|
|
#include "shellprv.h"
#pragma hdrstop
#include "netview.h"
// drivesx.c
DWORD PathGetClusterSize(LPCTSTR pszPath);
// get connection information including disconnected drives
//
// in:
// pszDev device name "A:" "LPT1:", etc.
// bConvertClosed
// if FALSE closed or error drives will be converted to
// WN_SUCCESS return codes. if TRUE return not connected
// and error state values (ie, the caller knows about not
// connected and error state drives)
//
// out:
// lpPath filled with net name if return is WN_SUCCESS (or not connected/error)
// returns:
// WN_* error code
DWORD GetConnection(LPCTSTR pszDev, LPTSTR pszPath, UINT cchPath, BOOL bConvertClosed) { DWORD err; int iType = DriveType(DRIVEID(pszDev)); if (DRIVE_REMOVABLE == iType || DRIVE_FIXED == iType || DRIVE_CDROM == iType || DRIVE_RAMDISK == iType) err = WN_NOT_CONNECTED; else { err = SHWNetGetConnection((LPTSTR)pszDev, pszPath, &cchPath);
if (!bConvertClosed) if (err == WN_CONNECTION_CLOSED || err == WN_DEVICE_ERROR) err = WN_SUCCESS; } return err; }
// this is called for every drive at init time so it must
// be sure to not trigget things like the phantom B: drive support
//
// in:
// iDrive zero based drive number (0 = A, 1 = B)
//
// returns:
// 0 not a net drive
// 1 is a net drive, properly connected
// 2 disconnected/error state connection
STDAPI_(int) IsNetDrive(int iDrive) { if ((iDrive >= 0) && (iDrive < 26)) { DWORD err; TCHAR szDrive[4], szConn[MAX_PATH]; // this really should be WNBD_MAX_LENGTH
PathBuildRoot(szDrive, iDrive);
err = GetConnection(szDrive, szConn, ARRAYSIZE(szConn), TRUE);
if (err == WN_SUCCESS) return 1;
if (err == WN_CONNECTION_CLOSED || err == WN_DEVICE_ERROR) if ((GetLogicalDrives() & (1 << iDrive)) == 0) return 2; } return 0; }
typedef BOOL (WINAPI* PFNISPATHSHARED)(LPCTSTR pszPath, BOOL fRefresh);
HMODULE g_hmodShare = (HMODULE)-1; PFNISPATHSHARED g_pfnIsPathShared = NULL;
// ask the share provider if this path is shared
BOOL IsShared(LPNCTSTR pszPath, BOOL fUpdateCache) { TCHAR szPath[MAX_PATH];
// See if we have already tried to load this in this context
if (g_hmodShare == (HMODULE)-1) { LONG cb = sizeof(szPath);
g_hmodShare = NULL; // asume failure
SHRegQueryValue(HKEY_CLASSES_ROOT, TEXT("Network\\SharingHandler"), szPath, &cb); if (szPath[0]) { g_hmodShare = LoadLibrary(szPath); if (g_hmodShare) g_pfnIsPathShared = (PFNISPATHSHARED)GetProcAddress(g_hmodShare, "IsPathSharedW"); } }
if (g_pfnIsPathShared) { #ifdef ALIGNMENT_SCENARIO
ualstrcpyn(szPath, pszPath, ARRAYSIZE(szPath)); return g_pfnIsPathShared(szPath, fUpdateCache); #else
return g_pfnIsPathShared(pszPath, fUpdateCache); #endif
}
return FALSE; }
// invalidate the DriveType cache for one entry, or all
STDAPI_(void) InvalidateDriveType(int iDrive) {}
#define ROUND_TO_CLUSER(qw, dwCluster) ((((qw) + (dwCluster) - 1) / dwCluster) * dwCluster)
//
// GetCompresedFileSize is NT only, so we only implement the SHGetCompressedFileSizeW
// version. This will return the size of the file on disk rounded to the cluster size.
