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|
/*
Derived from source code of TrueCrypt 7.1a, which is
Copyright (c) 2008-2012 TrueCrypt Developers Association and which is governed
by the TrueCrypt License 3.0.
Modifications and additions to the original source code (contained in this file)
and all other portions of this file are Copyright (c) 2013-2017 IDRIX
and are governed by the Apache License 2.0 the full text of which is
contained in the file License.txt included in VeraCrypt binary and source
code distribution packages.
*/
/* In this file, _WIN32_WINNT is defined as 0x0600 to make filesystem shrink available (Vista
or later). _WIN32_WINNT cannot be defined as 0x0600 for the entire user-space projects
because it breaks the main font app when the app is running on XP (likely an MS bug).
IMPORTANT: Due to this issue, functions in this file must not directly interact with GUI. */
#define TC_LOCAL_WIN32_WINNT_OVERRIDE 1
#if (_WIN32_WINNT < 0x0600)
# undef _WIN32_WINNT
# define _WIN32_WINNT 0x0600
#endif
#include <stdlib.h>
#include <string.h>
#include <string>
#include <intsafe.h>
#include "Tcdefs.h"
#include "Platform/Finally.h"
#include "Common.h"
#include "Crc.h"
#include "Dlgcode.h"
#include "Language.h"
#include "Tcformat.h"
#include "Volumes.h"
#include "InPlace.h"
#include <Strsafe.h>
using namespace std;
using namespace VeraCrypt;
#if TC_VOLUME_DATA_OFFSET != 131072
# error TC_VOLUME_DATA_OFFSET != 131072
#endif
#if TC_VOLUME_HEADER_EFFECTIVE_SIZE != 512
# error TC_VOLUME_HEADER_EFFECTIVE_SIZE != 512
#endif
#if TC_TOTAL_VOLUME_HEADERS_SIZE != 262144
# error TC_TOTAL_VOLUME_HEADERS_SIZE != 262144
#endif
#define TC_MAX_NONSYS_INPLACE_ENC_WORK_CHUNK_SIZE (2048 * BYTES_PER_KB)
#define TC_INITIAL_NTFS_CONCEAL_PORTION_SIZE (2 * TC_MAX_VOLUME_SECTOR_SIZE)
#define TC_NTFS_CONCEAL_CONSTANT 0xFF
#define TC_NONSYS_INPLACE_ENC_HEADER_UPDATE_INTERVAL (64 * BYTES_PER_MB)
#define TC_NONSYS_INPLACE_ENC_MIN_VOL_SIZE (TC_TOTAL_VOLUME_HEADERS_SIZE + TC_MIN_NTFS_FS_SIZE * 2)
// If the returned value is greater than 0, it is the desired volume size in NTFS sectors (not in bytes)
// after shrinking has been performed. If there's any error, returns -1.
static __int64 NewFileSysSizeAfterShrink (HANDLE dev, const wchar_t *devicePath, int64 *totalClusterCount, DWORD *bytesPerCluster, BOOL silent)
{
NTFS_VOLUME_DATA_BUFFER ntfsVolData;
DWORD nBytesReturned;
__int64 fileSysSize, desiredNbrSectors;
// Filesystem size and sector size
if (!DeviceIoControl (dev,
FSCTL_GET_NTFS_VOLUME_DATA,
NULL,
0,
(LPVOID) &ntfsVolData,
sizeof (ntfsVolData),
&nBytesReturned,
NULL))
{
if (!silent)
handleWin32Error (MainDlg, SRC_POS);
return -1;
}
if ( (ntfsVolData.NumberSectors.QuadPart <= 0)
|| (ntfsVolData.BytesPerSector == 0)
|| (ntfsVolData.BytesPerSector >= (DWORD) UINT_MAX)
|| (ntfsVolData.NumberSectors.QuadPart > (INT64_MAX / (__int64) ntfsVolData.BytesPerSector)) // overflow test
)
{
SetLastError (ERROR_INTERNAL_ERROR);
if (!silent)
handleWin32Error (MainDlg, SRC_POS);
return -1;
}
fileSysSize = ntfsVolData.NumberSectors.QuadPart * ntfsVolData.BytesPerSector;
desiredNbrSectors = (fileSysSize - TC_TOTAL_VOLUME_HEADERS_SIZE) / ntfsVolData.BytesPerSector;
if (desiredNbrSectors <= 0)
return -1;
if (totalClusterCount)
*totalClusterCount = ntfsVolData.TotalClusters.QuadPart;
if (bytesPerCluster)
*bytesPerCluster = ntfsVolData.BytesPerCluster;
return desiredNbrSectors;
}
BOOL CheckRequirementsForNonSysInPlaceEnc (HWND hwndDlg, const wchar_t *devicePath, BOOL silent)
{
NTFS_VOLUME_DATA_BUFFER ntfsVolData;
DWORD nBytesReturned;
HANDLE dev;
WCHAR szFileSysName [256];
WCHAR devPath [MAX_PATH];
WCHAR dosDev [TC_MAX_PATH] = {0};
WCHAR devName [MAX_PATH] = {0};
int driveLetterNo = -1;
WCHAR szRootPath[4] = {0, L':', L'\\', 0};
__int64 deviceSize;
int partitionNumber = -1, driveNumber = -1;
/* ---------- Checks that do not require admin rights ----------- */
/* Operating system */
if (CurrentOSMajor < 6)
{
if (!silent)
ShowInPlaceEncErrMsgWAltSteps (hwndDlg, "OS_NOT_SUPPORTED_FOR_NONSYS_INPLACE_ENC", FALSE);
return FALSE;
}
/* Volume type (must be a partition or a dynamic volume) */
if (swscanf (devicePath, L"\\Device\\HarddiskVolume%d", &partitionNumber) != 1
&& swscanf (devicePath, L"\\Device\\Harddisk%d\\Partition%d", &driveNumber, &partitionNumber) != 2)
{
if (!silent)
Error ("INPLACE_ENC_INVALID_PATH", hwndDlg);
return FALSE;
}
if (partitionNumber == 0)
{
if (!silent)
Warning ("RAW_DEV_NOT_SUPPORTED_FOR_INPLACE_ENC", hwndDlg);
return FALSE;
}
/* Admin rights */
if (!IsAdmin())
{
// We rely on the wizard process to call us only when the whole wizard process has been elevated (so UAC
// status can be ignored). In case the IsAdmin() detection somehow fails, we allow the user to continue.
if (!silent)
Warning ("ADMIN_PRIVILEGES_WARN_DEVICES", hwndDlg);
}
/* ---------- Checks that may require admin rights ----------- */
/* Access to the partition */
StringCbCopyW (devPath, sizeof(devPath), devicePath);
driveLetterNo = GetDiskDeviceDriveLetter (devPath);
if (driveLetterNo >= 0)
szRootPath[0] = (wchar_t) driveLetterNo + L'A';
if (FakeDosNameForDevice (devicePath, dosDev, sizeof(dosDev), devName, sizeof(devName),FALSE) != 0)
{
if (!silent)
{
handleWin32Error (hwndDlg, SRC_POS);
Error ("INPLACE_ENC_CANT_ACCESS_OR_GET_INFO_ON_VOL", hwndDlg);
}
return FALSE;
}
dev = OpenPartitionVolume (hwndDlg, devName,
FALSE, // Do not require exclusive access
TRUE, // Require shared access (must be TRUE; otherwise, volume properties will not be possible to obtain)
FALSE, // Do not ask the user to confirm shared access (if exclusive fails)
FALSE, // Do not append alternative instructions how to encrypt the data (to applicable error messages)
silent); // Silent mode
if (dev == INVALID_HANDLE_VALUE)
return FALSE;
/* File system type */
GetVolumeInformation (szRootPath, NULL, 0, NULL, NULL, NULL, szFileSysName, ARRAYSIZE (szFileSysName));
if (wcsncmp (szFileSysName, L"NTFS", 4))
{
// The previous filesystem type detection method failed (or it's not NTFS) -- try an alternative method
if (!DeviceIoControl (dev,
FSCTL_GET_NTFS_VOLUME_DATA,
NULL,
0,
(LPVOID) &ntfsVolData,
sizeof (ntfsVolData),
&nBytesReturned,
NULL))
{
if (!silent)
{
// The filesystem is not NTFS or the filesystem type could not be determined (or the NTFS filesystem
// is dismounted).
if (IsDeviceMounted (devName))
ShowInPlaceEncErrMsgWAltSteps (hwndDlg, "ONLY_NTFS_SUPPORTED_FOR_NONSYS_INPLACE_ENC", FALSE);
else
Warning ("ONLY_MOUNTED_VOL_SUPPORTED_FOR_NONSYS_INPLACE_ENC", hwndDlg);
}
CloseHandle (dev);
return FALSE;
}
}
/* Attempt to determine whether the filesystem can be safely shrunk */
if (NewFileSysSizeAfterShrink (dev, devicePath, NULL, NULL, silent) == -1)
{
// Cannot determine whether shrinking is required
if (!silent)
ShowInPlaceEncErrMsgWAltSteps (hwndDlg, "INPLACE_ENC_CANT_ACCESS_OR_GET_INFO_ON_VOL_ALT", TRUE);
CloseHandle (dev);
return FALSE;
}
/* Partition size */
deviceSize = GetDeviceSize (devicePath);
if (deviceSize < 0)
{
// Cannot determine the size of the partition
if (!silent)
Error ("INPLACE_ENC_CANT_ACCESS_OR_GET_INFO_ON_VOL", hwndDlg);
CloseHandle (dev);
return FALSE;
}
if (deviceSize < TC_NONSYS_INPLACE_ENC_MIN_VOL_SIZE)
{
// The partition is too small
if (!silent)
{
ShowInPlaceEncErrMsgWAltSteps (hwndDlg, "PARTITION_TOO_SMALL_FOR_NONSYS_INPLACE_ENC", FALSE);
}
CloseHandle (dev);
return FALSE;
}
/* Free space on the filesystem */
if (!DeviceIoControl (dev,
FSCTL_GET_NTFS_VOLUME_DATA,
NULL,
0,
(LPVOID) &ntfsVolData,
sizeof (ntfsVolData),
&nBytesReturned,
NULL))
{
if (!silent)
ShowInPlaceEncErrMsgWAltSteps (hwndDlg, "INPLACE_ENC_CANT_ACCESS_OR_GET_INFO_ON_VOL", TRUE);
CloseHandle (dev);
return FALSE;
}
if (ntfsVolData.FreeClusters.QuadPart * ntfsVolData.BytesPerCluster < TC_TOTAL_VOLUME_HEADERS_SIZE)
{
if (!silent)
ShowInPlaceEncErrMsgWAltSteps (hwndDlg, "NOT_ENOUGH_FREE_FILESYS_SPACE_FOR_SHRINK", TRUE);
CloseHandle (dev);
return FALSE;
}
/* Filesystem sector size */
if (ntfsVolData.BytesPerSector > TC_MAX_VOLUME_SECTOR_SIZE
|| ntfsVolData.BytesPerSector % ENCRYPTION_DATA_UNIT_SIZE != 0)
{
if (!silent)
ShowInPlaceEncErrMsgWAltSteps (hwndDlg, "SECTOR_SIZE_UNSUPPORTED", TRUE);
CloseHandle (dev);
return FALSE;
}
CloseHandle (dev);
return TRUE;
}
BOOL CheckRequirementsForNonSysInPlaceDec (HWND hwndDlg, const wchar_t *devicePath, BOOL silent)
{
int partitionNumber = -1, driveNumber = -1;
/* ---------- Checks that do not require admin rights ----------- */
/* Volume type (must be a partition or a dynamic volume) */
if ((swscanf (devicePath, L"\\Device\\HarddiskVolume%d", &partitionNumber) != 1
&& swscanf (devicePath, L"\\Device\\Harddisk%d\\Partition%d", &driveNumber, &partitionNumber) != 2)
|| partitionNumber == 0)
{
if (!silent)
Error ("INPLACE_ENC_INVALID_PATH", hwndDlg);
return FALSE;
}
/* Admin rights */
if (!IsAdmin())
{
// We rely on the wizard process to call us only when the whole wizard process has been elevated (so UAC
// status can be ignored). In case the IsAdmin() detection somehow fails, we allow the user to continue.
