/* * Rufus: The Reliable USB Formatting Utility * Drive access function calls * Copyright © 2011-2013 Pete Batard * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifdef _CRTDBG_MAP_ALLOC #include #include #endif #include #include #include #include #include "msapi_utf8.h" #include "rufus.h" #include "resource.h" #include "sys_types.h" #include "localization.h" /* * Globals */ RUFUS_DRIVE_INFO SelectedDrive; extern BOOL enable_fixed_disks; /* * Working with drive indexes quite risky (left unchecked,inadvertently passing 0 as * index would return a handle to C:, which we might then proceed to unknowingly * clear the MBR of!), so we mitigate the risk by forcing our indexes to belong to * the specific range [DRIVE_INDEX_MIN; DRIVE_INDEX_MAX]. */ #define CheckDriveIndex(DriveIndex) do { \ if ((DriveIndex < DRIVE_INDEX_MIN) || (DriveIndex > DRIVE_INDEX_MAX)) { \ uprintf("WARNING: Bad index value. Please check the code!\n"); \ goto out; \ } \ DriveIndex -= DRIVE_INDEX_MIN; } while (0) /* * Open a drive or volume with optional write and lock access * Return INVALID_HANDLE_VALUE (/!\ which is DIFFERENT from NULL /!\) on failure. */ static HANDLE GetHandle(char* Path, BOOL bWriteAccess, BOOL bLockDrive) { int i; DWORD size; HANDLE hDrive = INVALID_HANDLE_VALUE; if (Path == NULL) goto out; hDrive = CreateFileA(Path, GENERIC_READ|(bWriteAccess?GENERIC_WRITE:0), FILE_SHARE_READ|FILE_SHARE_WRITE, NULL, OPEN_EXISTING, 0, 0); if (hDrive == INVALID_HANDLE_VALUE) { uprintf("Could not open drive %s: %s\n", Path, WindowsErrorString()); goto out; } if (bWriteAccess) { uprintf("Caution: Opened drive %s for write access\n", Path); } if (bLockDrive) { for (i = 0; i < DRIVE_ACCESS_RETRIES; i++) { if (DeviceIoControl(hDrive, FSCTL_LOCK_VOLUME, NULL, 0, NULL, 0, &size, NULL)) goto out; if (IS_ERROR(FormatStatus)) // User cancel break; Sleep(DRIVE_ACCESS_TIMEOUT/DRIVE_ACCESS_RETRIES); } // If we reached this section, either we didn't manage to get a lock or the user cancelled uprintf("Could not get exclusive access to device %s: %s\n", Path, WindowsErrorString()); safe_closehandle(hDrive); } out: return hDrive; } /* * Return the path to access the physical drive, or NULL on error. * The string is allocated and must be freed (to ensure concurrent access) */ char* GetPhysicalName(DWORD DriveIndex) { BOOL success = FALSE; char physical_name[24]; CheckDriveIndex(DriveIndex); safe_sprintf(physical_name, sizeof(physical_name), "\\\\.\\PHYSICALDRIVE%d", DriveIndex); success = TRUE; out: return (success)?safe_strdup(physical_name):NULL; } /* * Return a handle to the physical drive identified by DriveIndex */ HANDLE GetPhysicalHandle(DWORD DriveIndex, BOOL bWriteAccess, BOOL bLockDrive) { HANDLE hPhysical = INVALID_HANDLE_VALUE; char* PhysicalPath = GetPhysicalName(DriveIndex); hPhysical = GetHandle(PhysicalPath, bWriteAccess, bLockDrive); safe_free(PhysicalPath); return hPhysical; } // Return the first GUID volume name for the associated drive or NULL if not found // See http://msdn.microsoft.com/en-us/library/cc542456.aspx // The returned string is allocated and must be freed // TODO: a drive may have multiple volumes - should we handle those? #define suprintf(...) if (!bSilent) uprintf(__VA_ARGS__) char* GetLogicalName(DWORD DriveIndex, BOOL bKeepTrailingBackslash, BOOL bSilent) { BOOL success = FALSE; char volume_name[MAX_PATH]; HANDLE hDrive = INVALID_HANDLE_VALUE, hVolume = INVALID_HANDLE_VALUE; size_t len; char path[MAX_PATH]; VOLUME_DISK_EXTENTS DiskExtents; DWORD size; UINT drive_type; int i, j; static const char* ignore_device[] = { "\\Device\\CdRom", "\\Device\\Floppy" }; static const char* volume_start = "\\\\?