOLDER |
// CONFIRM_RENAME_FILE |
// CONFIRM_RENAME_FOLDER |
CONFIRM_SYSTEM_FILE |
CONFIRM_READONLY_FILE |
CONFIRM_MULTIPLE |
CONFIRM_PROGRAM_FILE |
CONFIRM_STREAMLOSS |
CONFIRM_FAILED_ENCRYPT |
CONFIRM_LFNTOFAT |
CONFIRM_WONT_RECYCLE_OFFLINE |
CONFIRM_LOST_ENCRYPT_FILE |
CONFIRM_LOST_ENCRYPT_FOLDER;
}
if (lpfo->fFlags & FOF_WANTNUKEWARNING)
{
// We will warn the user that the thing they thought was going to be recycled is
// now really going to be nuked. (eg drag-drop folder on recycle bin, but it turns
// out that the folder is too big for the bitbucket, so we confirm on the wont-recycle
// cases).
//
// Also, we keep the system file / readonly file / progran file warnings around for good
// measure.
pcs->cd.fConfirm |= CONFIRM_WONT_RECYCLE_FILE |
CONFIRM_WONT_RECYCLE_FOLDER |
CONFIRM_PATH_TOO_LONG |
CONFIRM_SYSTEM_FILE |
CONFIRM_READONLY_FILE |
CONFIRM_PROGRAM_FILE |
CONFIRM_WONT_RECYCLE_OFFLINE;
}
pcs->fFlags = lpfo->fFlags; // duplicate some stuff here
pcs->lpszProgressTitle = lpfo->lpszProgressTitle;
pcs->lpfo = lpfo;
// Check to see if we need to operate on the "connected" files and folders too!
if (!(pcs->fFlags & FOF_NO_CONNECTED_ELEMENTS))
{
DWORD dwFileFolderConnection = 0;
DWORD dwSize = sizeof(dwFileFolderConnection);
DWORD dwType = REG_DWORD;
if (SHGetValue(HKEY_CURRENT_USER, REGSTR_PATH_EXPLORER,
REG_VALUE_NO_FILEFOLDER_CONNECTION, &dwType, &dwFileFolderConnection,
&dwSize) == ERROR_SUCCESS)
{
//If the registry says "No connection", then set the flags accordingly.
if (dwFileFolderConnection == 1)
{
pcs->fFlags = pcs->fFlags | FOF_NO_CONNECTED_ELEMENTS;
}
}
}
// Always create a progress dialog
// Note that it will be created invisible, and will be shown if the
// operation takes longer than a second to perform
// Note the parent of this window is NULL so it will get the QUERYENDSESSION
// message
if (!(pcs->fFlags & FOF_SILENT))
{
SHCreateThread(FOUIThreadProc, pcs, 0, AddRefPCS);
}
else
{
// To be compatible with Win95 semantics...
if (!lpfo->hwnd)
{
pcs->fFlags |= FOF_NOERRORUI;
}
}
if (lpfo->hwnd)
{
// The caller will be disabled if we ever show the progress window
// We need to make sure this is not disabled now because if it is and
// another dialog uses this as its parent, USER code will tell this
// window it got the focus while it is still disabled, which keeps it
// from passing that focus down to its children
// EnableWindow(lpfo->hwnd, FALSE);
pcs->hwndDlgParent = lpfo->hwnd;
}
// do this always.. even if this is not an undoable op, we could be
// affecting something that is.
SuspendUndo(TRUE);
if (lpfo->fFlags & FOF_ALLOWUNDO)
{
pcs->lpua = FOAllocUndoAtom(lpfo);
if (lpfo->wFunc == FO_DELETE)
{
// We check the shell state to see if the user has turned on the
// "Don't confirm deleting recycle bin contents" flag. If yes,
// then we store this flag and check against it if this case occures.
// Review: Not a super common case, why not just check when the
// flag is actually needed?
SHELLSTATE ss;
SHGetSetSettings(&ss, SSF_NOCONFIRMRECYCLE, FALSE);
pcs->fNoConfirmRecycle = ss.fNoConfirmRecycle;
if (InitBBGlobals())
{
// since we are going to be recycling stuff, we add ourselves to the
// global list of threads who are recycling
SHGlobalCounterIncrement(g_hgcNumDeleters);
bRecycledStuff = TRUE;
}
else
{
// this shouldnt happen, but if it does we can't send stuff to the Recycle
// Bin, instead we remove the undo flag so that everything is really nuked.
lpfo->fFlags &= ~FOF_ALLOWUNDO;
LocalFree(pcs->lpua);
pcs->lpua = NULL;
}
}
}
// While doing the file operation, tell PnP not to suspend
// the machine. Otherwise, you could be copying a lot of files
// over the network and have the laptop suddenly hibernate on you
// because PnP thought you were idle.