if (!silent)
Warning ("ADMIN_PRIVILEGES_WARN_DEVICES", hwndDlg);
}
/* ---------- Checks that may require admin rights ----------- */
// [Currently none]
return TRUE;
}
int EncryptPartitionInPlaceBegin (volatile FORMAT_VOL_PARAMETERS *volParams, volatile HANDLE *outHandle, WipeAlgorithmId wipeAlgorithm)
{
SHRINK_VOLUME_INFORMATION shrinkVolInfo;
signed __int64 sizeToShrinkTo;
int nStatus = ERR_SUCCESS;
PCRYPTO_INFO cryptoInfo = NULL;
PCRYPTO_INFO cryptoInfo2 = NULL;
HANDLE dev = INVALID_HANDLE_VALUE;
DWORD dwError;
unsigned char *header;
WCHAR dosDev[TC_MAX_PATH] = {0};
WCHAR devName[MAX_PATH] = {0};
int driveLetter = -1;
WCHAR deviceName[MAX_PATH];
uint64 dataAreaSize;
__int64 deviceSize;
LARGE_INTEGER offset;
DWORD dwResult;
HWND hwndDlg = volParams->hwndDlg;
SetNonSysInplaceEncUIStatus (NONSYS_INPLACE_ENC_STATUS_PREPARING);
if (!CheckRequirementsForNonSysInPlaceEnc (hwndDlg, volParams->volumePath, FALSE))
return ERR_DONT_REPORT;
header = (unsigned char *) TCalloc (TC_VOLUME_HEADER_EFFECTIVE_SIZE);
if (!header)
return ERR_OUTOFMEMORY;
VirtualLock (header, TC_VOLUME_HEADER_EFFECTIVE_SIZE);
deviceSize = GetDeviceSize (volParams->volumePath);
if (deviceSize < 0)
{
// Cannot determine the size of the partition
nStatus = ERR_PARAMETER_INCORRECT;
goto closing_seq;
}
if (deviceSize < TC_NONSYS_INPLACE_ENC_MIN_VOL_SIZE)
{
ShowInPlaceEncErrMsgWAltSteps (hwndDlg, "PARTITION_TOO_SMALL_FOR_NONSYS_INPLACE_ENC", TRUE);
nStatus = ERR_DONT_REPORT;
goto closing_seq;
}
dataAreaSize = GetVolumeDataAreaSize (volParams->hiddenVol, deviceSize);
StringCchCopyW (deviceName, ARRAYSIZE(deviceName), volParams->volumePath);
driveLetter = GetDiskDeviceDriveLetter (deviceName);
if (FakeDosNameForDevice (volParams->volumePath, dosDev, sizeof(dosDev),devName, sizeof(devName),FALSE) != 0)
{
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
if (IsDeviceMounted (devName))
{
dev = OpenPartitionVolume (hwndDlg, devName,
FALSE, // Do not require exclusive access (must be FALSE; otherwise, it will not be possible to dismount the volume or obtain its properties and FSCTL_ALLOW_EXTENDED_DASD_IO will fail too)
TRUE, // Require shared access (must be TRUE; otherwise, it will not be possible to dismount the volume or obtain its properties and FSCTL_ALLOW_EXTENDED_DASD_IO will fail too)
FALSE, // Do not ask the user to confirm shared access (if exclusive fails)
FALSE, // Do not append alternative instructions how to encrypt the data (to applicable error messages)
FALSE); // Non-silent mode
if (dev == INVALID_HANDLE_VALUE)
{
nStatus = ERR_DONT_REPORT;
goto closing_seq;
}
}
else
{
// The volume is not mounted so we can't work with the filesystem.
Error ("ONLY_MOUNTED_VOL_SUPPORTED_FOR_NONSYS_INPLACE_ENC", hwndDlg);
nStatus = ERR_DONT_REPORT;
goto closing_seq;
}
/* Gain "raw" access to the partition (the NTFS driver guards hidden sectors). */
if (!DeviceIoControl (dev,
FSCTL_ALLOW_EXTENDED_DASD_IO,
NULL,
0,
NULL,
0,
&dwResult,
NULL))
{
handleWin32Error (MainDlg, SRC_POS);
ShowInPlaceEncErrMsgWAltSteps (hwndDlg, "INPLACE_ENC_CANT_ACCESS_OR_GET_INFO_ON_VOL_ALT", TRUE);
nStatus = ERR_DONT_REPORT;
goto closing_seq;
}
/* Shrink the filesystem */
int64 totalClusterCount;
DWORD bytesPerCluster;
sizeToShrinkTo = NewFileSysSizeAfterShrink (dev, volParams->volumePath, &totalClusterCount, &bytesPerCluster, FALSE);
if (sizeToShrinkTo == -1)
{
ShowInPlaceEncErrMsgWAltSteps (hwndDlg, "INPLACE_ENC_CANT_ACCESS_OR_GET_INFO_ON_VOL_ALT", TRUE);
nStatus = ERR_DONT_REPORT;
goto closing_seq;
}
SetNonSysInplaceEncUIStatus (NONSYS_INPLACE_ENC_STATUS_RESIZING);
memset (&shrinkVolInfo, 0, sizeof (shrinkVolInfo));
shrinkVolInfo.ShrinkRequestType = ShrinkPrepare;
shrinkVolInfo.NewNumberOfSectors = sizeToShrinkTo;
if (!DeviceIoControl (dev,
FSCTL_SHRINK_VOLUME,
(LPVOID) &shrinkVolInfo,
sizeof (shrinkVolInfo),
NULL,
0,
&dwResult,
NULL))
{
handleWin32Error (hwndDlg, SRC_POS);
ShowInPlaceEncErrMsgWAltSteps (hwndDlg, "CANNOT_RESIZE_FILESYS", TRUE);
nStatus = ERR_DONT_REPORT;
goto closing_seq;
}
BOOL clustersMovedBeforeVolumeEnd = FALSE;
while (true)
{
shrinkVolInfo.ShrinkRequestType = ShrinkCommit;
shrinkVolInfo.NewNumberOfSectors = 0;
if (!DeviceIoControl (dev, FSCTL_SHRINK_VOLUME, &shrinkVolInfo, sizeof (shrinkVolInfo), NULL, 0, &dwResult, NULL))
{
// If there are any occupied clusters beyond the new desired end of the volume, the call fails with
// ERROR_ACCESS_DENIED (STATUS_ALREADY_COMMITTED).