\\"; CheckDriveIndex(DriveIndex); for (i=0; hDrive == INVALID_HANDLE_VALUE; i++) { if (i == 0) { hVolume = FindFirstVolumeA(volume_name, sizeof(volume_name)); if (hVolume == INVALID_HANDLE_VALUE) { suprintf("Could not access first GUID volume: %s\n", WindowsErrorString()); goto out; } } else { if (!FindNextVolumeA(hVolume, volume_name, sizeof(volume_name))) { if (GetLastError() != ERROR_NO_MORE_FILES) { suprintf("Could not access next GUID volume: %s\n", WindowsErrorString()); } goto out; } } // Sanity checks len = safe_strlen(volume_name); if ((len <= 1) || (safe_strnicmp(volume_name, volume_start, 4) != 0) || (volume_name[len-1] != '\\')) { suprintf("'%s' is not a GUID volume name\n", volume_name); continue; } drive_type = GetDriveTypeA(volume_name); // NB: the HP utility allows drive_type == DRIVE_FIXED, which we don't allow by default // Using Alt-F in Rufus does enable listing, but this mode is unsupported. if ((drive_type != DRIVE_REMOVABLE) && ((!enable_fixed_disks) || (drive_type != DRIVE_FIXED))) continue; volume_name[len-1] = 0; if (QueryDosDeviceA(&volume_name[4], path, sizeof(path)) == 0) { suprintf("Failed to get device path for GUID volume '%s': %s\n", volume_name, WindowsErrorString()); continue; } for (j=0; (j= 1) && (DiskExtents.Extents[0].DiskNumber == DriveIndex)) { if (bKeepTrailingBackslash) volume_name[len-1] = '\\'; success = TRUE; break; } } out: if (hVolume != INVALID_HANDLE_VALUE) FindVolumeClose(hVolume); return (success)?safe_strdup(volume_name):NULL; } /* Wait for a logical drive to reappear - Used when a drive has just been repartitioned */ BOOL WaitForLogical(DWORD DriveIndex) { DWORD i; char* LogicalPath = NULL; for (i = 0; i < DRIVE_ACCESS_RETRIES; i++) { LogicalPath = GetLogicalName(DriveIndex, FALSE, TRUE); if (LogicalPath != NULL) { free(LogicalPath); return TRUE; } if (IS_ERROR(FormatStatus)) // User cancel return FALSE; Sleep(DRIVE_ACCESS_TIMEOUT/DRIVE_ACCESS_RETRIES); } uprintf("Timeout while waiting for logical drive\n"); return FALSE; } /* * Obtain a handle to the first logical volume on the disk identified by DriveIndex * Returns INVALID_HANDLE_VALUE on error or NULL if no logical path exists (typical * of unpartitioned drives) */ HANDLE GetLogicalHandle(DWORD DriveIndex, BOOL bWriteAccess, BOOL bLockDrive) { HANDLE hLogical = INVALID_HANDLE_VALUE; char* LogicalPath = GetLogicalName(DriveIndex, FALSE, FALSE); if (LogicalPath == NULL) { uprintf("No logical drive found (unpartitioned?)\n"); return NULL; } hLogical = GetHandle(LogicalPath, bWriteAccess, bLockDrive); safe_free(LogicalPath); return hLogical; } /* * Returns the first drive letter for a volume located on the drive identified by DriveIndex */ char GetDriveLetter(DWORD DriveIndex) { DWORD size; BOOL r; STORAGE_DEVICE_NUMBER_REDEF device_number = {0}; UINT drive_type; HANDLE hDrive = INVALID_HANDLE_VALUE; char *drive, drives[26*4]; /* "D:\", "E:\", etc. */ char logical_drive[] = "\\\\.