//
// Indicate that we only need the system. It's okay if the display
// goes into low-power mode, as long as we can keep copying.
//
SetThreadExecutionState(ES_CONTINUOUS | ES_SYSTEM_REQUIRED);
ret = MoveCopyDriver(pcs);
SetThreadExecutionState(ES_CONTINUOUS);
if (pcs->bAbort)
{
ASSERT(pcs->lpfo == lpfo);
lpfo->fAnyOperationsAborted = TRUE;
}
if (bRecycledStuff)
{
SHUpdateRecycleBinIcon();
if (0 == SHGlobalCounterDecrement(g_hgcNumDeleters))
{
// We were the last guy who was deleting stuff. Thus, we need to
// check to see if any of the bitbuckets info files neeed compacting or purging
CheckCompactAndPurge();
}
}
if (pcs->lpCopyBuffer)
{
LocalFree((HLOCAL)pcs->lpCopyBuffer);
pcs->lpCopyBuffer = NULL;
}
if (pcs->lpua)
{
if (pcs->lpua->lpData && (pcs->lpua->lpData != (void *)-1))
{
AddUndoAtom(pcs->lpua);
}
else
{
FOUndo_Release(pcs->lpua);
NukeUndoAtom(pcs->lpua);
}
}
// NTRAID89119 (toddb): This code is totally busted in respect to mounted volumes.
// We will send a change notify for the drive on which your volume is mounted
// instead of on the volume which actually had a free space change. We need
// to update PathGetDriveNumber to handle mounted volumes
// notify of freespace changes
// rename doesn't change drive usage
if (lpfo->wFunc != FO_RENAME)
{
int idDriveSrc;
int idDriveDest = -1;
DWORD dwDrives = 0; // bitfield for drives
if (lpfo->wFunc == FO_COPY)
{
// nothing changes on the source
idDriveSrc = -1;
}
else
{
idDriveSrc = PathGetDriveNumber(lpfo->pFrom);
}
if (lpfo->pTo)
{
idDriveDest = PathGetDriveNumber(lpfo->pTo);
}
if ((lpfo->wFunc == FO_MOVE) && (idDriveDest == idDriveSrc))
{
// no freespace nothing changes
idDriveSrc = -1;
idDriveDest = -1;
}
// NTRAID89119: What if idDriveSrc or idDriveDest are > 32? This is totally
// possible under NT by using mounted volumes. SHChangeNotify is busted
// in this respect.
if (idDriveSrc != -1)
{
dwDrives |= (1 << idDriveSrc);
}
if (idDriveDest != -1)
{
dwDrives |= (1 << idDriveDest);
}
if (dwDrives)
{
SHChangeNotify(SHCNE_FREESPACE, SHCNF_DWORD, IntToPtr(dwDrives), 0);
}
}
SuspendUndo(FALSE);
if (!(lpfo->fFlags & FOF_WANTMAPPINGHANDLE))
{
SHFreeNameMappings(lpfo->hNameMappings);
lpfo->hNameMappings = NULL;
}
// shut down the progress dialog
//
// this is necessary so that the ui thread won't block
pcs->fProgressOk = TRUE;
ENTERCRITICAL; // need to take critsec to sync w/ the UI thread
pcs->fDone = TRUE;
if (pcs->hwndProgress)
{
PostMessage(pcs->hwndProgress, PDM_NOOP, 0, 0);
}
LEAVECRITICAL;
if (lpfo->hwnd)
{
EnableWindow(lpfo->hwnd, TRUE);
}
ReleasePCS(pcs);
return ret;
}
#ifdef UNICODE
int WINAPI SHFileOperationA(LPSHFILEOPSTRUCTA lpfo)
{
int iResult;
UINT uTotalSize;
UINT uSize;
UINT uSizeTitle;
UINT uSizeW;