if (GetLastError () == ERROR_ACCESS_DENIED)
{
if (!clustersMovedBeforeVolumeEnd)
{
if (MoveClustersBeforeThreshold (dev, deviceName, totalClusterCount - (bytesPerCluster > TC_TOTAL_VOLUME_HEADERS_SIZE ? 1 : TC_TOTAL_VOLUME_HEADERS_SIZE / bytesPerCluster)))
{
clustersMovedBeforeVolumeEnd = TRUE;
continue;
}
handleWin32Error (hwndDlg, SRC_POS);
}
}
else
handleWin32Error (hwndDlg, SRC_POS);
ShowInPlaceEncErrMsgWAltSteps (hwndDlg, "CANNOT_RESIZE_FILESYS", TRUE);
nStatus = ERR_DONT_REPORT;
goto closing_seq;
}
break;
}
SetNonSysInplaceEncUIStatus (NONSYS_INPLACE_ENC_STATUS_PREPARING);
/* Gain exclusive access to the volume */
nStatus = DismountFileSystem (hwndDlg, dev,
driveLetter,
TRUE,
TRUE,
FALSE);
if (nStatus != ERR_SUCCESS)
{
nStatus = ERR_DONT_REPORT;
goto closing_seq;
}
/* Create header backup on the partition. Until the volume is fully encrypted, the backup header will provide
us with the master key, encrypted range, and other data for pause/resume operations. We cannot create the
primary header until the entire partition is encrypted (because we encrypt backwards and the primary header
area is occuppied by data until the very end of the process). */
// Prepare the backup header
for (int wipePass = 0; wipePass < (wipeAlgorithm == TC_WIPE_NONE ? 1 : PRAND_HEADER_WIPE_PASSES); wipePass++)
{
PCRYPTO_INFO dummyInfo = NULL;
nStatus = CreateVolumeHeaderInMemory (hwndDlg, FALSE,
header,
volParams->ea,
FIRST_MODE_OF_OPERATION_ID,
volParams->password,
volParams->pkcs5,
volParams->pim,
wipePass == 0 ? NULL : (char *) cryptoInfo->master_keydata,
&cryptoInfo,
dataAreaSize,
0,
TC_VOLUME_DATA_OFFSET + dataAreaSize, // Start of the encrypted area = the first byte of the backup heeader (encrypting from the end)
0, // No data is encrypted yet
0,
volParams->headerFlags | TC_HEADER_FLAG_NONSYS_INPLACE_ENC,
volParams->sectorSize,
wipeAlgorithm == TC_WIPE_NONE ? FALSE : (wipePass < PRAND_HEADER_WIPE_PASSES - 1));
if (nStatus != 0)
goto closing_seq;
offset.QuadPart = TC_VOLUME_DATA_OFFSET + dataAreaSize;
if (!MoveFilePointer (dev, offset))
{
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
// Write the backup header to the partition
if (!WriteEffectiveVolumeHeader (TRUE, dev, header))
{
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
// Fill the reserved sectors of the backup header area with random data
nStatus = WriteRandomDataToReservedHeaderAreas (hwndDlg, dev, cryptoInfo, dataAreaSize, FALSE, TRUE);
if (nStatus != ERR_SUCCESS)
goto closing_seq;
// write fake hidden volume header to protect against attacks that use statistical entropy
// analysis to detect presence of hidden volumes
nStatus = CreateVolumeHeaderInMemory (hwndDlg, FALSE,
header,
volParams->ea,
FIRST_MODE_OF_OPERATION_ID,
NULL,
0,
0,
NULL,
&dummyInfo,
dataAreaSize,
dataAreaSize,
TC_VOLUME_DATA_OFFSET + dataAreaSize, // Start of the encrypted area = the first byte of the backup heeader (encrypting from the end)
dataAreaSize, // No data is encrypted yet
0,
volParams->headerFlags | TC_HEADER_FLAG_NONSYS_INPLACE_ENC,
volParams->sectorSize,
wipeAlgorithm == TC_WIPE_NONE ? FALSE : (wipePass < PRAND_HEADER_WIPE_PASSES - 1));
if (nStatus != ERR_SUCCESS)
goto closing_seq;
crypto_close (dummyInfo);
offset.QuadPart += TC_HIDDEN_VOLUME_HEADER_OFFSET;
if (!MoveFilePointer (dev, offset))
{
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
// Write the fake hidden backup header to the partition
if (!WriteEffectiveVolumeHeader (TRUE, dev, (uint8 *) header))
{
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
}
/* Now we will try to decrypt the backup header to verify it has been correctly written. */
nStatus = OpenBackupHeader (dev, volParams->volumePath, volParams->password, volParams->pkcs5, volParams->pim, &cryptoInfo2, NULL, deviceSize);
if (nStatus != ERR_SUCCESS
|| cryptoInfo->EncryptedAreaStart.Value != cryptoInfo2->EncryptedAreaStart.Value
|| cryptoInfo2->EncryptedAreaStart.Value == 0)
{
if (nStatus == ERR_SUCCESS)
nStatus = ERR_PARAMETER_INCORRECT;
goto closing_seq;
}
// The backup header is valid so we know we should be able to safely resume in-place encryption
// of this partition even if the system/app crashes.
/* Conceal the NTFS filesystem (by performing an easy-to-undo modification). This will prevent Windows
and apps from interfering with the volume until it has been fully encrypted. */
nStatus = ConcealNTFS (dev);
if (nStatus != ERR_SUCCESS)
goto closing_seq;
// /* If a drive letter is assigned to the device, remove it (so that users do not try to open it, which
//would cause Windows to ask them if they want to format the volume and other dangerous things). */
//if (driveLetter >= 0)
//{
// char rootPath[] = { driveLetter + 'A', ':', '\\', 0 };
// // Try to remove the assigned drive letter
// if (DeleteVolumeMountPoint (rootPath))
// driveLetter = -1;
//}
/* Update config files and app data */
// In the config file, increase the number of partitions where in-place encryption is in progress
SaveNonSysInPlaceEncSettings (1, wipeAlgorithm, FALSE);
// Add the wizard to the system startup sequence if appropriate
if (!IsNonInstallMode ())
ManageStartupSeqWiz (FALSE, L"/prinplace");
nStatus = ERR_SUCCESS;
closing_seq:
dwError = GetLastError();
if (cryptoInfo != NULL)
{
crypto_close (cryptoInfo);
cryptoInfo = NULL;
}
if (cryptoInfo2 != NULL)
{
crypto_close (cryptoInfo2);
cryptoInfo2 = NULL;
}
burn (header, TC_VOLUME_HEADER_EFFECTIVE_SIZE);
VirtualUnlock (header, TC_VOLUME_HEADER_EFFECTIVE_SIZE);
TCfree (header);
if (dosDev[0])
RemoveFakeDosName (volParams->volumePath, dosDev);
*outHandle = dev;
if (nStatus != ERR_SUCCESS)
SetLastError (dwError);
return nStatus;
}
int EncryptPartitionInPlaceResume (HANDLE dev,
volatile FORMAT_VOL_PARAMETERS *volParams,
WipeAlgorithmId wipeAlgorithm,
volatile BOOL *bTryToCorrectReadErrors)
{
PCRYPTO_INFO masterCryptoInfo = NULL, headerCryptoInfo = NULL, tmpCryptoInfo = NULL;
UINT64_STRUCT unitNo;
unsigned char *buf = NULL, *header = NULL;
uint8 *wipeBuffer = NULL;
uint8 wipeRandChars [TC_WIPE_RAND_CHAR_COUNT];
uint8 wipeRandCharsUpdate [TC_WIPE_RAND_CHAR_COUNT];
WCHAR dosDev[TC_MAX_PATH] = {0};
WCHAR devName[MAX_PATH] = {0};
WCHAR deviceName[MAX_PATH];
int nStatus = ERR_SUCCESS;
__int64 deviceSize;
uint64 remainingBytes, lastHeaderUpdateDistance = 0, zeroedSectorCount = 0;
uint32 workChunkSize;
DWORD dwError, dwResult;
BOOL bPause = FALSE, bEncryptedAreaSizeChanged = FALSE;
LARGE_INTEGER offset;
int sectorSize;
int i;
DWORD n;
WCHAR *devicePath = volParams->volumePath;
Password *password = volParams->password;
int pkcs5_prf = volParams->pkcs5;
int pim = volParams->pim;
DISK_GEOMETRY driveGeometry;
HWND hwndDlg = volParams->hwndDlg;
BOOL bIsRamEncryptionEnabled = IsRamEncryptionEnabled();
bInPlaceEncNonSysResumed = TRUE;
buf = (unsigned char *) TCalloc (TC_MAX_NONSYS_INPLACE_ENC_WORK_CHUNK_SIZE);
if (!buf)
{
nStatus = ERR_OUTOFMEMORY;
goto closing_seq;
}
header = (unsigned char *) TCalloc (TC_VOLUME_HEADER_EFFECTIVE_SIZE);
if (!header)
{
nStatus = ERR_OUTOFMEMORY;
goto closing_seq;
}
VirtualLock (header, TC_VOLUME_HEADER_EFFECTIVE_SIZE);
if (wipeAlgorithm != TC_WIPE_NONE)
{
wipeBuffer = (uint8 *) TCalloc (TC_MAX_NONSYS_INPLACE_ENC_WORK_CHUNK_SIZE);
if (!wipeBuffer)
{
nStatus = ERR_OUTOFMEMORY;
goto closing_seq;
}
}
headerCryptoInfo = crypto_open();
if (headerCryptoInfo == NULL)
{
nStatus = ERR_OUTOFMEMORY;
goto closing_seq;
}
deviceSize = GetDeviceSize (devicePath);
if (deviceSize < 0)
{
// Cannot determine the size of the partition
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
if (dev == INVALID_HANDLE_VALUE)
{
StringCchCopyW (deviceName, ARRAYSIZE(deviceName), devicePath);
if (FakeDosNameForDevice (deviceName, dosDev, sizeof(dosDev),devName, sizeof(devName),FALSE) != 0)
{
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
dev = OpenPartitionVolume (hwndDlg, devName,
FALSE, // Do not require exclusive access
FALSE, // Do not require shared access
TRUE, // Ask the user to confirm shared access (if exclusive fails)
FALSE, // Do not append alternative instructions how to encrypt the data (to applicable error messages)
FALSE); // Non-silent mode
if (dev == INVALID_HANDLE_VALUE)
{
nStatus = ERR_DONT_REPORT;
goto closing_seq;
}
}
// This should never be needed, but is still performed for extra safety (without checking the result)
DeviceIoControl (dev,
FSCTL_ALLOW_EXTENDED_DASD_IO,
NULL,
0,
NULL,
0,
&dwResult,
NULL);
if (!DeviceIoControl (dev, IOCTL_DISK_GET_DRIVE_GEOMETRY, NULL, 0, &driveGeometry, sizeof (driveGeometry), &dwResult, NULL))
{
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
sectorSize = driveGeometry.BytesPerSector;
nStatus = OpenBackupHeader (dev, devicePath, password, pkcs5_prf, pim, &masterCryptoInfo, headerCryptoInfo, deviceSize);
if (nStatus != ERR_SUCCESS)
goto closing_seq;
if (bIsRamEncryptionEnabled)
{
VcProtectKeys (masterCryptoInfo, VcGetEncryptionID (masterCryptoInfo));
VcProtectKeys (headerCryptoInfo, VcGetEncryptionID (headerCryptoInfo));
}
remainingBytes = masterCryptoInfo->VolumeSize.Value - masterCryptoInfo->EncryptedAreaLength.Value;
lastHeaderUpdateDistance = 0;
ExportProgressStats (masterCryptoInfo->EncryptedAreaLength.Value, masterCryptoInfo->VolumeSize.Value);
SetNonSysInplaceEncUIStatus (NONSYS_INPLACE_ENC_STATUS_ENCRYPTING);
bFirstNonSysInPlaceEncResumeDone = TRUE;
/* The in-place encryption core */
while (remainingBytes > 0)
{
workChunkSize = (uint32) min (remainingBytes, TC_MAX_NONSYS_INPLACE_ENC_WORK_CHUNK_SIZE);
if (workChunkSize % ENCRYPTION_DATA_UNIT_SIZE != 0)
{
nStatus = ERR_PARAMETER_INCORRECT;
goto closing_seq;
}
unitNo.Value = (remainingBytes - workChunkSize + TC_VOLUME_DATA_OFFSET) / ENCRYPTION_DATA_UNIT_SIZE;
// Read the plaintext into RAM
inplace_enc_read:
offset.QuadPart = masterCryptoInfo->EncryptedAreaStart.Value - workChunkSize - TC_VOLUME_DATA_OFFSET;
if (MoveFilePointer (dev, offset) == 0)
{
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
if (ReadFile (dev, buf, workChunkSize, &n, NULL) == 0)
{
// Read error
DWORD dwTmpErr = GetLastError ();
if (IsDiskReadError (dwTmpErr) && !bVolTransformThreadCancel)
{
// Physical defect or data corruption
if (!*bTryToCorrectReadErrors)
{
*bTryToCorrectReadErrors = (AskWarnYesNo ("ENABLE_BAD_SECTOR_ZEROING", hwndDlg) == IDYES);
}
if (*bTryToCorrectReadErrors)
{
// Try to correct the read errors physically
offset.QuadPart = masterCryptoInfo->EncryptedAreaStart.Value - workChunkSize - TC_VOLUME_DATA_OFFSET;
nStatus = ZeroUnreadableSectors (dev, offset, workChunkSize, sectorSize, &zeroedSectorCount);
if (nStatus != ERR_SUCCESS)
{
// Due to write errors, we can't correct the read errors
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
goto inplace_enc_read;
}
}
SetLastError (dwTmpErr); // Preserve the original error code
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
if (remainingBytes - workChunkSize < TC_INITIAL_NTFS_CONCEAL_PORTION_SIZE)
{
// We reached the inital portion of the filesystem, which we had concealed (in order to prevent
// Windows from interfering with the volume). Now we need to undo that modification.
