Ejemplo n.º 1
0
/**
 *  This method is called to get the contacts service icon data.
 *
 *  The parameters sent to us are:
 *  pValues - An IPortableDeviceValues to be populated with the icon data
 *
 *  The driver should:
 *  Retrieve the icon data and set it in pValues for PKEY_Services_ServiceIcon
 */
HRESULT FakeContactsServiceContent::GetIconData(
    __out   IPortableDeviceValues* pStore)
{
    HRESULT hr         = S_OK;
    PBYTE   pIconData  = NULL;
    DWORD   cbIconData = 0;

    if (pStore == NULL)
    {
        hr = E_POINTER;
        CHECK_HR(hr, "Cannot have NULL parameter");
        return hr;
    }

    pIconData = GetResourceData(IDR_WPD_SAMPLEDRIVER_SERVICE_ICON);
    cbIconData = GetResourceSize(IDR_WPD_SAMPLEDRIVER_SERVICE_ICON);

    if ((pIconData == NULL) || (cbIconData == 0))
    {
        hr = E_UNEXPECTED;
        CHECK_HR(hr, "Failed to get resource representing the service icon data");
    }

    if (hr == S_OK)
    {
        hr = pStore->SetBufferValue(PKEY_Services_ServiceIcon, pIconData, cbIconData);
        CHECK_HR(hr, "Failed to copy the icon data to IPortableDeviceValues");
    }

    return hr;
}
Ejemplo n.º 2
0
/*
 * Print the rVersion comment passed as a parameter.
 */
static void
PrintCommentResource(ptr rezPtr)
{
	LongWord	rez_len;
	rez_len = GetResourceSize(0x802A,1);
	Print8bitText(rezPtr, rez_len);
	putchar('\n');
}
Ejemplo n.º 3
0
 void OpenGLMesh::Load ( uint32_t aId )
 {
     std::vector<uint8_t> buffer ( GetResourceSize ( aId ), 0 );
     LoadResource ( aId, buffer.data(), buffer.size() );
     try
     {
         Load ( buffer.data(), buffer.size() );
     }
     catch ( ... )
     {
         Unload();
         throw;
     }
 }
Ejemplo n.º 4
0
/*
 * Create a partition table
 * See http://technet.microsoft.com/en-us/library/cc739412.aspx for some background info
 * NB: if you modify the MBR outside of using the Windows API, Windows still uses the cached
 * copy it got from the last IOCTL, and ignores your changes until you replug the drive
 * or issue an IOCTL_DISK_UPDATE_PROPERTIES.
 */
BOOL CreatePartition(HANDLE hDrive, int partition_style, int file_system, BOOL mbr_uefi_marker, uint8_t extra_partitions)
{
	const char* PartitionTypeName[2] = { "MBR", "GPT" };
	unsigned char* buffer;
	size_t uefi_ntfs_size = 0;
	CREATE_DISK CreateDisk = {PARTITION_STYLE_RAW, {{0}}};
	DRIVE_LAYOUT_INFORMATION_EX4 DriveLayoutEx = {0};
	BOOL r;
	DWORD i, size, bufsize, pn = 0;
	LONGLONG main_part_size_in_sectors, extra_part_size_in_tracks = 0, ms_efi_size;
	const LONGLONG bytes_per_track = ((LONGLONG)SelectedDrive.Geometry.SectorsPerTrack) * SelectedDrive.Geometry.BytesPerSector;

	PrintInfoDebug(0, MSG_238, PartitionTypeName[partition_style]);

	if (extra_partitions & XP_UEFI_NTFS) {
		uefi_ntfs_size = GetResourceSize(hMainInstance, MAKEINTRESOURCEA(IDR_UEFI_NTFS), _RT_RCDATA, "uefi-ntfs.img");
		if (uefi_ntfs_size == 0)
			return FALSE;
	}

	// Compute the start offset of our first partition
	if ((partition_style == PARTITION_STYLE_GPT) || (!IsChecked(IDC_EXTRA_PARTITION))) {
		// Go with the MS 1 MB wastage at the beginning...
		DriveLayoutEx.PartitionEntry[pn].StartingOffset.QuadPart = MB;
	} else {
		// Align on Cylinder
		DriveLayoutEx.PartitionEntry[pn].StartingOffset.QuadPart = bytes_per_track;
	}