\\#:"; char drive_letter = ' '; CheckDriveIndex(DriveIndex); size = GetLogicalDriveStringsA(sizeof(drives), drives); if (size == 0) { uprintf("GetLogicalDriveStrings failed: %s\n", WindowsErrorString()); goto out; } if (size > sizeof(drives)) { uprintf("GetLogicalDriveStrings: buffer too small (required %d vs %d)\n", size, sizeof(drives)); goto out; } for (drive = drives ;*drive; drive += safe_strlen(drive)+1) { if (!isalpha(*drive)) continue; *drive = (char)toupper((int)*drive); if (*drive < 'C') { continue; } /* IOCTL_STORAGE_GET_DEVICE_NUMBER's STORAGE_DEVICE_NUMBER.DeviceNumber is not unique! An HDD, a DVD and probably other drives can have the same value there => Use GetDriveType() to filter out unwanted devices. See https://github.com/pbatard/rufus/issues/32 for details. */ drive_type = GetDriveTypeA(drive); // NB: the HP utility allows drive_type == DRIVE_FIXED, which we don't allow by default // Using Alt-F in Rufus does enable listing, but this mode is unsupported. if ((drive_type != DRIVE_REMOVABLE) && ((!enable_fixed_disks) || (drive_type != DRIVE_FIXED))) continue; safe_sprintf(logical_drive, sizeof(logical_drive), "\\\\.\\%c:", drive[0]); hDrive = CreateFileA(logical_drive, GENERIC_READ, FILE_SHARE_READ|FILE_SHARE_WRITE, NULL, OPEN_EXISTING, 0, 0); if (hDrive == INVALID_HANDLE_VALUE) { uprintf("Warning: could not open drive %c: %s\n", drive[0], WindowsErrorString()); continue; } r = DeviceIoControl(hDrive, IOCTL_STORAGE_GET_DEVICE_NUMBER, NULL, 0, &device_number, sizeof(device_number), &size, NULL); safe_closehandle(hDrive); if ((!r) || (size <= 0)) { uprintf("Could not get device number for device %s: %s\n", logical_drive, WindowsErrorString()); } else if (device_number.DeviceNumber == DriveIndex) { drive_letter = *drive; break; } } out: return drive_letter; } /* * Return the next unused drive letter from the system */ char GetUnusedDriveLetter(void) { DWORD size; char drive_letter = 'Z'+1, *drive, drives[26*4]; /* "D:\", "E:\", etc. */ size = GetLogicalDriveStringsA(sizeof(drives), drives); if (size == 0) { uprintf("GetLogicalDriveStrings failed: %s\n", WindowsErrorString()); goto out; } if (size > sizeof(drives)) { uprintf("GetLogicalDriveStrings: buffer too small (required %d vs %d)\n", size, sizeof(drives)); goto out; } for (drive_letter = 'C'; drive_letter < 'Z'; drive_letter++) { for (drive = drives ;*drive; drive += safe_strlen(drive)+1) { if (!isalpha(*drive)) continue; if (drive_letter == (char)toupper((int)*drive)) break; } if (!*drive) break; } out: return (drive_letter>'Z')?' ':drive_letter; } /* * Return the drive letter and volume label * If the drive doesn't have a volume assigned, space is returned for the letter */ BOOL GetDriveLabel(DWORD DriveIndex, char* letter, char** label) { HANDLE hPhysical; DWORD size; char AutorunPath[] = "#:\\autorun.inf", *AutorunLabel = NULL; wchar_t wDrivePath[] = L"#:\\"; wchar_t wVolumeLabel[MAX_PATH+1]; static char VolumeLabel[MAX_PATH+1]; *label = STR_NO_LABEL; *letter = GetDriveLetter(DriveIndex); if (*letter == ' ') { // Drive without volume assigned - Tie to the display of fixed disks return enable_fixed_disks; } AutorunPath[0] = *letter; wDrivePath[0] = *letter; // Try to read an extended label from autorun first. Fallback to regular label if not found. // In the case of card readers with no card, users can get an annoying popup asking them // to insert media. Use IOCTL_STORAGE_CHECK_VERIFY to prevent this hPhysical = GetPhysicalHandle(DriveIndex, FALSE, FALSE); if (DeviceIoControl(hPhysical, IOCTL_STORAGE_CHECK_VERIFY, NULL, 0, NULL, 0, &size, NULL)) AutorunLabel = get_token_data_file("label", AutorunPath); else if (GetLastError() == ERROR_NOT_READY) uprintf("Ignoring