for (i = 0; i < TC_INITIAL_NTFS_CONCEAL_PORTION_SIZE - (remainingBytes - workChunkSize); i++)
buf[i] ^= TC_NTFS_CONCEAL_CONSTANT;
}
// Encrypt the plaintext in RAM
EncryptDataUnits ((uint8 *) buf, &unitNo, workChunkSize / ENCRYPTION_DATA_UNIT_SIZE, masterCryptoInfo);
// If enabled, wipe the area to which we will write the ciphertext
if (wipeAlgorithm != TC_WIPE_NONE)
{
uint8 wipePass;
int wipePassCount = GetWipePassCount (wipeAlgorithm);
if (wipePassCount <= 0)
{
SetLastError (ERROR_INVALID_PARAMETER);
nStatus = ERR_PARAMETER_INCORRECT;
goto closing_seq;
}
offset.QuadPart = masterCryptoInfo->EncryptedAreaStart.Value - workChunkSize;
for (wipePass = 1; wipePass <= wipePassCount; ++wipePass)
{
if (!WipeBuffer (wipeAlgorithm, wipeRandChars, wipePass, wipeBuffer, workChunkSize))
{
ULONG index;
for (index = 0; index < workChunkSize; ++index)
{
wipeBuffer[index] = buf[index] + wipePass;
}
EncryptDataUnits (wipeBuffer, &unitNo, workChunkSize / ENCRYPTION_DATA_UNIT_SIZE, masterCryptoInfo);
memcpy (wipeRandCharsUpdate, wipeBuffer, sizeof (wipeRandCharsUpdate));
}
if (MoveFilePointer (dev, offset) == 0
|| WriteFile (dev, wipeBuffer, workChunkSize, &n, NULL) == 0)
{
// Write error
dwError = GetLastError();
// Undo failed write operation
if (workChunkSize > TC_VOLUME_DATA_OFFSET && MoveFilePointer (dev, offset))
{
DecryptDataUnits ((uint8 *) buf, &unitNo, workChunkSize / ENCRYPTION_DATA_UNIT_SIZE, masterCryptoInfo);
WriteFile (dev, buf + TC_VOLUME_DATA_OFFSET, workChunkSize - TC_VOLUME_DATA_OFFSET, &n, NULL);
}
SetLastError (dwError);
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
}
memcpy (wipeRandChars, wipeRandCharsUpdate, sizeof (wipeRandCharsUpdate));
}
// Write the ciphertext
offset.QuadPart = masterCryptoInfo->EncryptedAreaStart.Value - workChunkSize;
if (MoveFilePointer (dev, offset) == 0)
{
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
if (WriteFile (dev, buf, workChunkSize, &n, NULL) == 0)
{
// Write error
dwError = GetLastError();
// Undo failed write operation
if (workChunkSize > TC_VOLUME_DATA_OFFSET && MoveFilePointer (dev, offset))
{
DecryptDataUnits ((uint8 *) buf, &unitNo, workChunkSize / ENCRYPTION_DATA_UNIT_SIZE, masterCryptoInfo);
WriteFile (dev, buf + TC_VOLUME_DATA_OFFSET, workChunkSize - TC_VOLUME_DATA_OFFSET, &n, NULL);
}
SetLastError (dwError);
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
masterCryptoInfo->EncryptedAreaStart.Value -= workChunkSize;
masterCryptoInfo->EncryptedAreaLength.Value += workChunkSize;
remainingBytes -= workChunkSize;
lastHeaderUpdateDistance += workChunkSize;
bEncryptedAreaSizeChanged = TRUE;
if (lastHeaderUpdateDistance >= TC_NONSYS_INPLACE_ENC_HEADER_UPDATE_INTERVAL)
{
nStatus = FastVolumeHeaderUpdate (dev, headerCryptoInfo, masterCryptoInfo, deviceSize);
if (nStatus != ERR_SUCCESS)
goto closing_seq;
lastHeaderUpdateDistance = 0;
}
ExportProgressStats (masterCryptoInfo->EncryptedAreaLength.Value, masterCryptoInfo->VolumeSize.Value);
if (bVolTransformThreadCancel)
{
bPause = TRUE;
break;
}
}
nStatus = FastVolumeHeaderUpdate (dev, headerCryptoInfo, masterCryptoInfo, deviceSize);
if (nStatus != ERR_SUCCESS)
goto closing_seq;
if (!bPause)
{
/* The data area has been fully encrypted; create and write the primary volume header */
SetNonSysInplaceEncUIStatus (NONSYS_INPLACE_ENC_STATUS_FINALIZING);
for (int wipePass = 0; wipePass < (wipeAlgorithm == TC_WIPE_NONE ? 1 : PRAND_HEADER_WIPE_PASSES); wipePass++)
{
PCRYPTO_INFO dummyInfo = NULL;
CRYPTO_INFO tmpCI;
PCRYPTO_INFO cryptoInfoBackup = NULL;
if (bIsRamEncryptionEnabled)
{
VirtualLock (&tmpCI, sizeof(tmpCI));
memcpy (&tmpCI, masterCryptoInfo, sizeof (CRYPTO_INFO));
VcUnprotectKeys (&tmpCI, VcGetEncryptionID (masterCryptoInfo));
cryptoInfoBackup = masterCryptoInfo;
masterCryptoInfo = &tmpCI;
}
nStatus = CreateVolumeHeaderInMemory (hwndDlg, FALSE,
header,
headerCryptoInfo->ea,
headerCryptoInfo->mode,
password,
masterCryptoInfo->pkcs5,
pim,
(char *) masterCryptoInfo->master_keydata,
&tmpCryptoInfo,
masterCryptoInfo->VolumeSize.Value,
0,
masterCryptoInfo->EncryptedAreaStart.Value,
masterCryptoInfo->EncryptedAreaLength.Value,
masterCryptoInfo->RequiredProgramVersion,
masterCryptoInfo->HeaderFlags | TC_HEADER_FLAG_NONSYS_INPLACE_ENC,
masterCryptoInfo->SectorSize,
wipeAlgorithm == TC_WIPE_NONE ? FALSE : (wipePass < PRAND_HEADER_WIPE_PASSES - 1));
if (bIsRamEncryptionEnabled)
{
masterCryptoInfo = cryptoInfoBackup;
burn (&tmpCI, sizeof (CRYPTO_INFO));
VirtualUnlock (&tmpCI, sizeof(tmpCI));
}
if (nStatus != ERR_SUCCESS)
goto closing_seq;
offset.QuadPart = TC_VOLUME_HEADER_OFFSET;
if (MoveFilePointer (dev, offset) == 0
|| !WriteEffectiveVolumeHeader (TRUE, dev, (uint8 *) header))
{
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
if (bIsRamEncryptionEnabled)
{
VirtualLock (&tmpCI, sizeof(tmpCI));
memcpy (&tmpCI, headerCryptoInfo, sizeof (CRYPTO_INFO));
VcUnprotectKeys (&tmpCI, VcGetEncryptionID (headerCryptoInfo));
cryptoInfoBackup = headerCryptoInfo;
headerCryptoInfo = &tmpCI;
}
// Fill the reserved sectors of the header area with random data
nStatus = WriteRandomDataToReservedHeaderAreas (hwndDlg, dev, headerCryptoInfo, masterCryptoInfo->VolumeSize.Value, TRUE, FALSE);
if (bIsRamEncryptionEnabled)
{
headerCryptoInfo = cryptoInfoBackup;
burn (&tmpCI, sizeof (CRYPTO_INFO));
VirtualUnlock (&tmpCI, sizeof(tmpCI));
}
if (nStatus != ERR_SUCCESS)
goto closing_seq;
// write fake hidden volume header to protect against attacks that use statistical entropy
// analysis to detect presence of hidden volumes
nStatus = CreateVolumeHeaderInMemory (hwndDlg, FALSE,
header,
headerCryptoInfo->ea,
headerCryptoInfo->mode,
NULL,
0,
0,
NULL,
&dummyInfo,
masterCryptoInfo->VolumeSize.Value,
masterCryptoInfo->VolumeSize.Value,
masterCryptoInfo->EncryptedAreaStart.Value,
masterCryptoInfo->EncryptedAreaLength.Value,
masterCryptoInfo->RequiredProgramVersion,
masterCryptoInfo->HeaderFlags | TC_HEADER_FLAG_NONSYS_INPLACE_ENC,
masterCryptoInfo->SectorSize,
wipeAlgorithm == TC_WIPE_NONE ? FALSE : (wipePass < PRAND_HEADER_WIPE_PASSES - 1));
if (nStatus != ERR_SUCCESS)
goto closing_seq;
crypto_close (dummyInfo);