	// If required, set the MSR partition (GPT only - must be created before the data part)
	if ((partition_style == PARTITION_STYLE_GPT) && (extra_partitions & XP_MSR)) {
		uprintf("Adding MSR partition");
		DriveLayoutEx.PartitionEntry[pn].PartitionLength.QuadPart = 128*MB;
		DriveLayoutEx.PartitionEntry[pn].Gpt.PartitionType = PARTITION_MSFT_RESERVED_GUID;
		IGNORE_RETVAL(CoCreateGuid(&DriveLayoutEx.PartitionEntry[pn].Gpt.PartitionId));
		// coverity[strcpy_overrun]
		wcscpy(DriveLayoutEx.PartitionEntry[pn].Gpt.Name, L"Microsoft reserved partition");

		// We must zero the beginning of this partition, else we get FAT leftovers and stuff
		if (SetFilePointerEx(hDrive, DriveLayoutEx.PartitionEntry[pn].StartingOffset, NULL, FILE_BEGIN)) {
			bufsize = 65536;	// 64K should be enough for everyone
			buffer = calloc(bufsize, 1);
			if (buffer != NULL) {
				if (!WriteFileWithRetry(hDrive, buffer, bufsize, &size, WRITE_RETRIES))
					uprintf("  Could not zero MSR: %s", WindowsErrorString());
				free(buffer);
			}
		}

		pn++;
		DriveLayoutEx.PartitionEntry[pn].StartingOffset.QuadPart = DriveLayoutEx.PartitionEntry[pn-1].StartingOffset.QuadPart +
				DriveLayoutEx.PartitionEntry[pn-1].PartitionLength.QuadPart;
	}

	// Set our main data partition
	main_part_size_in_sectors = (SelectedDrive.DiskSize - DriveLayoutEx.PartitionEntry[pn].StartingOffset.QuadPart) /
		// Need 33 sectors at the end for secondary GPT
		SelectedDrive.Geometry.BytesPerSector - ((partition_style == PARTITION_STYLE_GPT)?33:0);
	if (main_part_size_in_sectors <= 0)
		return FALSE;

	// Adjust the size according to extra partitions (which we always align to a track)
	if (extra_partitions) {
		uprintf("Adding extra partition");
		if (extra_partitions & XP_EFI) {
			// The size of the EFI partition depends on the minimum size we're able to format in FAT32,
			// which in turn depends on the cluster size used, which in turn depends on the disk sector size.
			if (SelectedDrive.Geometry.BytesPerSector <= 1024)
				ms_efi_size = 100*MB;
			else if (SelectedDrive.Geometry.BytesPerSector <= 4096)
				ms_efi_size = 300*MB;
			else
				ms_efi_size = 1200*MB;	// That'll teach you to have a nonstandard disk!
			extra_part_size_in_tracks = (ms_efi_size + bytes_per_track - 1) / bytes_per_track;
		} else if (extra_partitions & XP_UEFI_NTFS)
			extra_part_size_in_tracks = (MIN_EXTRA_PART_SIZE + bytes_per_track - 1) / bytes_per_track;
		else if (extra_partitions & XP_COMPAT)
			extra_part_size_in_tracks = 1;	// One track for the extra partition
		uprintf("Reserved %" PRIi64" tracks (%s) for extra partition", extra_part_size_in_tracks,
			SizeToHumanReadable(extra_part_size_in_tracks * bytes_per_track, TRUE, FALSE));
		main_part_size_in_sectors = ((main_part_size_in_sectors / SelectedDrive.Geometry.SectorsPerTrack) -
			extra_part_size_in_tracks) * SelectedDrive.Geometry.SectorsPerTrack;
		if (main_part_size_in_sectors <= 0)
			return FALSE;
	}
	DriveLayoutEx.PartitionEntry[pn].PartitionLength.QuadPart = main_part_size_in_sectors * SelectedDrive.Geometry.BytesPerSector;
	if (partition_style == PARTITION_STYLE_MBR) {
		DriveLayoutEx.PartitionEntry[pn].Mbr.BootIndicator = IsChecked(IDC_BOOT);
		switch (file_system) {
		case FS_FAT16:
			DriveLayoutEx.PartitionEntry[pn].Mbr.PartitionType = 0x0e;	// FAT16 LBA
			break;
		case FS_NTFS:
		case FS_EXFAT:
		case FS_UDF:
		case FS_REFS:
			DriveLayoutEx.PartitionEntry[pn].Mbr.PartitionType = 0x07;
			break;
		case FS_FAT32:
			DriveLayoutEx.PartitionEntry[pn].Mbr.PartitionType = 0x0c;	// FAT32 LBA
			break;
		default:
			uprintf("Unsupported file system\n");
			return FALSE;
		}
	} else {
		DriveLayoutEx.PartitionEntry[pn].Gpt.PartitionType = PARTITION_BASIC_DATA_GUID;
		IGNORE_RETVAL(CoCreateGuid(&DriveLayoutEx.PartitionEntry[pn].Gpt.PartitionId));
		wcscpy(DriveLayoutEx.PartitionEntry[pn].Gpt.Name, L"Microsoft Basic Data");
	}
	pn++;