SHFILEOPSTRUCTW shop;
LPCSTR lpAnsi;
LPWSTR lpBuffer;
LPWSTR lpTemp;
COMPILETIME_ASSERT(sizeof(SHFILEOPSTRUCTW) == sizeof(SHFILEOPSTRUCTA));
hmemcpy(&shop, lpfo, sizeof(SHFILEOPSTRUCTW));
//
// Thunk the strings as appropriate
//
uTotalSize = 0;
if (lpfo->pFrom)
{
lpAnsi = lpfo->pFrom;
do {
uSize = lstrlenA(lpAnsi) + 1;
uTotalSize += uSize;
lpAnsi += uSize;
} while (uSize != 1);
}
if (lpfo->pTo)
{
lpAnsi = lpfo->pTo;
do {
uSize = lstrlenA(lpAnsi) + 1;
uTotalSize += uSize;
lpAnsi += uSize;
} while (uSize != 1);
}
if ((lpfo->fFlags & FOF_SIMPLEPROGRESS) && lpfo->lpszProgressTitle != NULL)
{
uSizeTitle = lstrlenA(lpfo->lpszProgressTitle) + 1;
uTotalSize += uSizeTitle;
}
if (uTotalSize != 0)
{
lpTemp = lpBuffer = LocalAlloc(LPTR, uTotalSize*sizeof(WCHAR));
if (!lpBuffer)
{
SetLastError(ERROR_OUTOFMEMORY);
return ERROR_OUTOFMEMORY;
}
}
else
{
lpBuffer = NULL;
}
//
// Now convert the strings
//
if (lpfo->pFrom)
{
shop.pFrom = lpTemp;
lpAnsi = lpfo->pFrom;
do
{
uSize = lstrlenA(lpAnsi) + 1;
uSizeW = MultiByteToWideChar(CP_ACP, 0,
lpAnsi, uSize,
lpTemp, uSize);
lpAnsi += uSize;
lpTemp += uSizeW;
} while (uSize != 1);
}
else
{
shop.pFrom = NULL;
}
if (lpfo->pTo)
{
shop.pTo = lpTemp;
lpAnsi = lpfo->pTo;
do
{
uSize = lstrlenA(lpAnsi) + 1;
uSizeW = MultiByteToWideChar(CP_ACP, 0,
lpAnsi, uSize,
lpTemp, uSize);
lpAnsi += uSize;
lpTemp += uSizeW;
} while (uSize != 1);
}
else
{
shop.pTo = NULL;
}
if ((lpfo->fFlags & FOF_SIMPLEPROGRESS) && lpfo->lpszProgressTitle != NULL)
{
shop.lpszProgressTitle = lpTemp;
MultiByteToWideChar(CP_ACP, 0,
lpfo->lpszProgressTitle, uSizeTitle,
lpTemp, uSizeTitle);
}
else
{
shop.lpszProgressTitle = NULL;
}
iResult = SHFileOperationW(&shop);
// link up the two things in the SHFILEOPSTRUCT that could have changed
lpfo->fAnyOperationsAborted = shop.fAnyOperationsAborted;
lpfo->hNameMappings = shop.hNameMappings;
if (lpBuffer)
LocalFree(lpBuffer);
return iResult;
}
#else
int WINAPI SHFileOperationW(LPSHFILEOPSTRUCTW lpfo)
{
return E_NOTIMPL;
}
#endif
// In:
// pcs: copy_state structure containing the state of the copy
//
// feedback: If the estimated time to copmplete a copy is larger than
// MINTIME4FEEDBACK, the user is given a time to completion estimate in minutes.
// The estimate is calculated using a MS_RUNAVG seconds running average. The
// initial estimate is done after MS_TIMESLICE
void SetProgressTime(COPY_STATE *pcs)
{
DWORD dwNow = GetTickCount();
if (pcs->dwPreviousTime)
{
int iPointsTotal = CountProgressPoints(pcs, &pcs->dth.dtAll);
int iPointsDone = CountProgressPoints(pcs, &pcs->dth.dtDone);
int iPointsDelta = iPointsDone - pcs->iLastProgressPoints;
DWORD dwTimeLeft;
//
// A couple of times the shell has reported bad time remaining
// we need to find out why.