//
STDAPI_(DWORD) SHGetCompressedFileSizeW(LPCWSTR pszFileName, LPDWORD pFileSizeHigh) { DWORD dwClusterSize; ULARGE_INTEGER ulSizeOnDisk;
if (!pszFileName || !pszFileName[0]) { ASSERT(FALSE); *pFileSizeHigh = 0; return 0; }
dwClusterSize = PathGetClusterSize(pszFileName);
ulSizeOnDisk.LowPart = GetCompressedFileSizeW(pszFileName, &ulSizeOnDisk.HighPart);
if ((ulSizeOnDisk.LowPart == (DWORD)-1) && (GetLastError() != NO_ERROR)) { WIN32_FILE_ATTRIBUTE_DATA fad;
TraceMsg(TF_WARNING, "GetCompressedFileSize failed on %s (lasterror = %x)", pszFileName, GetLastError());
if (GetFileAttributesExW(pszFileName, GetFileExInfoStandard, &fad)) { // use the normal size, but round it to the cluster size
ulSizeOnDisk.LowPart = fad.nFileSizeLow; ulSizeOnDisk.HighPart = fad.nFileSizeHigh; ROUND_TO_CLUSER(ulSizeOnDisk.QuadPart, dwClusterSize); } else { // since both GetCompressedFileSize and GetFileAttributesEx failed, we
// just return zero
ulSizeOnDisk.QuadPart = 0; } }
// for files < one cluster, GetCompressedFileSize returns real size so we need
// to round it up to one cluster
if (ulSizeOnDisk.QuadPart < dwClusterSize) { ulSizeOnDisk.QuadPart = dwClusterSize; }
*pFileSizeHigh = ulSizeOnDisk.HighPart; return ulSizeOnDisk.LowPart; }
STDAPI_(BOOL) SHGetDiskFreeSpaceEx(LPCTSTR pszDirectoryName, PULARGE_INTEGER pulFreeBytesAvailableToCaller, PULARGE_INTEGER pulTotalNumberOfBytes, PULARGE_INTEGER pulTotalNumberOfFreeBytes) { BOOL bRet = GetDiskFreeSpaceEx(pszDirectoryName, pulFreeBytesAvailableToCaller, pulTotalNumberOfBytes, pulTotalNumberOfFreeBytes); if (bRet) { #ifdef DEBUG
if (pulTotalNumberOfFreeBytes) { DWORD dw, dwSize = sizeof(dw); if (ERROR_SUCCESS == SHRegGetUSValue(TEXT("SOFTWARE\\Microsoft\\Windows\\CurrentVersion\\Explorer\\DiskSpace"), pszDirectoryName, NULL, &dw, &dwSize, TRUE, NULL, 0)) { pulTotalNumberOfFreeBytes->QuadPart = dw * (ULONGLONG)0x100000; // convert to MB
} } #endif
} return bRet; }
#ifdef UNICODE
BOOL SHGetDiskFreeSpaceExA(LPCSTR pszDirectoryName, PULARGE_INTEGER pulFreeBytesAvailableToCaller, PULARGE_INTEGER pulTotalNumberOfBytes, PULARGE_INTEGER pulTotalNumberOfFreeBytes) { TCHAR szName[MAX_PATH];
SHAnsiToTChar(pszDirectoryName, szName, SIZECHARS(szName)); return SHGetDiskFreeSpaceEx(szName, pulFreeBytesAvailableToCaller, pulTotalNumberOfBytes, pulTotalNumberOfFreeBytes); } #else
BOOL SHGetDiskFreeSpaceExW(LPCWSTR pszDirectoryName, PULARGE_INTEGER pulFreeBytesAvailableToCaller, PULARGE_INTEGER pulTotalNumberOfBytes, PULARGE_INTEGER pulTotalNumberOfFreeBytes) { TCHAR szName[MAX_PATH];
SHUnicodeToTChar(pszDirectoryName, szName, SIZECHARS(szName)); return SHGetDiskFreeSpaceEx(szName, pulFreeBytesAvailableToCaller, pulTotalNumberOfBytes, pulTotalNumberOfFreeBytes); }
#endif
|