	// Set the optional extra partition
	if (extra_partitions) {
		// Should end on a track boundary
		DriveLayoutEx.PartitionEntry[pn].StartingOffset.QuadPart = DriveLayoutEx.PartitionEntry[pn-1].StartingOffset.QuadPart +
			DriveLayoutEx.PartitionEntry[pn-1].PartitionLength.QuadPart;
		DriveLayoutEx.PartitionEntry[pn].PartitionLength.QuadPart = (extra_partitions & XP_UEFI_NTFS)?uefi_ntfs_size:
			extra_part_size_in_tracks * SelectedDrive.Geometry.SectorsPerTrack * SelectedDrive.Geometry.BytesPerSector;
		if (partition_style == PARTITION_STYLE_GPT) {
			DriveLayoutEx.PartitionEntry[pn].Gpt.PartitionType = (extra_partitions & XP_UEFI_NTFS)?
				PARTITION_BASIC_DATA_GUID:PARTITION_SYSTEM_GUID;
			IGNORE_RETVAL(CoCreateGuid(&DriveLayoutEx.PartitionEntry[pn].Gpt.PartitionId));
			wcscpy(DriveLayoutEx.PartitionEntry[pn].Gpt.Name, (extra_partitions & XP_UEFI_NTFS)?L"UEFI:NTFS":L"EFI system partition");
		} else {
			DriveLayoutEx.PartitionEntry[pn].Mbr.PartitionType = (extra_partitions & XP_UEFI_NTFS)?0xef:RUFUS_EXTRA_PARTITION_TYPE;
			if (extra_partitions & XP_COMPAT)
				// Set the one track compatibility partition to be all hidden sectors
				DriveLayoutEx.PartitionEntry[pn].Mbr.HiddenSectors = SelectedDrive.Geometry.SectorsPerTrack;
		}

		// We need to write the UEFI:NTFS partition before we refresh the disk
		if (extra_partitions & XP_UEFI_NTFS) {
			uprintf("Writing UEFI:NTFS partition...");
			if (!SetFilePointerEx(hDrive, DriveLayoutEx.PartitionEntry[pn].StartingOffset, NULL, FILE_BEGIN)) {
				uprintf("Unable to set position");
				return FALSE;
			}
			buffer = GetResource(hMainInstance, MAKEINTRESOURCEA(IDR_UEFI_NTFS), _RT_RCDATA, "uefi-ntfs.img", &bufsize, FALSE);
			if (buffer == NULL) {
				uprintf("Could not access uefi-ntfs.img");
				return FALSE;
			}
			if(!WriteFileWithRetry(hDrive, buffer, bufsize, &size, WRITE_RETRIES)) {
				uprintf("Write error: %s", WindowsErrorString());
				return FALSE;
			}
		}
		pn++;
	}

	// Initialize the remaining partition data
	for (i = 0; i < pn; i++) {
		DriveLayoutEx.PartitionEntry[i].PartitionNumber = i+1;
		DriveLayoutEx.PartitionEntry[i].PartitionStyle = partition_style;
		DriveLayoutEx.PartitionEntry[i].RewritePartition = TRUE;
	}

	switch (partition_style) {
	case PARTITION_STYLE_MBR:
		CreateDisk.PartitionStyle = PARTITION_STYLE_MBR;
		// If MBR+UEFI is selected, write an UEFI marker in lieu of the regular MBR signature.
		// This helps us reselect the partition scheme option that was used when creating the
		// drive in Rufus. As far as I can tell, Windows doesn't care much if this signature
		// isn't unique for USB drives.
		CreateDisk.Mbr.Signature = mbr_uefi_marker?MBR_UEFI_MARKER:(DWORD)_GetTickCount64();

		DriveLayoutEx.PartitionStyle = PARTITION_STYLE_MBR;
		DriveLayoutEx.PartitionCount = 4;	// Must be multiple of 4 for MBR
		DriveLayoutEx.Type.Mbr.Signature = CreateDisk.Mbr.Signature;
		// TODO: CHS fixup (32 sectors/track) through a cheat mode, if requested
		// NB: disk geometry is computed by BIOS & co. by finding a match between LBA and CHS value of first partition
		//     ms-sys's write_partition_number_of_heads() and write_partition_start_sector_number() can be used if needed
		break;
	case PARTITION_STYLE_GPT:
		// TODO: (?) As per MSDN: "When specifying a GUID partition table (GPT) as the PARTITION_STYLE of the CREATE_DISK
		// structure, an application should wait for the MSR partition arrival before sending the IOCTL_DISK_SET_DRIVE_LAYOUT_EX
		// control code. For more information about device notification, see RegisterDeviceNotification."