//
ASSERT(iPointsTotal >= 0);
ASSERT(iPointsDone >= 0);
ASSERT(iPointsTotal >= iPointsDone);
ASSERT(iPointsDelta >= 0);
// has enough time elapsed to update the display
// We do this every 10 seconds, but we'll do the first one after
// only a few seconds
if (iPointsDelta && (iPointsDone > 0) && (dwNow - pcs->dwPreviousTime))
{
DWORD dwPointsPerSec;
DWORD dwTime; // how many tenths of a second have gone by
// We take 10 times the number of Points and divide by the number of
// tenths of a second to minimize both overflow and roundoff
dwTime = (dwNow - pcs->dwPreviousTime)/100;
if (dwTime == 0)
dwTime = 1;
dwPointsPerSec = iPointsDelta * 10 / dwTime;
if (!dwPointsPerSec)
{
// This could happen if the net went to sleep for a couple
// minutes while trying to copy a small (512 byte) buffer
dwPointsPerSec = 1;
}
// if we didn't have enough time to get a good sample,
// don't use this last bit as a time estimater
if ((dwNow - pcs->dwPreviousTime) < (MS_TIMESLICE/2))
{
dwPointsPerSec = pcs->dwPointsPerSec;
}
if (pcs->dwPointsPerSec)
{
// Take a weighted average of the current transfer rate and the
// previously computed one, just to try to smooth out
// some random fluctuations
dwPointsPerSec = (dwPointsPerSec + (pcs->dwPointsPerSec * 2)) / 3;
}
// never allow 0 points per second.. just tack it on to next time
if (dwPointsPerSec)
{
pcs->dwPointsPerSec = dwPointsPerSec;
// Calculate time remaining (round up by adding 1)
// We only get here every 10 seconds, so always update
dwTimeLeft = ((iPointsTotal - iPointsDone) / dwPointsPerSec) + 1;
// It would be odd to show "1 second left" and then immediately
// clear it
if (dwTimeLeft >= MIN_MINTIME4FEEDBACK)
{
// display new estimate of time left
SetProgressTimeEst(pcs, dwTimeLeft);
}
}
}
// Reset previous time and # of Points read
pcs->dwPreviousTime = dwNow;
pcs->iLastProgressPoints = iPointsDone;
}
}
void InitClipConfirmDlg(HWND hDlg, CONFDLG_DATA *pcd)
{
TCHAR szMessage[255];
TCHAR szDeleteWarning[80];
SHFILEINFO sfiDest;
LPTSTR pszFileDest = NULL;
LPTSTR pszMsg, pszSource;
int i;
int cxWidth;
RECT rc;
// get the size of the text boxes
GetWindowRect(GetDlgItem(hDlg, pcd->idText), &rc);
cxWidth = rc.right - rc.left;
// get the source display name
pszSource = PathFindFileName(pcd->pFileSource);
PathCompactPath(NULL, pszSource, cxWidth);
// get the dest display name
SHGetFileInfo(pcd->pFileDest, 0,
&sfiDest, sizeof(sfiDest), SHGFI_DISPLAYNAME | SHGFI_USEFILEATTRIBUTES);
pszFileDest = sfiDest.szDisplayName;
PathCompactPath(NULL, pszFileDest, cxWidth);
// if we're supposed to show the date info, grab the icons and format the date string
if (pcd->bShowDates)
{
SHFILEINFO sfi2;
TCHAR szDateSrc[64], szDateDest[64];
// likely that this data may be incomplete... leave it saying "Unknown date and size"
if (BuildDateLine(szDateSrc, pcd->pfdSource, pcd->pFileSource))
SetDlgItemText(hDlg, IDD_FILEINFO_NEW, szDateSrc);
BuildDateLine(szDateDest, pcd->pfdDest, pcd->pFileDest);
SetDlgItemText(hDlg, IDD_FILEINFO_OLD, szDateDest);
SHGetFileInfo(pcd->pFileSource, pcd->pfdSource ? pcd->pfdSource->dwFileAttributes : 0, &sfi2, sizeof(sfi2),
pcd->pfdSource ? (SHGFI_USEFILEATTRIBUTES|SHGFI_ICON|SHGFI_LARGEICON) : (SHGFI_ICON|SHGFI_LARGEICON));
ReplaceDlgIcon(hDlg, IDD_ICON_NEW, sfi2.hIcon);
SHGetFileInfo(pcd->pFileDest, pcd->pfdDest ? pcd->pfdDest->dwFileAttributes : 0, &sfi2, sizeof(sfi2),
pcd->pfdDest ? (SHGFI_USEFILEATTRIBUTES|SHGFI_ICON|SHGFI_LARGEICON) : (SHGFI_ICON|SHGFI_LARGEICON));
ReplaceDlgIcon(hDlg, IDD_ICON_OLD, sfi2.hIcon);
}
// there are 5 controls:
// IDD_TEXT contains regular text (normal file/folder)