autorun.inf label for drive %c: %s\n", *letter, (HRESULT_CODE(GetLastError()) == ERROR_NOT_READY)?"No media":WindowsErrorString()); safe_closehandle(hPhysical); if (AutorunLabel != NULL) { uprintf("Using autorun.inf label for drive %c: '%s'\n", *letter, AutorunLabel); strncpy(VolumeLabel, AutorunLabel, sizeof(VolumeLabel)); safe_free(AutorunLabel); *label = VolumeLabel; } else if (GetVolumeInformationW(wDrivePath, wVolumeLabel, ARRAYSIZE(wVolumeLabel), NULL, NULL, NULL, NULL, 0) && *wVolumeLabel) { wchar_to_utf8_no_alloc(wVolumeLabel, VolumeLabel, sizeof(VolumeLabel)); *label = VolumeLabel; } return TRUE; } /* * Fill the drive properties (size, FS, etc) */ BOOL GetDrivePartitionData(DWORD DriveIndex, char* FileSystemName, DWORD FileSystemNameSize) { BOOL r; HANDLE hPhysical; DWORD size; BYTE geometry[128], layout[1024], part_type; void* disk_geometry = (void*)geometry; void* drive_layout = (void*)layout; PDISK_GEOMETRY_EX DiskGeometry = (PDISK_GEOMETRY_EX)disk_geometry; PDRIVE_LAYOUT_INFORMATION_EX DriveLayout = (PDRIVE_LAYOUT_INFORMATION_EX)drive_layout; char* volume_name; char tmp[256]; DWORD i, nb_partitions = 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))) { uprintf("No volume information for disk 0x%02x\n", DriveIndex); } safe_free(volume_name); hPhysical = GetPhysicalHandle(DriveIndex, FALSE, FALSE); if (hPhysical == INVALID_HANDLE_VALUE) return FALSE; r = DeviceIoControl(hPhysical, IOCTL_DISK_GET_DRIVE_GEOMETRY_EX, NULL, 0, geometry, sizeof(geometry), &size, NULL); if (!r || size <= 0) { uprintf("Could not get geometry for drive 0x%02x: %s\n", DriveIndex, WindowsErrorString()); safe_closehandle(hPhysical); return FALSE; } SelectedDrive.DiskSize = DiskGeometry->DiskSize.QuadPart; memcpy(&SelectedDrive.Geometry, &DiskGeometry->Geometry, sizeof(DISK_GEOMETRY)); uprintf("Sector Size: %d bytes\n", DiskGeometry->Geometry.BytesPerSector); uprintf("Cylinders: %lld, 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) { uprintf("Could not get layout for drive 0x%02x: %s\n", DriveIndex, WindowsErrorString()); return FALSE; } switch (DriveLayout->PartitionStyle) { case PARTITION_STYLE_MBR: SelectedDrive.PartitionType = PARTITION_STYLE_MBR; for (i=0; iPartitionCount; i++) { if (DriveLayout->PartitionEntry[i].Mbr.PartitionType != PARTITION_ENTRY_UNUSED) { nb_partitions++; } } uprintf("Partition type: MBR, NB Partitions: %d\n", nb_partitions); SelectedDrive.has_mbr_uefi_marker = (DriveLayout->Mbr.Signature == MBR_UEFI_MARKER); uprintf("Disk ID: 0x%08X %s\n", DriveLayout->Mbr.Signature, SelectedDrive.has_mbr_uefi_marker?"(UEFI target)":""); for (i=0; iPartitionCount; i++) { if (DriveLayout->PartitionEntry[i].Mbr.PartitionType != PARTITION_ENTRY_UNUSED) { uprintf("Partition %d:\n", DriveLayout->PartitionEntry[i].PartitionNumber); part_type = DriveLayout->PartitionEntry[i].Mbr.PartitionType; uprintf(" Type: %s (0x%02x)\r\n Size: %s (%lld 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), DriveLayout->PartitionEntry[i].PartitionLength, DriveLayout->PartitionEntry[i].Mbr.HiddenSectors, DriveLayout->PartitionEntry[i].Mbr.BootIndicator?"Yes":"No", DriveLayout->PartitionEntry[i].Mbr.RecognizedPartition?"Yes":"No"); 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; uprintf("Partition type: GPT, NB Partitions: %d\n", DriveLayout->PartitionCount); uprintf("Disk GUID: %s\n", GuidToString(&DriveLayout->Gpt.DiskId)); uprintf("Max parts: %d, Start Offset: %lld, Usable = %lld bytes\n", DriveLayout->Gpt.MaxPartitionCount, DriveLayout->Gpt.StartingUsableOffset.QuadPart, DriveLayout->Gpt.UsableLength.QuadPart); for (i=0; iPartitionCount; i++) { nb_partitions++; tmp[0] = 0; wchar_to_utf8_no_alloc(DriveLayout->PartitionEntry[i].Gpt.Name, tmp, sizeof(tmp)); uprintf("Partition %d:\r\n Type: %s\r\n Name: '%s'\n", DriveLayout->PartitionEntry[i].PartitionNumber, GuidToString(&DriveLayout->PartitionEntry[i].Gpt.PartitionType), tmp); uprintf(" ID: %s\r\n Size: %s (%lld bytes)\r\n Start Sector: %lld, Attributes: 0x%016llX\n", GuidToString(&DriveLayout->PartitionEntry[i].Gpt.PartitionId), SizeToHumanReadable(DriveLayout->PartitionEntry[i].PartitionLength), DriveLayout->PartitionEntry[i].PartitionLength, DriveLayout->PartitionEntry[i].StartingOffset.QuadPart / DiskGeometry->Geometry.BytesPerSector, DriveLayout->PartitionEntry[i].Gpt.Attributes); } break; default: SelectedDrive.PartitionType = PARTITION_STYLE_MBR; uprintf("Partition type: RAW\n"); break; } safe_closehandle(hPhysical); return TRUE; } /* * Flush file data */ static BOOL FlushDrive(char drive_letter) { HANDLE hDrive = INVALID_HANDLE_VALUE; BOOL r = FALSE; char logical_drive[] = "\\\\.\\#:"; logical_drive[4] = drive_letter; hDrive = CreateFileA(logical_drive, GENERIC_READ|GENERIC_WRITE, FILE_SHARE_READ|FILE_SHARE_WRITE, NULL, OPEN_EXISTING, 0, 0); if (hDrive == INVALID_HANDLE_VALUE) { uprintf("Failed to open %c: for flushing: %s\n", drive_letter, WindowsErrorString()); goto out; } r = FlushFileBuffers(hDrive); if (r == FALSE) uprintf("Failed to flush %c: %s\n", drive_letter, WindowsErrorString()); out: safe_closehandle(hDrive); return r; } /* * Unmount of volume using the DISMOUNT_VOLUME ioctl */ BOOL UnmountVolume(HANDLE hDrive) { DWORD size; if (!DeviceIoControl(hDrive, FSCTL_DISMOUNT_VOLUME, NULL, 0, NULL, 0, &size, NULL)) { uprintf("Could not ummount drive: %s\n", WindowsErrorString()); return FALSE; } return TRUE; } /* * Mount the volume identified by drive_guid to mountpoint drive_name */ BOOL MountVolume(char* drive_name, char *drive_guid) { char mounted_guid[52]; // You need at least 51 characters on XP if (!SetVolumeMountPointA(drive_name, drive_guid)) { // If the OS was faster than us at remounting the drive, this operation can fail // with ERROR_DIR_NOT_EMPTY. If that's the case, just check that mountpoints match if (GetLastError() == ERROR_DIR_NOT_EMPTY) { if (!GetVolumeNameForVolumeMountPointA(drive_name, mounted_guid, sizeof(mounted_guid))) { uprintf("%s already mounted, but volume GUID could not be checked: %s\n", drive_name, WindowsErrorString()); return FALSE; } if (safe_strcmp(drive_guid, mounted_guid) != 0) { uprintf("%s already mounted, but volume GUID doesn't match:\r\n expected %s, got %s\n", drive_name, drive_guid, mounted_guid); return FALSE; } uprintf("%s was already mounted as %s\n", drive_guid, drive_name); } else { return FALSE; } } return TRUE; } /* * Issue a complete remount of the volume */ BOOL RemountVolume(char* drive_name) { char drive_guid[51]; // UDF requires a sync/flush, and it's also a good idea for other FS's FlushDrive(drive_name[0]); if (GetVolumeNameForVolumeMountPointA(drive_name, drive_guid, sizeof(drive_guid))) { if (DeleteVolumeMountPointA(drive_name)) { Sleep(200); if (MountVolume(drive_name, drive_guid)) { uprintf("Successfully remounted %s on %s\n", &drive_guid[4], drive_name); } else { uprintf("Failed