		CreateDisk.PartitionStyle = PARTITION_STYLE_GPT;
		IGNORE_RETVAL(CoCreateGuid(&CreateDisk.Gpt.DiskId));
		CreateDisk.Gpt.MaxPartitionCount = MAX_GPT_PARTITIONS;

		DriveLayoutEx.PartitionStyle = PARTITION_STYLE_GPT;
		DriveLayoutEx.PartitionCount = pn;
		// At the very least, a GPT disk has 34 reserved sectors at the beginning and 33 at the end.
		DriveLayoutEx.Type.Gpt.StartingUsableOffset.QuadPart = 34 * SelectedDrive.Geometry.BytesPerSector;
		DriveLayoutEx.Type.Gpt.UsableLength.QuadPart = SelectedDrive.DiskSize - (34+33) * SelectedDrive.Geometry.BytesPerSector;
		DriveLayoutEx.Type.Gpt.MaxPartitionCount = MAX_GPT_PARTITIONS;
		DriveLayoutEx.Type.Gpt.DiskId = CreateDisk.Gpt.DiskId;
		break;
	}

	// If you don't call IOCTL_DISK_CREATE_DISK, the next call will fail
	size = sizeof(CreateDisk);
	r = DeviceIoControl(hDrive, IOCTL_DISK_CREATE_DISK, (BYTE*)&CreateDisk, size, NULL, 0, &size, NULL );
	if (!r) {
		uprintf("Could not reset disk: %s\n", WindowsErrorString());
		return FALSE;
	}

	size = sizeof(DriveLayoutEx) - ((partition_style == PARTITION_STYLE_GPT)?((4-pn)*sizeof(PARTITION_INFORMATION_EX)):0);
	r = DeviceIoControl(hDrive, IOCTL_DISK_SET_DRIVE_LAYOUT_EX, (BYTE*)&DriveLayoutEx, size, NULL, 0, &size, NULL );
	if (!r) {
		uprintf("Could not set drive layout: %s\n", WindowsErrorString());
		return FALSE;
	}

	if (!RefreshDriveLayout(hDrive))
		return FALSE;

	return TRUE;
}
FString USubstanceImageInput::GetDesc()
{
	return FString::Printf( TEXT("%dx%d (%d kB)"), SizeX, SizeY, GetResourceSize(EResourceSizeMode::Exclusive)/1024);
}
Ejemplo n.º 6
0
Archivo: drive.c Proyecto: ntamvl/rufus
/*
 * Fill the drive properties (size, FS, etc)
 * Returns TRUE if the drive has a partition that can be mounted in Windows, FALSE otherwise
 */
BOOL GetDrivePartitionData(DWORD DriveIndex, char* FileSystemName, DWORD FileSystemNameSize, BOOL bSilent)
{
	// MBR partition types that can be mounted in Windows
	const uint8_t mbr_mountable[] = { 0x01, 0x04, 0x06, 0x07, 0x0b, 0x0c, 0x0e, 0xef };
	BOOL r, ret = FALSE, isUefiNtfs = FALSE;
	HANDLE hPhysical;
	DWORD size;
	BYTE geometry[256] = {0}, layout[4096] = {0}, part_type;
	PDISK_GEOMETRY_EX DiskGeometry = (PDISK_GEOMETRY_EX)(void*)geometry;
	PDRIVE_LAYOUT_INFORMATION_EX DriveLayout = (PDRIVE_LAYOUT_INFORMATION_EX)(void*)layout;
	char* volume_name;
	char tmp[256];
	DWORD i, j;

	if (FileSystemName == NULL)
		return FALSE;