// IDD_TEXT1 through IDD_TEXT4 contain optional secondary text
for (i = IDD_TEXT; i <= IDD_TEXT4; i++)
{
if (i == pcd->idText)
{
szMessage[0] = 0;
GetDlgItemText(hDlg, i, szMessage, ARRAYSIZE(szMessage));
}
else
{
HWND hwndCtl = GetDlgItem(hDlg, i);
if (hwndCtl)
{
ShowWindow(hwndCtl, SW_HIDE);
}
}
}
szDeleteWarning[0] = 0;
pszMsg = ShellConstructMessageString(HINST_THISDLL, szMessage,
pszSource, pszFileDest, szDeleteWarning);
if (pszMsg)
{
SetDlgItemText(hDlg, pcd->idText, pszMsg);
LocalFree(pszMsg);
}
}
void FileDescToWin32FileData(LPFILEDESCRIPTOR pfdsc, LPWIN32_FIND_DATA pwfd)
{
ZeroMemory(pwfd, sizeof(*pwfd));
if (pfdsc->dwFlags & FD_ATTRIBUTES)
pwfd->dwFileAttributes = pfdsc->dwFileAttributes;
if (pfdsc->dwFlags & FD_CREATETIME)
hmemcpy(&pwfd->ftCreationTime, &pfdsc->ftCreationTime, sizeof(FILETIME));
if (pfdsc->dwFlags & FD_ACCESSTIME)
hmemcpy(&pwfd->ftLastAccessTime, &pfdsc->ftLastAccessTime, sizeof(FILETIME));
if (pfdsc->dwFlags & FD_WRITESTIME)
hmemcpy(&pwfd->ftLastWriteTime, &pfdsc->ftLastWriteTime, sizeof(FILETIME));
if (pfdsc->dwFlags & FD_FILESIZE)
{
pwfd->nFileSizeHigh = pfdsc->nFileSizeHigh;
pwfd->nFileSizeLow = pfdsc->nFileSizeLow;
}
lstrcpy(pwfd->cFileName, pfdsc->cFileName);
}
INT_PTR ValidateCreateFileFromClip(HWND hwnd, LPFILEDESCRIPTOR pfdscSrc, TCHAR *pszPathDest, PYNLIST pynl)
{
WIN32_FIND_DATA wfdSrc, wfdDest;
CONFDLG_DATA cdd;
CONFIRM_DATA cd;
COPY_STATE cs;
INT_PTR result;
//
// If the destination does not exist, we are done.
//
HANDLE hff = FindFirstFile(pszPathDest, &wfdDest);
if (hff == INVALID_HANDLE_VALUE)
{
return IDYES;
}
FindClose(hff);
//
// Maybe this was just a short name collision and
// we can quickly get out of here.
//
if (ResolveShortNameCollisions(pszPathDest, &wfdDest))
{
return IDYES;
}
//
// Most of the helper functions want a WIN32_FILE_DATA
// and not a FILEDESCRIPTOR, so we create wfd for the
// source file on the fly.
//
FileDescToWin32FileData(pfdscSrc, &wfdSrc);
//
// Take care of the easy cases - can't copy a file to a dir
// or a dir to a file.
//
if ((wfdDest.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) &&
((wfdSrc.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) == 0))
{
ZeroMemory(&cs, sizeof(cs));
cs.hwndDlgParent = hwnd;
CopyError(&cs, wfdSrc.cFileName, pszPathDest, DE_FILEDESTISFLD | ERRORONDEST, FO_COPY, OPER_DOFILE);
return IDNO;
}
else if (((wfdDest.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) == 0) &&
(wfdSrc.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY))
{
ZeroMemory(&cs, sizeof(cs));
cs.hwndDlgParent = hwnd;
CopyError(&cs, wfdSrc.cFileName, pszPathDest, DE_FLDDESTISFILE | ERRORONDEST, FO_COPY, OPER_DOFILE);
AddToNoList(pynl, pszPathDest);
return IDNO;
}
//
// We need a confirmation dialog. Fill in the
// ConfirmDialogData (cdd) here.
//
ZeroMemory(&cdd, sizeof(cdd));
cdd.InitConfirmDlg = InitClipConfirmDlg;
cdd.idText = IDD_TEXT;
cdd.pFileSource = pfdscSrc->cFileName;
cdd.pfdSource = &wfdSrc;
cdd.pFileDest = pszPathDest;
cdd.pfdDest = &wfdDest;
cdd.bShowDates = FALSE;
cdd.pcd = &cd;
ZeroMemory(&cd, sizeof(cd));
cd.fConfirm = CONFIRM_REPLACE_FILE;
cdd.fYesToAllMask = CONFIRM_REPLACE_FILE;
if (((wfdDest.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) == 0) &&
(wfdDest.dwFileAttributes & (FILE_ATTRIBUTE_SYSTEM | FILE_ATTRIBUTE_READONLY)))
{
if (wfdDest.dwFileAttributes & FILE_ATTRIBUTE_SYSTEM)
{
cdd.idText = IDD_TEXT2;
}
else if (wfdDest.dwFileAttributes & FILE_ATTRIBUTE_READONLY)
{
cdd.idText = IDD_TEXT1;
}
}
//
// What we do now depends on whether we are processing a directory
// or a file.
