diff options
author | David Foerster <david.foerster@informatik.hu-berlin.de> | 2016-05-10 20:20:14 +0200 |
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committer | David Foerster <david.foerster@informatik.hu-berlin.de> | 2016-05-10 20:20:14 +0200 |
commit | fc37cc4a02ed13d1a73b941a9f80975600fd1b99 (patch) | |
tree | ad9e5ac81111402b5c47dc06944cc5243824c4b5 /src/Common/Fat.c | |
parent | 98b04198c6ea5bc07cca50956809068adf1fea82 (diff) | |
download | VeraCrypt-fc37cc4a02ed13d1a73b941a9f80975600fd1b99.tar.gz VeraCrypt-fc37cc4a02ed13d1a73b941a9f80975600fd1b99.zip |
Normalize all line terminators
Diffstat (limited to 'src/Common/Fat.c')
-rw-r--r-- | src/Common/Fat.c | 898 |
1 files changed, 449 insertions, 449 deletions
diff --git a/src/Common/Fat.c b/src/Common/Fat.c index 2a34674a..fadb80b1 100644 --- a/src/Common/Fat.c +++ b/src/Common/Fat.c @@ -1,449 +1,449 @@ -/*
- Legal Notice: Some portions of the source code contained in this file were
- derived from the source code of TrueCrypt 7.1a, which is
- Copyright (c) 2003-2012 TrueCrypt Developers Association and which is
- governed by the TrueCrypt License 3.0, also from the source code of
- Encryption for the Masses 2.02a, which is Copyright (c) 1998-2000 Paul Le Roux
- and which is governed by the 'License Agreement for Encryption for the Masses'
- Modifications and additions to the original source code (contained in this file)
- and all other portions of this file are Copyright (c) 2013-2016 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. */
-
-#include <stdlib.h>
-#include <string.h>
-#include <time.h>
-
-#include "Tcdefs.h"
-
-#include "Crypto.h"
-#include "Common/Endian.h"
-#include "Format.h"
-#include "Fat.h"
-#include "Progress.h"
-#include "Random.h"
-#include "Volumes.h"
-
-void
-GetFatParams (fatparams * ft)
-{
- uint64 volumeSize = (uint64) ft->num_sectors * ft->sector_size;
- unsigned int fatsecs;
-
- if(ft->cluster_size == 0) // 'Default' cluster size
- {
- uint32 clusterSize;
-
- // Determine optimal cluster size to minimize FAT size (mounting delay), maximize number of files, keep 4 KB alignment, etc.
- if (volumeSize >= 2 * BYTES_PER_TB)
- clusterSize = 256 * BYTES_PER_KB;
- else if (volumeSize >= 512 * BYTES_PER_GB)
- clusterSize = 128 * BYTES_PER_KB;
- else if (volumeSize >= 128 * BYTES_PER_GB)
- clusterSize = 64 * BYTES_PER_KB;
- else if (volumeSize >= 64 * BYTES_PER_GB)
- clusterSize = 32 * BYTES_PER_KB;
- else if (volumeSize >= 32 * BYTES_PER_GB)
- clusterSize = 16 * BYTES_PER_KB;
- else if (volumeSize >= 16 * BYTES_PER_GB)
- clusterSize = 8 * BYTES_PER_KB;
- else if (volumeSize >= 512 * BYTES_PER_MB)
- clusterSize = 4 * BYTES_PER_KB;
- else if (volumeSize >= 256 * BYTES_PER_MB)
- clusterSize = 2 * BYTES_PER_KB;
- else if (volumeSize >= 1 * BYTES_PER_MB)
- clusterSize = 1 * BYTES_PER_KB;
- else
- clusterSize = 512;
-
- ft->cluster_size = clusterSize / ft->sector_size;
-
- if (ft->cluster_size == 0)
- ft->cluster_size = 1;
-
- if (((unsigned __int64) ft->cluster_size * ft->sector_size) > TC_MAX_FAT_CLUSTER_SIZE)
- ft->cluster_size = TC_MAX_FAT_CLUSTER_SIZE / ft->sector_size;
-
- if (ft->cluster_size > 128)