	SelectedDrive.nPartitions = 0;
	// Populate the filesystem data
	FileSystemName[0] = 0;
	volume_name = GetLogicalName(DriveIndex, TRUE, FALSE);
	if ((volume_name == NULL) || (!GetVolumeInformationA(volume_name, NULL, 0, NULL, NULL, NULL, FileSystemName, FileSystemNameSize))) {
		suprintf("No volume information for drive 0x%02x\n", DriveIndex);
	}
	safe_free(volume_name);

	hPhysical = GetPhysicalHandle(DriveIndex, FALSE, FALSE);
	if (hPhysical == INVALID_HANDLE_VALUE)
		return 0;

	if (uefi_ntfs_size == 0)
		uefi_ntfs_size = GetResourceSize(hMainInstance, MAKEINTRESOURCEA(IDR_UEFI_NTFS), _RT_RCDATA, "uefi-ntfs.img");

	r = DeviceIoControl(hPhysical, IOCTL_DISK_GET_DRIVE_GEOMETRY_EX,
			NULL, 0, geometry, sizeof(geometry), &size, NULL);
	if (!r || size <= 0) {
		suprintf("Could not get geometry for drive 0x%02x: %s\n", DriveIndex, WindowsErrorString());
		safe_closehandle(hPhysical);
		return 0;
	}
	if (DiskGeometry->Geometry.BytesPerSector < 512) {
		suprintf("Warning: Drive 0x%02x reports a sector size of %d - Correcting to 512 bytes.\n",
			DriveIndex, DiskGeometry->Geometry.BytesPerSector);
		DiskGeometry->Geometry.BytesPerSector = 512;
	}
	SelectedDrive.DiskSize = DiskGeometry->DiskSize.QuadPart;
	memcpy(&SelectedDrive.Geometry, &DiskGeometry->Geometry, sizeof(DISK_GEOMETRY));
	suprintf("Disk type: %s, Sector Size: %d bytes\n", (DiskGeometry->Geometry.MediaType == FixedMedia)?"Fixed":"Removable",
		DiskGeometry->Geometry.BytesPerSector);
	suprintf("Cylinders: %" PRIi64 ", TracksPerCylinder: %d, SectorsPerTrack: %d\n",
		DiskGeometry->Geometry.Cylinders, DiskGeometry->Geometry.TracksPerCylinder, DiskGeometry->Geometry.SectorsPerTrack);

	r = DeviceIoControl(hPhysical, IOCTL_DISK_GET_DRIVE_LAYOUT_EX, 
			NULL, 0, layout, sizeof(layout), &size, NULL );
	if (!r || size <= 0) {
		suprintf("Could not get layout for drive 0x%02x: %s\n", DriveIndex, WindowsErrorString());
		safe_closehandle(hPhysical);
		return 0;
	}