//
if (wfdDest.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)
{
//
// If this directory is already in the yes list,
// the parent directory must have already conflicted
// and the user said "yes, move the dir contents over".
//
if (IsInYesList(pynl, pszPathDest))
{
result = IDYES;
}
else
{
//
// Copying directory to a destination with the same directory.
//
result = DialogBoxParam(HINST_THISDLL, MAKEINTRESOURCE(DLG_REPLACE_FOLDER), hwnd, ConfirmDlgProc, (LPARAM)&cdd);
if (result == IDYES)
{
if (cd.fConfirm & CONFIRM_REPLACE_FILE)
{
AddToYesList(pynl, pszPathDest);
}
else
{
SetYesToAll(pynl);
}
}
else if (result == IDNO)
{
AddToNoList(pynl, pszPathDest);
}
}
}
else
{
if (IsInYesList(pynl, pszPathDest))
{
result = IDYES;
}
else
{
//
// Copying a file to a destination with the same file.
//
cdd.bShowDates = TRUE;
result = DialogBoxParam(HINST_THISDLL, MAKEINTRESOURCE(DLG_REPLACE_FILE), hwnd, ConfirmDlgProc, (LPARAM)&cdd);
if (result == IDYES)
{
if ((cd.fConfirm & CONFIRM_REPLACE_FILE) == 0)
{
SetYesToAll(pynl);
}
}
}
}
return result;
}
// We can get transient file locks for moving files, for example extracting a thumbnail on a background task
// so we wrap our single check in a loop of multiple checks with a short nap between. We'd expect
// to get the ERROR_SHARING_VIOLATION, but in practice we also say ERROR_ACCESS_DENIED, so we'll try that
// as well
#define MAX_DELETE_ATTEMPTS 5
#define SLEEP_DELETE_ATTEMPT 1000
BOOL _IsFileDeletable(LPCTSTR pszFile)
{
int iAttempt = 0;
BOOL bRet;
while (!(bRet = IsFileDeletable(pszFile)) && (iAttempt < MAX_DELETE_ATTEMPTS))
{
DWORD dwError = GetLastError();
if ((dwError == ERROR_ACCESS_DENIED) || (dwError == ERROR_SHARING_VIOLATION))
{
iAttempt++;
Sleep(SLEEP_DELETE_ATTEMPT);
}
else
{
break;
}
}
return (bRet);
}
BOOL _IsDirectoryDeletable(LPCTSTR pszDir)
{
int iAttempt = 0;
BOOL bRet;
while (!(bRet = IsDirectoryDeletable(pszDir)) && (iAttempt < MAX_DELETE_ATTEMPTS))
{
DWORD dwError = GetLastError();
if ((dwError == ERROR_ACCESS_DENIED) || (dwError == ERROR_SHARING_VIOLATION))
{
iAttempt++;
Sleep(SLEEP_DELETE_ATTEMPT);
}
else
{
break;
}
}
return (bRet);
}
// This function adds up the sizes of the files in pszDir, and
// also makes sure that all those files are "delete-able"
//
// return: ERROR_SUCCESS - everything is fine, all the files in the dir are deleteable
// else - the dir cant be deleted because something inside is non-deletable
//
// NOTE: other in-out params are in the pfdi
//
LONG CheckFolderSizeAndDeleteability(LPCTSTR pszDir, FOLDERDELETEINFO* pfdi, LPCOPY_STATE pcs)
{
LONG lRet = ERROR_SUCCESS; // keep stack to a minimum as this is a recursive function!