offset.QuadPart += TC_HIDDEN_VOLUME_HEADER_OFFSET;
if (MoveFilePointer (dev, offset) == 0
|| !WriteEffectiveVolumeHeader (TRUE, dev, (uint8 *) header))
{
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
}
// Update the configuration files
SaveNonSysInPlaceEncSettings (-1, wipeAlgorithm, FALSE);
SetNonSysInplaceEncUIStatus (NONSYS_INPLACE_ENC_STATUS_FINISHED);
nStatus = ERR_SUCCESS;
}
else
{
// The process has been paused by the user or aborted by the wizard (e.g. on app exit)
nStatus = ERR_USER_ABORT;
SetNonSysInplaceEncUIStatus (NONSYS_INPLACE_ENC_STATUS_PAUSED);
}
closing_seq:
dwError = GetLastError();
if (bEncryptedAreaSizeChanged
&& dev != INVALID_HANDLE_VALUE
&& masterCryptoInfo != NULL
&& headerCryptoInfo != NULL
&& deviceSize > 0)
{
// Execution of the core loop may have been interrupted due to an error or user action without updating the header
FastVolumeHeaderUpdate (dev, headerCryptoInfo, masterCryptoInfo, deviceSize);
}
if (masterCryptoInfo != NULL)
{
crypto_close (masterCryptoInfo);
masterCryptoInfo = NULL;
}
if (headerCryptoInfo != NULL)
{
crypto_close (headerCryptoInfo);
headerCryptoInfo = NULL;
}
if (tmpCryptoInfo != NULL)
{
crypto_close (tmpCryptoInfo);
tmpCryptoInfo = NULL;
}
if (dosDev[0])
RemoveFakeDosName (devicePath, dosDev);
if (dev != INVALID_HANDLE_VALUE)
{
CloseHandle (dev);
dev = INVALID_HANDLE_VALUE;
}
if (buf != NULL)
TCfree (buf);
if (header != NULL)
{
burn (header, TC_VOLUME_HEADER_EFFECTIVE_SIZE);
VirtualUnlock (header, TC_VOLUME_HEADER_EFFECTIVE_SIZE);
TCfree (header);
}
if (wipeBuffer != NULL)
TCfree (wipeBuffer);
if (zeroedSectorCount > 0)
{
wchar_t msg[30000] = {0};
wchar_t sizeStr[500] = {0};
GetSizeString (zeroedSectorCount * sectorSize, sizeStr, sizeof(sizeStr));
StringCbPrintfW (msg, sizeof(msg),
GetString ("ZEROED_BAD_SECTOR_COUNT"),
zeroedSectorCount,
sizeStr);
WarningDirect (msg, hwndDlg);
}
if (nStatus != ERR_SUCCESS && nStatus != ERR_USER_ABORT)
SetLastError (dwError);
return nStatus;
}
int DecryptPartitionInPlace (volatile FORMAT_VOL_PARAMETERS *volParams, volatile BOOL *DiscardUnreadableEncryptedSectors)
{
HANDLE dev = INVALID_HANDLE_VALUE;
PCRYPTO_INFO masterCryptoInfo = NULL, headerCryptoInfo = NULL;
UINT64_STRUCT unitNo;
char *buf = NULL;
uint8 *tmpSectorBuf = NULL;
WCHAR dosDev[TC_MAX_PATH] = {0};
WCHAR devName[MAX_PATH] = {0};
WCHAR deviceName[MAX_PATH];
int nStatus = ERR_SUCCESS;
__int64 deviceSize;
uint64 remainingBytes, workChunkStartByteOffset, lastHeaderUpdateDistance = 0, skippedBadSectorCount = 0;
uint32 workChunkSize;
DWORD dwError, dwResult;
BOOL bPause = FALSE, bEncryptedAreaSizeChanged = FALSE;
LARGE_INTEGER offset;
int sectorSize;
int i;
DWORD n;
WCHAR *devicePath = volParams->volumePath;
Password *password = volParams->password;
HWND hwndDlg = volParams->hwndDlg;
int pkcs5_prf = volParams->pkcs5;
int pim = volParams->pim;
DISK_GEOMETRY driveGeometry;
BOOL bIsRamEncryptionEnabled = IsRamEncryptionEnabled();
buf = (char *) TCalloc (TC_MAX_NONSYS_INPLACE_ENC_WORK_CHUNK_SIZE);
if (!buf)
{
nStatus = ERR_OUTOFMEMORY;
goto closing_seq;
}
headerCryptoInfo = crypto_open();
if (headerCryptoInfo == NULL)
{
nStatus = ERR_OUTOFMEMORY;
goto closing_seq;
}
deviceSize = GetDeviceSize (devicePath);
if (deviceSize < 0)
{
// Cannot determine the size of the partition
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
// The wizard should have dismounted the TC volume if it was mounted, but for extra safety we will check this again.
if (IsMountedVolume (devicePath))
{
int driveLetter = GetMountedVolumeDriveNo (devicePath);
if (driveLetter == -1
|| !UnmountVolume (hwndDlg, driveLetter, TRUE))
{
handleWin32Error (hwndDlg, SRC_POS);
AbortProcess ("CANT_DISMOUNT_VOLUME");
}
}
StringCchCopyW (deviceName, ARRAYSIZE(deviceName), devicePath);
if (FakeDosNameForDevice (deviceName, dosDev, sizeof(dosDev), devName, sizeof(devName), FALSE) != 0)
{
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
dev = OpenPartitionVolume (hwndDlg, devName,
TRUE, // Require exclusive access
FALSE, // Do not require shared access
TRUE, // Ask the user to confirm shared access (if exclusive fails)
FALSE, // Do not append alternative instructions how to encrypt the data (to applicable error messages)
FALSE); // Non-silent mode
if (dev == INVALID_HANDLE_VALUE)
{
nStatus = ERR_DONT_REPORT;
goto closing_seq;
}
// This should never be needed, but is still performed for extra safety (without checking the result)
DeviceIoControl (dev,
FSCTL_ALLOW_EXTENDED_DASD_IO,
NULL,
0,
NULL,
0,
&dwResult,
NULL);
if (!DeviceIoControl (dev, IOCTL_DISK_GET_DRIVE_GEOMETRY, NULL, 0, &driveGeometry, sizeof (driveGeometry), &dwResult, NULL))
{
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
if ( (driveGeometry.BytesPerSector == 0)
|| (driveGeometry.BytesPerSector > TC_MAX_VOLUME_SECTOR_SIZE)
|| (driveGeometry.BytesPerSector % ENCRYPTION_DATA_UNIT_SIZE != 0)
)
{
Error ("SECTOR_SIZE_UNSUPPORTED", hwndDlg);
nStatus = ERR_DONT_REPORT;
goto closing_seq;
}
sectorSize = driveGeometry.BytesPerSector;
tmpSectorBuf = (uint8 *) TCalloc (sectorSize);
if (!tmpSectorBuf)
{
nStatus = ERR_OUTOFMEMORY;
goto closing_seq;
}
nStatus = OpenBackupHeader (dev, devicePath, password, pkcs5_prf, pim, &masterCryptoInfo, headerCryptoInfo, deviceSize);
if (nStatus != ERR_SUCCESS)
goto closing_seq;
if (bIsRamEncryptionEnabled)
{
VcProtectKeys (masterCryptoInfo, VcGetEncryptionID (masterCryptoInfo));
VcProtectKeys (headerCryptoInfo, VcGetEncryptionID (headerCryptoInfo));
}
if (masterCryptoInfo->LegacyVolume)
{
Error ("NONSYS_INPLACE_DECRYPTION_BAD_VOL_FORMAT", hwndDlg);
nStatus = ERR_DONT_REPORT;
goto closing_seq;
}
if (masterCryptoInfo->hiddenVolume)
{
Error ("NONSYS_INPLACE_DECRYPTION_CANT_DECRYPT_HID_VOL", hwndDlg);
nStatus = ERR_DONT_REPORT;
goto closing_seq;
}
if (!bInPlaceEncNonSysResumed
&& masterCryptoInfo->VolumeSize.Value == masterCryptoInfo->EncryptedAreaLength.Value)
{
/* Decryption started (not resumed) */
if ((masterCryptoInfo->HeaderFlags & TC_HEADER_FLAG_NONSYS_INPLACE_ENC) == 0)
{
// The volume has not been encrypted in-place so it may contain a hidden volume.
// Ask the user to confirm it does not.