to remount %s on %s\n", &drive_guid[4], drive_name); // This will leave the drive inaccessible and must be flagged as an error FormatStatus = ERROR_SEVERITY_ERROR|FAC(FACILITY_STORAGE)|APPERR(ERROR_CANT_REMOUNT_VOLUME); return FALSE; } } else { uprintf("Could not remount %s %s\n", drive_name, WindowsErrorString()); // Try to continue regardless } } return TRUE; } /* MinGW is unhappy about accessing partitions beside the first unless we redef */ typedef struct _DRIVE_LAYOUT_INFORMATION_EX4 { DWORD PartitionStyle; DWORD PartitionCount; union { DRIVE_LAYOUT_INFORMATION_MBR Mbr; DRIVE_LAYOUT_INFORMATION_GPT Gpt; } Type; PARTITION_INFORMATION_EX PartitionEntry[4]; } DRIVE_LAYOUT_INFORMATION_EX4,*PDRIVE_LAYOUT_INFORMATION_EX4; /* * 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. */ #if !defined(PARTITION_BASIC_DATA_GUID) const GUID PARTITION_BASIC_DATA_GUID = { 0xebd0a0a2, 0xb9e5, 0x4433, {0x87, 0xc0, 0x68, 0xb6, 0xb7, 0x26, 0x99, 0xc7} }; #endif BOOL CreatePartition(HANDLE hDrive, int partition_style, int file_system, BOOL mbr_uefi_marker) { const char* PartitionTypeName[2] = { "MBR", "GPT" }; CREATE_DISK CreateDisk = {PARTITION_STYLE_RAW, {{0}}}; DRIVE_LAYOUT_INFORMATION_EX4 DriveLayoutEx = {0}; BOOL r; DWORD size; LONGLONG size_in_sectors; PrintStatus(0, TRUE, lmprintf(MSG_238, PartitionTypeName[partition_style])); if ((partition_style == PARTITION_STYLE_GPT) || (!IsChecked(IDC_EXTRA_PARTITION))) { // Go with the MS 1 MB wastage at the beginning... DriveLayoutEx.PartitionEntry[0].StartingOffset.QuadPart = 1024*1024; } else { // Align on Cylinder DriveLayoutEx.PartitionEntry[0].StartingOffset.QuadPart = SelectedDrive.Geometry.BytesPerSector * SelectedDrive.Geometry.SectorsPerTrack; } // TODO: should we try to align the following to the cluster size as well? size_in_sectors = (SelectedDrive.DiskSize - DriveLayoutEx.PartitionEntry[0].StartingOffset.QuadPart) / SelectedDrive.Geometry.BytesPerSector; 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:GetTickCount(); DriveLayoutEx.PartitionStyle = PARTITION_STYLE_MBR; DriveLayoutEx.PartitionCount = 4; // Must be multiple of 4 for MBR DriveLayoutEx.Type.Mbr.Signature = CreateDisk.Mbr.Signature; DriveLayoutEx.PartitionEntry[0].PartitionStyle = PARTITION_STYLE_MBR; // 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 // Align on sector boundary if the extra part option is checked if (IsChecked(IDC_EXTRA_PARTITION)) { size_in_sectors = ((size_in_sectors / SelectedDrive.Geometry.SectorsPerTrack)-1) * SelectedDrive.Geometry.SectorsPerTrack; if (size_in_sectors <= 0) return FALSE; } 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 = 1; // At the very least, a GPT disk has atv least 34 reserved (512 bytes) blocks at the beginning // and 33 at the end. DriveLayoutEx.Type.Gpt.StartingUsableOffset.QuadPart = 34*512; DriveLayoutEx.Type.Gpt.UsableLength.QuadPart = SelectedDrive.DiskSize - (34+33)*512; DriveLayoutEx.Type.Gpt.MaxPartitionCount = MAX_GPT_PARTITIONS; DriveLayoutEx.Type.Gpt.DiskId = CreateDisk.Gpt.DiskId; DriveLayoutEx.PartitionEntry[0].PartitionStyle = PARTITION_STYLE_GPT; size_in_sectors -= 33; // Need 33 sectors at the end for secondary GPT break; default: break; } DriveLayoutEx.PartitionEntry[0].PartitionLength.QuadPart = size_in_sectors * SelectedDrive.Geometry.BytesPerSector; DriveLayoutEx.PartitionEntry[0].PartitionNumber = 1; DriveLayoutEx.PartitionEntry[0].RewritePartition = TRUE; switch (partition_style) { case PARTITION_STYLE_MBR: DriveLayoutEx.PartitionEntry[0].Mbr.BootIndicator = IsChecked(IDC_BOOT); DriveLayoutEx.PartitionEntry[0].Mbr.HiddenSectors = SelectedDrive.Geometry.SectorsPerTrack; switch (file_system) { case FS_FAT16: DriveLayoutEx.PartitionEntry[0].Mbr.PartitionType = 0x0e; // FAT16 LBA break; case FS_NTFS: case FS_EXFAT: case FS_UDF: DriveLayoutEx.PartitionEntry[0].Mbr.PartitionType = 0x07; // NTFS break; case FS_FAT32: DriveLayoutEx.PartitionEntry[0].Mbr.PartitionType = 0x0c; // FAT32 LBA break; default: uprintf("Unsupported file system\n"); return FALSE; } // Create an extra partition on request - can improve BIOS detection as HDD for older BIOSes if (IsChecked(IDC_EXTRA_PARTITION)) { DriveLayoutEx.PartitionEntry[1].PartitionStyle = PARTITION_STYLE_MBR; // Should end on a sector boundary DriveLayoutEx.PartitionEntry[1].StartingOffset.QuadPart = DriveLayoutEx.PartitionEntry[0].StartingOffset.QuadPart + DriveLayoutEx.PartitionEntry[0].PartitionLength.QuadPart; DriveLayoutEx.PartitionEntry[1].PartitionLength.QuadPart = SelectedDrive.Geometry.SectorsPerTrack*SelectedDrive.Geometry.BytesPerSector; DriveLayoutEx.PartitionEntry[1].PartitionNumber = 2; DriveLayoutEx.PartitionEntry[1].RewritePartition = TRUE; DriveLayoutEx.PartitionEntry[1].Mbr.BootIndicator = FALSE; DriveLayoutEx.PartitionEntry[1].Mbr.HiddenSectors = SelectedDrive.Geometry.SectorsPerTrack*SelectedDrive.Geometry.BytesPerSector; DriveLayoutEx.PartitionEntry[1].Mbr.PartitionType = DriveLayoutEx.PartitionEntry[0].Mbr.PartitionType + 0x10; // Hidden whatever } // For the remaining partitions, PartitionStyle & PartitionType have already // been zeroed => already set to MBR/unused break; case PARTITION_STYLE_GPT: DriveLayoutEx.PartitionEntry[0].Gpt.PartitionType = PARTITION_BASIC_DATA_GUID; wcscpy(DriveLayoutEx.PartitionEntry[0].Gpt.Name, L"Microsoft Basic Data"); IGNORE_RETVAL(CoCreateGuid(&DriveLayoutEx.PartitionEntry[0].Gpt.PartitionId)); break; default: 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()); safe_closehandle(hDrive); return FALSE; } size = sizeof(DriveLayoutEx) - ((partition_style == PARTITION_STYLE_GPT)?(3*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()); safe_closehandle(hDrive); return FALSE; } // Diskpart does call the following IOCTL this after updating the partition table, so we do too r = DeviceIoControl(hDrive, IOCTL_DISK_UPDATE_PROPERTIES, NULL, 0, NULL, 0, &size, NULL ); if (!r) { uprintf("Could not refresh drive layout: %s\n", WindowsErrorString()); safe_closehandle(hDrive); return FALSE; } return TRUE; } /* Delete the disk partition table */ BOOL DeletePartitions(HANDLE hDrive) { BOOL r; DWORD size; CREATE_DISK CreateDisk = {PARTITION_STYLE_RAW, {{0}}}; PrintStatus(0, TRUE, lmprintf(MSG_239)); size = sizeof(CreateDisk); r = DeviceIoControl(hDrive, IOCTL_DISK_CREATE_DISK, (BYTE*)&CreateDisk, size, NULL, 0, &size, NULL ); if (!r) { uprintf("Could not delete drive layout: %s\n", WindowsErrorString()); safe_closehandle(hDrive); return FALSE; } r = DeviceIoControl(hDrive, IOCTL_DISK_UPDATE_PROPERTIES, NULL, 0, NULL, 0, &size, NULL ); if (!r) { uprintf("Could not refresh drive layout: %s\n", WindowsErrorString()); safe_closehandle(hDrive); return FALSE; } return TRUE; } /* * Convert a partition type to its human readable form using * (slightly modified) entries from GNU fdisk */ const char* GetPartitionType(BYTE Type) { int i; for (i=0; i