BOOL bHasChildren = FALSE;
if (FOQueryAbort(pcs))
return ERROR_CANCELLED;
if (NULL == pszDir)
return E_INVALIDARG;
// do the root specific processing
if (!pfdi->bProcessedRoot)
{
// since the the destination folder could be something like "DC100000.oldext", calculate how many characters are
// going to be in the new destination directory: "C:\recycler\sid" + "\" + "DC100000.oldext" == the new root directory length
pfdi->cchDelta = (pfdi->cchBBDir + 1 + 8 + 1 + lstrlen(PathFindExtension(pszDir))) - lstrlen(pszDir);
// set this so that we only do the above processing for the root folder
pfdi->bProcessedRoot = TRUE;
}
if (PathCombine(pfdi->szPath, pszDir, c_szStarDotStar))
{
HANDLE hfind = FindFirstFile(pfdi->szPath, &pfdi->fd);
// remove the *.* we added, because we will be recycling this buffer
PathRemoveFileSpec(pfdi->szPath);
if (hfind != INVALID_HANDLE_VALUE)
{
do
{
if (!PathIsDotOrDotDot(pfdi->fd.cFileName))
{
bHasChildren = TRUE;
// append the subfile/subfolder to the parent path
if (!PathAppend(pfdi->szPath, pfdi->fd.cFileName))
{
// PathAppend failed, try to append the short name
if (!pfdi->fd.cAlternateFileName[0] || !PathAppend(pfdi->szPath, pfdi->fd.cAlternateFileName))
{
// no alternate name or we failed to append that as well, assume we failed because the path is too long
lRet = ERROR_FILENAME_EXCED_RANGE;
// pass back the name of the non-deleteable file/folder in pfdi->szNonDeletableFile
lstrcpyn(pfdi->szNonDeletableFile, pfdi->szPath, ARRAYSIZE(pfdi->szNonDeletableFile));
}
}
if (lRet == ERROR_SUCCESS)
{
// we have to check to see if the path will exceed MAX_PATH if we were to move this file to the recycle
// bin (C:\Recycler\<sid>). the increase in path length due to the recycle bin dir could be enough to
// put us over MAX_PATH and we would have problems later.
if ((lstrlen(pfdi->szPath) + pfdi->cchDelta + 1) > MAX_PATH) // +1 for NULL
{
TraceMsg(TF_BITBUCKET, "CheckFolderSizeAndDeleteability: path '%s' would exceed MAX_PATH if moved to the recycle bin!", pfdi->szPath);
lRet = ERROR_FILENAME_EXCED_RANGE;
// pass back the name of the non-deleteable file/folder in pfdi->szNonDeletableFile
lstrcpyn(pfdi->szNonDeletableFile, pfdi->szPath, ARRAYSIZE(pfdi->szNonDeletableFile));
}
else
{
if (pfdi->fd.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)
{
// its a directory, so recurse
lRet = CheckFolderSizeAndDeleteability(pfdi->szPath, pfdi, pcs);
}
else
{
// its a file.
ULARGE_INTEGER ulTemp;
if (!_IsFileDeletable(pfdi->szPath))
{
// we cant delete this file, find out why
lRet = GetLastError();
ASSERT(lRet != ERROR_SUCCESS);
// pass back the name of the non-deleteable file in pfdi->szNonDeletableFile
lstrcpyn(pfdi->szNonDeletableFile, pfdi->szPath, ARRAYSIZE(pfdi->szNonDeletableFile));
}
ulTemp.LowPart = pfdi->fd.nFileSizeLow;
ulTemp.HighPart = pfdi->fd.nFileSizeHigh;
pfdi->cbSize += ulTemp.QuadPart;
}
}
}
// remove the file/dir name we appended
PathRemoveFileSpec(pfdi->szPath);
}
} while ((lRet == ERROR_SUCCESS) && FindNextFile(hfind, &pfdi->fd));
FindClose(hfind);
// if this dir has no children, see if we can simply delete it
if (!bHasChildren && !_IsDirectoryDeletable(pszDir))
{
lRet = GetLastError();
ASSERT(lRet != ERROR_SUCCESS);
// pass back the name of the non-deleteable file in pfdi->szNonDeletableFile
lstrcpyn(pfdi->szNonDeletableFile, pszDir, ARRAYSIZE(pfdi->szNonDeletableFile));
}
}
else
{
// if FindFirstFile fails, check to see if the directory itself is deleteable
if (!_IsDirectoryDeletable(pszDir))
{
lRet = GetLastError();
ASSERT(lRet != ERROR_SUCCESS);
// pass back the name of the non-deleteable file in pfdi->szNonDeletableFile
lstrcpyn(pfdi->szNonDeletableFile, pszDir, ARRAYSIZE(pfdi->szNonDeletableFile));
}
}
}
else
{
// if PathCombine fails, assume its because the path is too long
lRet = ERROR_FILENAME_EXCED_RANGE;
// pass back the name of the non-deleteable file in pfdi->szNonDeletableFile
lstrcpyn(pfdi->szNonDeletableFile, pszDir, ARRAYSIZE(pfdi->szNonDeletableFile));
}
return lRet;
}
// This takes over for what BBDeleteFile used to do (init, check, delete)... but does it with the ability to cancel
BOOL DeleteFileBB(LPTSTR pszFile, INT *piRet, COPY_STATE *pcs, BOOL fIsDir, WIN32_FIND_DATA *pfd, HDPA *phdpaDeletedFiles)
{
ULARGE_INTEGER ulSize;
int idDrive = DriveIDFromBBPath(pszFile);
// Init
if (!BBDeleteFileInit(pszFile, piRet))
return FALSE;
// Check if we can delete this properly
if (fIsDir)
{
DWORD dwError;
FOLDERDELETEINFO fdi = {0};
fdi.cchBBDir = BBRecyclePathLength(idDrive);
dwError = CheckFolderSizeAndDeleteability(pszFile, &fdi, pcs);
if (dwError != ERROR_SUCCESS)
{
// if CheckFolderSizeAndDeleteability can fail if a file cant be recycled.