char *tmpStr[] = {0,
"CONFIRM_VOL_CONTAINS_NO_HIDDEN_VOL",
"VOL_CONTAINS_NO_HIDDEN_VOL",
"VOL_CONTAINS_A_HIDDEN_VOL",
0};
switch (AskMultiChoice ((void **) tmpStr, FALSE, hwndDlg))
{
case 1:
// NOP
break;
case 2:
default:
// Cancel
nStatus = ERR_DONT_REPORT;
goto closing_seq;
}
}
// Update config files and app data
// In the config file, increase the number of partitions where in-place decryption is in progress
SaveNonSysInPlaceEncSettings (1, TC_WIPE_NONE, TRUE);
// Add the wizard to the system startup sequence if appropriate
if (!IsNonInstallMode ())
ManageStartupSeqWiz (FALSE, L"/prinplace");
}
bInPlaceEncNonSysResumed = TRUE;
bFirstNonSysInPlaceEncResumeDone = TRUE;
remainingBytes = masterCryptoInfo->EncryptedAreaLength.Value;
lastHeaderUpdateDistance = 0;
ExportProgressStats (masterCryptoInfo->EncryptedAreaLength.Value, masterCryptoInfo->VolumeSize.Value);
SetNonSysInplaceEncUIStatus (NONSYS_INPLACE_ENC_STATUS_DECRYPTING);
/* The in-place decryption core */
while (remainingBytes > 0)
{
workChunkSize = (uint32) min (remainingBytes, TC_MAX_NONSYS_INPLACE_ENC_WORK_CHUNK_SIZE);
if (workChunkSize % ENCRYPTION_DATA_UNIT_SIZE != 0)
{
nStatus = ERR_PARAMETER_INCORRECT;
goto closing_seq;
}
workChunkStartByteOffset = masterCryptoInfo->EncryptedAreaStart.Value;
unitNo.Value = workChunkStartByteOffset / ENCRYPTION_DATA_UNIT_SIZE;
// Read the ciphertext into RAM
offset.QuadPart = workChunkStartByteOffset;
if (MoveFilePointer (dev, offset) == 0)
{
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
if (ReadFile (dev, buf, workChunkSize, &n, NULL) == 0)
{
// Read error
DWORD dwTmpErr = GetLastError ();
if (IsDiskReadError (dwTmpErr) && !bVolTransformThreadCancel)
{
// Physical defect or data corruption
if (!*DiscardUnreadableEncryptedSectors)
{
*DiscardUnreadableEncryptedSectors = (AskWarnYesNo ("DISCARD_UNREADABLE_ENCRYPTED_SECTORS", hwndDlg) == IDYES);
}
if (*DiscardUnreadableEncryptedSectors)
{
// Read the work chunk again, but this time each sector individually and skiping each bad sector
LARGE_INTEGER tmpSectorOffset;
uint64 tmpSectorCount;
uint64 tmpBufOffset = 0;
DWORD tmpNbrReadBytes = 0;
tmpSectorOffset.QuadPart = offset.QuadPart;
for (tmpSectorCount = workChunkSize / sectorSize; tmpSectorCount > 0; --tmpSectorCount)
{
if (MoveFilePointer (dev, tmpSectorOffset) == 0)
{
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
if (ReadFile (dev, tmpSectorBuf, sectorSize, &tmpNbrReadBytes, NULL) == 0
|| tmpNbrReadBytes != (DWORD) sectorSize)
{
// Read error
// Clear the buffer so the content of each unreadable sector is replaced with decrypted all-zero blocks (producing pseudorandom data)
memset (tmpSectorBuf, 0, sectorSize);
skippedBadSectorCount++;
}
memcpy (buf + tmpBufOffset, tmpSectorBuf, sectorSize);
tmpSectorOffset.QuadPart += sectorSize;
tmpBufOffset += sectorSize;
}
}
else
{
SetLastError (dwTmpErr); // Preserve the original error code
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
}
else
{
SetLastError (dwTmpErr); // Preserve the original error code
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
}
// Decrypt the ciphertext in RAM
DecryptDataUnits ((uint8 *) buf, &unitNo, workChunkSize / ENCRYPTION_DATA_UNIT_SIZE, masterCryptoInfo);
// Conceal initial portion of the filesystem
if (workChunkStartByteOffset - TC_VOLUME_DATA_OFFSET < TC_INITIAL_NTFS_CONCEAL_PORTION_SIZE)
{
// We are decrypting the initial TC_INITIAL_NTFS_CONCEAL_PORTION_SIZE bytes of the filesystem. We will
// conceal this portion to prevent Windows and applications from interfering with the volume.
for (i = 0; i < min (TC_INITIAL_NTFS_CONCEAL_PORTION_SIZE, workChunkStartByteOffset - TC_VOLUME_DATA_OFFSET + workChunkSize); i++)
buf[i] ^= TC_NTFS_CONCEAL_CONSTANT;
}
// Write the plaintext
offset.QuadPart = workChunkStartByteOffset - TC_VOLUME_DATA_OFFSET;
if (MoveFilePointer (dev, offset) == 0)
{
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
if (WriteFile (dev, buf, workChunkSize, &n, NULL) == 0)
{
// Write error
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
masterCryptoInfo->EncryptedAreaStart.Value += workChunkSize;
masterCryptoInfo->EncryptedAreaLength.Value -= workChunkSize;
remainingBytes -= workChunkSize;
lastHeaderUpdateDistance += workChunkSize;
bEncryptedAreaSizeChanged = TRUE;
if (lastHeaderUpdateDistance >= TC_NONSYS_INPLACE_ENC_HEADER_UPDATE_INTERVAL)
{
nStatus = FastVolumeHeaderUpdate (dev, headerCryptoInfo, masterCryptoInfo, deviceSize);
if (nStatus != ERR_SUCCESS)
{
// Possible write error
goto closing_seq;
}
lastHeaderUpdateDistance = 0;
}
ExportProgressStats (masterCryptoInfo->EncryptedAreaLength.Value, masterCryptoInfo->VolumeSize.Value);
if (bVolTransformThreadCancel)
{
bPause = TRUE;
break;
}
}
nStatus = FastVolumeHeaderUpdate (dev, headerCryptoInfo, masterCryptoInfo, deviceSize);
if (nStatus != ERR_SUCCESS)
{
// Possible write error
goto closing_seq;
}
if (!bPause)
{
/* Volume has been fully decrypted. */
// Prevent attempts to update volume header during the closing sequence
bEncryptedAreaSizeChanged = FALSE;
SetNonSysInplaceEncUIStatus (NONSYS_INPLACE_ENC_STATUS_FINALIZING);
/* Undo concealing of the filesystem */
nStatus = ConcealNTFS (dev);
if (nStatus != ERR_SUCCESS)
goto closing_seq;
/* Ovewrite the backup header and the remaining ciphertext with all-zero blocks (the primary header was overwritten with the decrypted data). */
memset (tmpSectorBuf, 0, sectorSize);
for (offset.QuadPart = masterCryptoInfo->VolumeSize.Value;
offset.QuadPart <= deviceSize - sectorSize;
offset.QuadPart += sectorSize)
{
if (MoveFilePointer (dev, offset) == 0)
{
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
if (WriteFile (dev, tmpSectorBuf, sectorSize, &n, NULL) == 0)
{
// Write error
dwError = GetLastError();
SetLastError (dwError);
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
}
/* Update the configuration files */
SaveNonSysInPlaceEncSettings (-1, TC_WIPE_NONE, TRUE);
SetNonSysInplaceEncUIStatus (NONSYS_INPLACE_ENC_STATUS_FINISHED);
nStatus = ERR_SUCCESS;
}
else
{
// The process has been paused by the user or aborted by the wizard (e.g. on app exit)
nStatus = ERR_USER_ABORT;
SetNonSysInplaceEncUIStatus (NONSYS_INPLACE_ENC_STATUS_PAUSED);
}
if (dev != INVALID_HANDLE_VALUE)
{
CloseHandle (dev);
dev = INVALID_HANDLE_VALUE;
}
closing_seq:
dwError = GetLastError();
if (bEncryptedAreaSizeChanged
&& dev != INVALID_HANDLE_VALUE
&& masterCryptoInfo != NULL
&& headerCryptoInfo != NULL
&& deviceSize > 0)
{
// Execution of the core loop may have been interrupted due to an error or user action without updating the header
FastVolumeHeaderUpdate (dev, headerCryptoInfo, masterCryptoInfo, deviceSize);
}
if (dev != INVALID_HANDLE_VALUE)
{
CloseHandle (dev);
dev = INVALID_HANDLE_VALUE;
}
if (masterCryptoInfo != NULL)
{
crypto_close (masterCryptoInfo);
masterCryptoInfo = NULL;
}
if (headerCryptoInfo != NULL)
{
crypto_close (headerCryptoInfo);
headerCryptoInfo = NULL;
}
if (dosDev[0])
RemoveFakeDosName (devicePath, dosDev);
if (buf != NULL)
{
TCfree (buf);
buf = NULL;
}
if (tmpSectorBuf != NULL)
{
TCfree (tmpSectorBuf);
tmpSectorBuf = NULL;
}
if (skippedBadSectorCount > 0)
{
wchar_t msg[30000] = {0};
wchar_t sizeStr[500] = {0};
GetSizeString (skippedBadSectorCount * sectorSize, sizeStr, sizeof(sizeStr));
StringCbPrintfW (msg, sizeof(msg),
GetString ("SKIPPED_BAD_SECTOR_COUNT"),
skippedBadSectorCount,
sizeStr);
WarningDirect (msg, hwndDlg);
}
if (nStatus != ERR_SUCCESS && nStatus != ERR_USER_ABORT)
SetLastError (dwError);
return nStatus;
}
int FastVolumeHeaderUpdate (HANDLE dev, CRYPTO_INFO *headerCryptoInfo, CRYPTO_INFO *masterCryptoInfo, __int64 deviceSize)
{
LARGE_INTEGER offset;
DWORD n;
int nStatus = ERR_SUCCESS;
uint8 *header;
DWORD dwError;
uint32 headerCrc32;
uint8 *fieldPos;
PCRYPTO_INFO pCryptoInfo = headerCryptoInfo;
BOOL bIsRamEncryptionEnabled = IsRamEncryptionEnabled();
header = (uint8 *) TCalloc (TC_VOLUME_HEADER_EFFECTIVE_SIZE);
if (!header)
return ERR_OUTOFMEMORY;
VirtualLock (header, TC_VOLUME_HEADER_EFFECTIVE_SIZE);
fieldPos = (uint8 *) header + TC_HEADER_OFFSET_ENCRYPTED_AREA_START;
offset.QuadPart = deviceSize - TC_VOLUME_HEADER_GROUP_SIZE;
if (MoveFilePointer (dev, offset) == 0
|| !ReadEffectiveVolumeHeader (TRUE, dev, header, &n) || n < TC_VOLUME_HEADER_EFFECTIVE_SIZE)
{
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
if (bIsRamEncryptionEnabled)
{
pCryptoInfo = crypto_open();
if (!pCryptoInfo)
{
nStatus = ERR_OUTOFMEMORY;
goto closing_seq;
}
memcpy (pCryptoInfo, headerCryptoInfo, sizeof (CRYPTO_INFO));
VcUnprotectKeys (pCryptoInfo, VcGetEncryptionID (headerCryptoInfo));
}
DecryptBuffer (header + HEADER_ENCRYPTED_DATA_OFFSET, HEADER_ENCRYPTED_DATA_SIZE, pCryptoInfo);
if (GetHeaderField32 (header, TC_HEADER_OFFSET_MAGIC) != 0x56455241)
{
nStatus = ERR_PARAMETER_INCORRECT;
goto closing_seq;
}
mputInt64 (fieldPos, (masterCryptoInfo->EncryptedAreaStart.Value));
mputInt64 (fieldPos, (masterCryptoInfo->EncryptedAreaLength.Value));
// We need to ensure the TC_HEADER_FLAG_NONSYS_INPLACE_ENC flag bit is set, because if volumes created by TC-format
// were decrypted in place, it would be possible to mount them partially encrypted and it wouldn't be possible
// to resume interrupted decryption after the wizard exits.