#if defined(__GNUC__)
// GCC 4.9 bug us about the fact that MS defined an expandable array as array[1]
#pragma GCC diagnostic ignored "-Warray-bounds"
#endif
	switch (DriveLayout->PartitionStyle) {
	case PARTITION_STYLE_MBR:
		SelectedDrive.PartitionType = PARTITION_STYLE_MBR;
		for (i=0; i<DriveLayout->PartitionCount; i++) {
			if (DriveLayout->PartitionEntry[i].Mbr.PartitionType != PARTITION_ENTRY_UNUSED) {
				SelectedDrive.nPartitions++;
			}
		}
		suprintf("Partition type: MBR, NB Partitions: %d\n", SelectedDrive.nPartitions);
		SelectedDrive.has_mbr_uefi_marker = (DriveLayout->Mbr.Signature == MBR_UEFI_MARKER);
		suprintf("Disk ID: 0x%08X %s\n", DriveLayout->Mbr.Signature, SelectedDrive.has_mbr_uefi_marker?"(UEFI target)":"");
		AnalyzeMBR(hPhysical, "Drive");
		for (i=0; i<DriveLayout->PartitionCount; i++) {
			if (DriveLayout->PartitionEntry[i].Mbr.PartitionType != PARTITION_ENTRY_UNUSED) {
				part_type = DriveLayout->PartitionEntry[i].Mbr.PartitionType;
				isUefiNtfs = (i == 1) && (part_type == 0xef) &&
					(DriveLayout->PartitionEntry[i].PartitionLength.QuadPart == uefi_ntfs_size);
				suprintf("Partition %d%s:\n", i+1, isUefiNtfs?" (UEFI:NTFS)":"");
				for (j=0; j<ARRAYSIZE(mbr_mountable); j++) {
					if (part_type == mbr_mountable[j]) {
						ret = TRUE;
						break;
					}
				}
				// NB: MinGW's gcc 4.9.2 broke "%lld" printout on XP so we use the inttypes.h "PRI##" qualifiers
				suprintf("  Type: %s (0x%02x)\r\n  Size: %s (%" PRIi64 " bytes)\r\n  Start Sector: %d, Boot: %s, Recognized: %s\n",
					((part_type==0x07)&&(FileSystemName[0]!=0))?FileSystemName:GetPartitionType(part_type), part_type,
					SizeToHumanReadable(DriveLayout->PartitionEntry[i].PartitionLength.QuadPart, TRUE, FALSE),
					DriveLayout->PartitionEntry[i].PartitionLength.QuadPart, DriveLayout->PartitionEntry[i].Mbr.HiddenSectors,
					DriveLayout->PartitionEntry[i].Mbr.BootIndicator?"Yes":"No",
					DriveLayout->PartitionEntry[i].Mbr.RecognizedPartition?"Yes":"No");
				if ((part_type == RUFUS_EXTRA_PARTITION_TYPE) || (isUefiNtfs))
					// This is a partition Rufus created => we can safely ignore it
					--SelectedDrive.nPartitions;
				if (part_type == 0xee)	// Flag a protective MBR for non GPT platforms (XP)
					SelectedDrive.has_protective_mbr = TRUE;
			}
		}
		break;
	case PARTITION_STYLE_GPT:
		SelectedDrive.PartitionType = PARTITION_STYLE_GPT;
		suprintf("Partition type: GPT, NB Partitions: %d\n", DriveLayout->PartitionCount);
		suprintf("Disk GUID: %s\n", GuidToString(&DriveLayout->Gpt.DiskId));
		suprintf("Max parts: %d, Start Offset: %" PRIi64 ", Usable = %" PRIi64 " bytes\n",
			DriveLayout->Gpt.MaxPartitionCount, DriveLayout->Gpt.StartingUsableOffset.QuadPart, DriveLayout->Gpt.UsableLength.QuadPart);
		for (i=0; i<DriveLayout->PartitionCount; i++) {
			SelectedDrive.nPartitions++;
			tmp[0] = 0;
			wchar_to_utf8_no_alloc(DriveLayout->PartitionEntry[i].Gpt.Name, tmp, sizeof(tmp));
			suprintf("Partition %d:\r\n  Type: %s\r\n  Name: '%s'\n", i+1,
				GuidToString(&DriveLayout->PartitionEntry[i].Gpt.PartitionType), tmp);
			suprintf("  ID: %s\r\n  Size: %s (%" PRIi64 " bytes)\r\n  Start Sector: %" PRIi64 ", Attributes: 0x%016" PRIX64 "\n",
				GuidToString(&DriveLayout->PartitionEntry[i].Gpt.PartitionId), SizeToHumanReadable(DriveLayout->PartitionEntry[i].PartitionLength.QuadPart, TRUE, FALSE),
				DriveLayout->PartitionEntry[i].PartitionLength, DriveLayout->PartitionEntry[i].StartingOffset.QuadPart / DiskGeometry->Geometry.BytesPerSector,
				DriveLayout->PartitionEntry[i].Gpt.Attributes);
			// Don't register the partitions that we don't care about destroying
			if ( (strcmp(tmp, "UEFI:NTFS") == 0) ||
				 (CompareGUID(&DriveLayout->PartitionEntry[i].Gpt.PartitionType, &PARTITION_MSFT_RESERVED_GUID)) ||
				 (CompareGUID(&DriveLayout->PartitionEntry[i].Gpt.PartitionType, &PARTITION_SYSTEM_GUID)) )
				--SelectedDrive.nPartitions;
			if ( (memcmp(&PARTITION_BASIC_DATA_GUID, &DriveLayout->PartitionEntry[i].Gpt.PartitionType, sizeof(GUID)) == 0) &&
				 (nWindowsVersion >= WINDOWS_VISTA) )
				ret = TRUE;
		}
		break;
	default:
		SelectedDrive.PartitionType = PARTITION_STYLE_MBR;
		suprintf("Partition type: RAW\n");
		break;
	}
#if defined(__GNUC__)
#pragma GCC diagnostic warning "-Warray-bounds"
#endif
	safe_closehandle(hPhysical);

	return ret;
}
Ejemplo n.º 7
0
uint64 GetResourceSize(ID3D12Resource* resource, uint32 firstSubResource, uint32 numSubResources)
{
    D3D12_RESOURCE_DESC desc = resource->GetDesc();

    return GetResourceSize(desc, firstSubResource, numSubResources);
}