// In this case, it appends the name of the file to pszFile, so we know who
// the undeletable file is.
if ((dwError == ERROR_FILENAME_EXCED_RANGE) ||
(dwError == ERROR_BUFFER_OVERFLOW))
{
// it failed because a new path would be to long after being moveed under the "C:\recycler\sid" directory
*piRet = BBDELETE_PATH_TOO_LONG;
}
else if (dwError == ERROR_CANCELLED)
{
// user hit the cancel button
*piRet = BBDELETE_CANCELLED;
}
else
{
// must be a non-deletable directory, so set piRet = BBDELETE_CANNOT_DELETE so our caller
// can detect this case, also pass the name of the non-deletable file back out so we can give
// a better error message to the user
*piRet = BBDELETE_CANNOT_DELETE;
ASSERT(*fdi.szPath);
lstrcpy(pszFile, fdi.szNonDeletableFile);
}
TraceMsg(TF_BITBUCKET, "DeleteFileBB : early error (%x) on file (%s)", dwError, pszFile);
return FALSE;
}
ulSize.QuadPart = fdi.cbSize;
}
else
{
if (!_IsFileDeletable(pszFile))
{
// We set piRet = BBDELETE_CANNOT_DELETE so our caller can detect
// that this file cant be recycled.
*piRet = BBDELETE_CANNOT_DELETE;
return FALSE;
}
ulSize.LowPart = pfd->nFileSizeLow;
ulSize.HighPart = pfd->nFileSizeHigh;
}
// check to make sure it's not bigger than the allowed wastebasket..
if (!BBCheckDeleteFileSize(idDrive, ulSize))
{
// we set piRet = BBDELETE_SIZE_TOO_BIG so our caller can
// detect the "file/folder too big" case
*piRet = BBDELETE_SIZE_TOO_BIG;
return FALSE;
}
return BBDeleteFile(pszFile, piRet, pcs->lpua, fIsDir, phdpaDeletedFiles, ulSize);
}
void StartCopyEngine(HANDLE *phEventRunning)
{
*phEventRunning = CreateEvent(CreateAllAccessSecurityAttributes(NULL, NULL, NULL), TRUE, FALSE, L"ShellCopyEngineRunning");
if (*phEventRunning)
{
SetEvent(*phEventRunning);
}
}
void EndCopyEngine(HANDLE hEventRunning)
{
// signal that we're done. this will always trigger so there will be some weirdness if the
// user does simultaneous copies, but it's not worth making a semaphore to keep track.
HANDLE hEventFinished = CreateEvent(CreateAllAccessSecurityAttributes(NULL, NULL, NULL), TRUE, FALSE, L"ShellCopyEngineFinished");
if (hEventFinished)
{
SetEvent(hEventFinished);
CloseHandle(hEventFinished);
}
if (hEventRunning)
{
// close out the event that says we're running.
ResetEvent(hEventRunning);
CloseHandle(hEventRunning);
}
}
BOOL IsCopyEngineRunning()
{
BOOL bRet=FALSE;
HANDLE hEventCopyRunning = OpenEvent(SYNCHRONIZE, FALSE, L"ShellCopyEngineRunning");
if (hEventCopyRunning)
{
// probe the event with a wait, if it times out the copy engine isn't running so we're done.
bRet = (WAIT_OBJECT_0 == WaitForSingleObject(hEventCopyRunning, 0));
CloseHandle(hEventCopyRunning);
}
return bRet;
}