masterCryptoInfo->HeaderFlags |= TC_HEADER_FLAG_NONSYS_INPLACE_ENC;
fieldPos = (uint8 *) header + TC_HEADER_OFFSET_FLAGS;
mputLong (fieldPos, (masterCryptoInfo->HeaderFlags));
headerCrc32 = GetCrc32 (header + TC_HEADER_OFFSET_MAGIC, TC_HEADER_OFFSET_HEADER_CRC - TC_HEADER_OFFSET_MAGIC);
fieldPos = (uint8 *) header + TC_HEADER_OFFSET_HEADER_CRC;
mputLong (fieldPos, headerCrc32);
EncryptBuffer (header + HEADER_ENCRYPTED_DATA_OFFSET, HEADER_ENCRYPTED_DATA_SIZE, pCryptoInfo);
if (MoveFilePointer (dev, offset) == 0
|| !WriteEffectiveVolumeHeader (TRUE, dev, header))
{
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
closing_seq:
dwError = GetLastError();
if (bIsRamEncryptionEnabled && pCryptoInfo)
{
crypto_close(pCryptoInfo);
}
burn (header, TC_VOLUME_HEADER_EFFECTIVE_SIZE);
VirtualUnlock (header, TC_VOLUME_HEADER_EFFECTIVE_SIZE);
TCfree (header);
if (nStatus != ERR_SUCCESS)
SetLastError (dwError);
return nStatus;
}
static HANDLE OpenPartitionVolume (HWND hwndDlg, const wchar_t *devName,
BOOL bExclusiveRequired,
BOOL bSharedRequired,
BOOL bSharedRequiresConfirmation,
BOOL bShowAlternativeSteps,
BOOL bSilent)
{
HANDLE dev = INVALID_HANDLE_VALUE;
int retryCount = 0;
if (bExclusiveRequired)
bSharedRequired = FALSE;
if (bExclusiveRequired || !bSharedRequired)
{
// Exclusive access
// Note that when exclusive access is denied, it is worth retrying (usually succeeds after a few tries).
while (dev == INVALID_HANDLE_VALUE && retryCount++ < EXCL_ACCESS_MAX_AUTO_RETRIES)
{
dev = CreateFile (devName, GENERIC_READ | GENERIC_WRITE, 0, NULL, OPEN_EXISTING, FILE_FLAG_WRITE_THROUGH, NULL);
if (retryCount > 1)
Sleep (EXCL_ACCESS_AUTO_RETRY_DELAY);
}
}
if (dev == INVALID_HANDLE_VALUE)
{
if (bExclusiveRequired)
{
if (!bSilent)
{
handleWin32Error (hwndDlg, SRC_POS);
if (bShowAlternativeSteps)
ShowInPlaceEncErrMsgWAltSteps (hwndDlg, "INPLACE_ENC_CANT_ACCESS_OR_GET_INFO_ON_VOL_ALT", TRUE);
else
Error ("INPLACE_ENC_CANT_ACCESS_OR_GET_INFO_ON_VOL", hwndDlg);
}
return INVALID_HANDLE_VALUE;
}
// Shared mode
dev = CreateFile (devName, GENERIC_READ | GENERIC_WRITE, FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, OPEN_EXISTING, FILE_FLAG_WRITE_THROUGH, NULL);
if (dev != INVALID_HANDLE_VALUE)
{
if (bSharedRequiresConfirmation
&& !bSilent
&& AskWarnNoYes ("DEVICE_IN_USE_INPLACE_ENC", hwndDlg) == IDNO)
{
CloseHandle (dev);
return INVALID_HANDLE_VALUE;
}
}
else
{
if (!bSilent)
{
handleWin32Error (MainDlg, SRC_POS);
if (bShowAlternativeSteps)
ShowInPlaceEncErrMsgWAltSteps (hwndDlg, "INPLACE_ENC_CANT_ACCESS_OR_GET_INFO_ON_VOL_ALT", TRUE);
else
Error ("INPLACE_ENC_CANT_ACCESS_OR_GET_INFO_ON_VOL", hwndDlg);
}
return INVALID_HANDLE_VALUE;
}
}
return dev;
}
static int DismountFileSystem (HWND hwndDlg, HANDLE dev,
int driveLetter,
BOOL bForcedAllowed,
BOOL bForcedRequiresConfirmation,
BOOL bSilent)
{
int attempt;
BOOL bResult;
DWORD dwResult;
CloseVolumeExplorerWindows (MainDlg, driveLetter);
attempt = UNMOUNT_MAX_AUTO_RETRIES * 10;
while (!(bResult = DeviceIoControl (dev, FSCTL_LOCK_VOLUME, NULL, 0, NULL, 0, &dwResult, NULL))
&& attempt > 0)
{
Sleep (UNMOUNT_AUTO_RETRY_DELAY);
attempt--;
}
if (!bResult)
{
if (!bForcedAllowed)
{
if (!bSilent)
ShowInPlaceEncErrMsgWAltSteps (hwndDlg, "INPLACE_ENC_CANT_LOCK_OR_DISMOUNT_FILESYS", TRUE);
return ERR_DONT_REPORT;
}
if (bForcedRequiresConfirmation
&& !bSilent
&& AskWarnYesNo ("VOL_LOCK_FAILED_OFFER_FORCED_DISMOUNT", hwndDlg) == IDNO)
{
return ERR_DONT_REPORT;
}
}
// Dismount the volume
attempt = UNMOUNT_MAX_AUTO_RETRIES * 10;
while (!(bResult = DeviceIoControl (dev, FSCTL_DISMOUNT_VOLUME, NULL, 0, NULL, 0, &dwResult, NULL))
&& attempt > 0)
{
Sleep (UNMOUNT_AUTO_RETRY_DELAY);
attempt--;
}
if (!bResult)
{
if (!bSilent)
ShowInPlaceEncErrMsgWAltSteps (hwndDlg, "INPLACE_ENC_CANT_LOCK_OR_DISMOUNT_FILESYS", TRUE);
return ERR_DONT_REPORT;
}
return ERR_SUCCESS;
}
// Easy-to-undo modification applied to conceal the NTFS filesystem (to prevent Windows and apps from
// interfering with it until the volume has been fully encrypted). Note that this function will precisely
// undo any modifications it made to the filesystem automatically if an error occurs when writing (including
// physical drive defects).
static int ConcealNTFS (HANDLE dev)
{
char buf [TC_INITIAL_NTFS_CONCEAL_PORTION_SIZE];
DWORD nbrBytesProcessed, nbrBytesProcessed2;
int i;
LARGE_INTEGER offset;
DWORD dwError;
offset.QuadPart = 0;
if (MoveFilePointer (dev, offset) == 0)
return ERR_OS_ERROR;
if (ReadFile (dev, buf, TC_INITIAL_NTFS_CONCEAL_PORTION_SIZE, &nbrBytesProcessed, NULL) == 0)
return ERR_OS_ERROR;
for (i = 0; i < TC_INITIAL_NTFS_CONCEAL_PORTION_SIZE; i++)
buf[i] ^= TC_NTFS_CONCEAL_CONSTANT;
offset.QuadPart = 0;
if (MoveFilePointer (dev, offset) == 0)
return ERR_OS_ERROR;
if (WriteFile (dev, buf, TC_INITIAL_NTFS_CONCEAL_PORTION_SIZE, &nbrBytesProcessed, NULL) == 0)
{
// One or more of the sectors is/are probably damaged and cause write errors.
// We must undo the modifications we made.
dwError = GetLastError();
for (i = 0; i < TC_INITIAL_NTFS_CONCEAL_PORTION_SIZE; i++)
buf[i] ^= TC_NTFS_CONCEAL_CONSTANT;
offset.QuadPart = 0;
do
{
Sleep (1);
}
while (MoveFilePointer (dev, offset) == 0
|| WriteFile (dev, buf, TC_INITIAL_NTFS_CONCEAL_PORTION_SIZE, &nbrBytesProcessed2, NULL) == 0);
SetLastError (dwError);
return ERR_OS_ERROR;
}
return ERR_SUCCESS;
}
void ShowInPlaceEncErrMsgWAltSteps (HWND hwndDlg, char *iniStrId, BOOL bErr)
{
wchar_t msg[30000];
StringCbCopyW (msg, sizeof(msg), GetString (iniStrId));
StringCbCatW (msg, sizeof(msg), L"\n\n\n");
StringCbCatW (msg, sizeof(msg), GetString ("INPLACE_ENC_ALTERNATIVE_STEPS"));
if (bErr)
ErrorDirect (msg, hwndDlg);
else
WarningDirect (msg, hwndDlg);
}
static void ExportProgressStats (__int64 bytesDone, __int64 totalSize)
{
NonSysInplaceEncBytesDone = bytesDone;
NonSysInplaceEncTotalSize = totalSize;
}
void SetNonSysInplaceEncUIStatus (int nonSysInplaceEncStatus)
{
NonSysInplaceEncStatus = nonSysInplaceEncStatus;
}
BOOL SaveNonSysInPlaceEncSettings (int delta, WipeAlgorithmId newWipeAlgorithm, BOOL bDecrypt)
{
int count;
char str[32];
WipeAlgorithmId savedWipeAlgorithm = TC_WIPE_NONE;
if (delta == 0)
return TRUE;
count = LoadNonSysInPlaceEncSettings (&savedWipeAlgorithm) + delta;
if (count < 1)
{
RemoveNonSysInPlaceEncNotifications();
return TRUE;
}
else if (!bDecrypt)
{
if (newWipeAlgorithm != TC_WIPE_NONE)
{
StringCbPrintfA (str, sizeof(str), "%d", (int) newWipeAlgorithm);
SaveBufferToFile (str, GetConfigPath (TC_APPD_FILENAME_NONSYS_INPLACE_ENC_WIPE), (DWORD) strlen(str), FALSE, FALSE);
}
else if (FileExists (GetConfigPath (TC_APPD_FILENAME_NONSYS_INPLACE_ENC_WIPE)))
{
_wremove (GetConfigPath (TC_APPD_FILENAME_NONSYS_INPLACE_ENC_WIPE));
}
}
StringCbPrintfA (str, sizeof(str), "%d", count);
return SaveBufferToFile (str, GetConfigPath (TC_APPD_FILENAME_NONSYS_INPLACE_ENC), (DWORD) strlen(str), FALSE, FALSE);
}
// This function moves the file pointer to the given offset. It first retrieves the current
// file position using SetFilePointerEx() with FILE_CURRENT as the reference point, and then
// calculates the difference between the current position and the desired position. Subsequently,
// it moves the file pointer by the difference calculated using SetFilePointerEx() again.
//
// This approach of moving the file pointer relatively (instead of absolutely) was implemented
// as a workaround to address the performance issues related to in-place encryption. When using
// SetFilePointerEx() with FILE_BEGIN as the reference point, reaching the end of large drives
// during in-place encryption can cause significant slowdowns. By moving the file pointer
// relatively, these performance issues are mitigated.
//
// We fall back to absolute positioning if the relative positioning fails.
BOOL MoveFilePointer (HANDLE dev, LARGE_INTEGER offset)
{
LARGE_INTEGER currOffset;
LARGE_INTEGER diffOffset;
currOffset.QuadPart = 0;
if (SetFilePointerEx (dev, currOffset, &currOffset, FILE_CURRENT))
{
diffOffset.QuadPart = offset.QuadPart - currOffset.QuadPart;
if (diffOffset.QuadPart == 0)
return TRUE;
// Moves the file pointer by the difference between current and desired positions
if (SetFilePointerEx (dev, diffOffset, NULL, FILE_CURRENT))
return TRUE;
}
// An error occurred, fallback to absolute positioning
return SetFilePointerEx (dev, offset, NULL, FILE_BEGIN);
}
// Repairs damaged sectors (i.e. those with read errors) by zeroing them.
// Note that this operating fails if there are any write errors.
int ZeroUnreadableSectors (HANDLE dev, LARGE_INTEGER startOffset, int64 size, int sectorSize, uint64 *zeroedSectorCount)
{
int nStatus;
DWORD n;
int64 sectorCount;
LARGE_INTEGER workOffset;
uint8 *sectorBuffer = NULL;
DWORD dwError;
workOffset.QuadPart = startOffset.QuadPart;
sectorBuffer = (uint8 *) TCalloc (sectorSize);
if (!sectorBuffer)
return ERR_OUTOFMEMORY;
if (!MoveFilePointer(dev, workOffset))
{
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
for (sectorCount = size / sectorSize; sectorCount > 0; --sectorCount)
{
if (ReadFile (dev, sectorBuffer, sectorSize, &n, NULL) == 0)
{
memset (sectorBuffer, 0, sectorSize);
// If ReadFile failed, move back to start of the unreadable sector
if (MoveFilePointer (dev, workOffset) == 0)
{
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
if (WriteFile (dev, sectorBuffer, sectorSize, &n, NULL) == 0)
{
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
++(*zeroedSectorCount);
}
workOffset.QuadPart += n;
}
nStatus = ERR_SUCCESS;
closing_seq:
dwError = GetLastError();
if (sectorBuffer != NULL)
TCfree (sectorBuffer);
if (nStatus != ERR_SUCCESS)
SetLastError (dwError);
return nStatus;
}
static int OpenBackupHeader (HANDLE dev, const wchar_t *devicePath, Password *password, int pkcs5, int pim, PCRYPTO_INFO *retMasterCryptoInfo, CRYPTO_INFO *headerCryptoInfo, __int64 deviceSize)
{
LARGE_INTEGER offset;
DWORD n;
int nStatus = ERR_SUCCESS;
unsigned char *header;
DWORD dwError;
header = (unsigned char *) TCalloc (TC_VOLUME_HEADER_EFFECTIVE_SIZE);
if (!header)
return ERR_OUTOFMEMORY;
VirtualLock (header, TC_VOLUME_HEADER_EFFECTIVE_SIZE);
offset.QuadPart = deviceSize - TC_VOLUME_HEADER_GROUP_SIZE;
if (MoveFilePointer (dev, offset) == 0
|| !ReadEffectiveVolumeHeader (TRUE, dev, header, &n) || n < TC_VOLUME_HEADER_EFFECTIVE_SIZE)
{
nStatus = ERR_OS_ERROR;
goto closing_seq;
}
nStatus = ReadVolumeHeader (FALSE, header, password, pkcs5, pim, retMasterCryptoInfo, headerCryptoInfo);
if (nStatus != ERR_SUCCESS)
goto closing_seq;
closing_seq:
dwError = GetLastError();
burn (header, TC_VOLUME_HEADER_EFFECTIVE_SIZE);
VirtualUnlock (header, TC_VOLUME_HEADER_EFFECTIVE_SIZE);
TCfree (header);
dwError = GetLastError();
if (nStatus != ERR_SUCCESS)
SetLastError (dwError);
return nStatus;
}
static BOOL GetFreeClusterBeforeThreshold (HANDLE volumeHandle, int64 *freeCluster, int64 clusterThreshold)
{
const int bitmapSize = 65536;
uint8 bitmapBuffer[bitmapSize + sizeof (VOLUME_BITMAP_BUFFER)];
VOLUME_BITMAP_BUFFER *bitmap = (VOLUME_BITMAP_BUFFER *) bitmapBuffer;
STARTING_LCN_INPUT_BUFFER startLcn;
startLcn.StartingLcn.QuadPart = 0;
DWORD bytesReturned;
while (DeviceIoControl (volumeHandle, FSCTL_GET_VOLUME_BITMAP, &startLcn, sizeof (startLcn), &bitmapBuffer, sizeof (bitmapBuffer), &bytesReturned, NULL)
|| GetLastError() == ERROR_MORE_DATA)
{
for (int64 bitmapIndex = 0; bitmapIndex < min (bitmapSize, (bitmap->BitmapSize.QuadPart / 8)); ++bitmapIndex)
{
if (bitmap->StartingLcn.QuadPart + bitmapIndex * 8 >= clusterThreshold)
goto err;
if (bitmap->Buffer[bitmapIndex] != 0xff)
{
for (int bit = 0; bit < 8; ++bit)
{
if ((bitmap->Buffer[bitmapIndex] & (1 << bit)) == 0)
{
*freeCluster = bitmap->StartingLcn.QuadPart + bitmapIndex * 8 + bit;
if (*freeCluster >= clusterThreshold)
goto err;
return TRUE;
}
}
}
}
startLcn.StartingLcn.QuadPart += min (bitmapSize * 8, bitmap->BitmapSize.QuadPart);
}
err:
SetLastError (ERROR_DISK_FULL);
return FALSE;
}
static BOOL MoveClustersBeforeThresholdInDir (HANDLE volumeHandle, const wstring &directory, int64 clusterThreshold)
{
WIN32_FIND_DATAW findData;
HANDLE findHandle = FindFirstFileW (((directory.size() <= 3 ? L"" : L"\\\\?\\") + directory + L"\\*").c_str(), &findData);
if (findHandle == INVALID_HANDLE_VALUE)
return TRUE; // Error ignored
finally_do_arg (HANDLE, findHandle, { FindClose (finally_arg); });
// Find all files and directories
do
{
if (findData.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)
{
wstring subDir = findData.cFileName;
if (subDir == L"." || subDir == L"..")
continue;
if (!MoveClustersBeforeThresholdInDir (volumeHandle, directory + L"\\" + subDir, clusterThreshold))
return FALSE;
}
DWORD access = FILE_READ_ATTRIBUTES;
if (findData.dwFileAttributes & FILE_ATTRIBUTE_ENCRYPTED)
access = FILE_READ_DATA;
HANDLE fsObject = CreateFileW ((directory + L"\\" + findData.cFileName).c_str(), access, FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, NULL, OPEN_EXISTING, FILE_FLAG_BACKUP_SEMANTICS, NULL);
if (fsObject == INVALID_HANDLE_VALUE)
continue;
finally_do_arg (HANDLE, fsObject, { CloseHandle (finally_arg); });
STARTING_VCN_INPUT_BUFFER startVcn;
startVcn.StartingVcn.QuadPart = 0;
RETRIEVAL_POINTERS_BUFFER retPointers;
DWORD bytesReturned;
// Find clusters allocated beyond the threshold
while (DeviceIoControl (fsObject, FSCTL_GET_RETRIEVAL_POINTERS, &startVcn, sizeof (startVcn), &retPointers, sizeof (retPointers), &bytesReturned, NULL)
|| GetLastError() == ERROR_MORE_DATA)
{
if (retPointers.ExtentCount == 0)
break;
if (retPointers.Extents[0].Lcn.QuadPart != -1)
{
int64 extentStartCluster = retPointers.Extents[0].Lcn.QuadPart;
int64 extentLen = retPointers.Extents[0].NextVcn.QuadPart - retPointers.StartingVcn.QuadPart;
int64 extentEndCluster = extentStartCluster + extentLen - 1;
if (extentEndCluster >= clusterThreshold)
{
// Move clusters before the threshold
for (int64 movedCluster = max (extentStartCluster, clusterThreshold); movedCluster <= extentEndCluster; ++movedCluster)
{
for (int retry = 0; ; ++retry)
{
MOVE_FILE_DATA moveData;
if (GetFreeClusterBeforeThreshold (volumeHandle, &moveData.StartingLcn.QuadPart, clusterThreshold))
{
moveData.FileHandle = fsObject;
moveData.StartingVcn.QuadPart = movedCluster - extentStartCluster + retPointers.StartingVcn.QuadPart;
moveData.ClusterCount = 1;
if (DeviceIoControl (volumeHandle, FSCTL_MOVE_FILE, &moveData, sizeof (moveData), NULL, 0, &bytesReturned, NULL))
break;
}
if (retry > 600)
return FALSE;
// There are possible race conditions as we work on a live filesystem
Sleep (100);
}
}
}
}
startVcn.StartingVcn = retPointers.Extents[0].NextVcn;
}
} while (FindNextFileW (findHandle, &findData));
return TRUE;
}
BOOL MoveClustersBeforeThreshold (HANDLE volumeHandle, PWSTR volumeDevicePath, int64 clusterThreshold)
{
int drive = GetDiskDeviceDriveLetter (volumeDevicePath);
if (drive == -1)
{
SetLastError (ERROR_INVALID_PARAMETER);
return FALSE;
}
wstring volumeRoot = L"X:";
volumeRoot[0] = L'A' + (wchar_t) drive;
return MoveClustersBeforeThresholdInDir (volumeHandle, volumeRoot, clusterThreshold);
}
|