- ft->cluster_size = 128;
- }
-
- if (volumeSize <= TC_MAX_FAT_CLUSTER_SIZE * 4)
- ft->cluster_size = 1;
-
- // Geometry always set to SECTORS/1/1
- ft->secs_track = 1;
- ft->heads = 1;
-
- ft->dir_entries = 512;
- ft->fats = 2;
- ft->media = 0xf8;
- ft->hidden = 0;
-
- ft->size_root_dir = ft->dir_entries * 32;
-
- // FAT12
- ft->size_fat = 12;
- ft->reserved = 2;
- fatsecs = ft->num_sectors - (ft->size_root_dir + ft->sector_size - 1) / ft->sector_size - ft->reserved;
- ft->cluster_count = (int) (((unsigned __int64) fatsecs * ft->sector_size) / ((unsigned __int64) ft->cluster_size * ft->sector_size));
- ft->fat_length = (((ft->cluster_count * 3 + 1) >> 1) + ft->sector_size - 1) / ft->sector_size;
-
- if (ft->cluster_count >= 4085) // FAT16
- {
- ft->size_fat = 16;
- ft->reserved = 2;
- fatsecs = ft->num_sectors - (ft->size_root_dir + ft->sector_size - 1) / ft->sector_size - ft->reserved;
- ft->cluster_count = (int) (((__int64) fatsecs * ft->sector_size) / (ft->cluster_size * ft->sector_size));
- ft->fat_length = (ft->cluster_count * 2 + ft->sector_size - 1) / ft->sector_size;
- }
-
- if(ft->cluster_count >= 65525) // FAT32
- {
- ft->size_fat = 32;
- ft->reserved = 32 - 1;
-
- do
- {
- ft->reserved++;
-
- fatsecs = ft->num_sectors - ft->reserved;
- ft->size_root_dir = ft->cluster_size * ft->sector_size;
- ft->cluster_count = (int) (((unsigned __int64) fatsecs * ft->sector_size) / (ft->cluster_size * ft->sector_size));
- ft->fat_length = (ft->cluster_count * 4 + ft->sector_size - 1) / ft->sector_size;
-
- // Align data area on TC_MAX_VOLUME_SECTOR_SIZE
-
- } while (ft->sector_size == TC_SECTOR_SIZE_LEGACY
- && (ft->reserved * ft->sector_size + ft->fat_length * ft->fats * ft->sector_size) % TC_MAX_VOLUME_SECTOR_SIZE != 0);
- }
-
- ft->cluster_count -= ft->fat_length * ft->fats / ft->cluster_size;
-
- if (ft->num_sectors >= 65536 || ft->size_fat == 32)
- {
- ft->sectors = 0;
- ft->total_sect = ft->num_sectors;
- }
- else
- {
- ft->sectors = (uint16) ft->num_sectors;
- ft->total_sect = 0;
- }
-}
-
-void
-PutBoot (fatparams * ft, unsigned char *boot)
-{
- int cnt = 0;
-
- boot[cnt++] = 0xeb; /* boot jump */
- boot[cnt++] = 0x3c;
- boot[cnt++] = 0x90;
- memcpy (boot + cnt, "MSDOS5.0", 8); /* system id */
- cnt += 8;
- *(__int16 *)(boot + cnt) = LE16(ft->sector_size); /* bytes per sector */
- cnt += 2;
- boot[cnt++] = (__int8) ft->cluster_size; /* sectors per cluster */
- *(__int16 *)(boot + cnt) = LE16(ft->reserved); /* reserved sectors */
- cnt += 2;
- boot[cnt++] = (__int8) ft->fats; /* 2 fats */
-
- if(ft->size_fat == 32)
- {
- boot[cnt++] = 0x00;
- boot[cnt++] = 0x00;
- }
- else
- {
- *(__int16 *)(boot + cnt) = LE16(ft->dir_entries); /* 512 root entries */
- cnt += 2;
- }
-
- *(__int16 *)(boot + cnt) = LE16(ft->sectors); /* # sectors */
- cnt += 2;
- boot[cnt++] = (__int8) ft->media; /* media byte */
-
- if(ft->size_fat == 32)
- {
- boot[cnt++] = 0x00;
- boot[cnt++] = 0x00;
- }
- else
- {
- *(__int16 *)(boot + cnt) = LE16((uint16) ft->fat_length); /* fat size */
- cnt += 2;
- }
-
- *(__int16 *)(boot + cnt) = LE16(ft->secs_track); /* # sectors per track */
- cnt += 2;
- *(__int16 *)(boot + cnt) = LE16(ft->heads); /* # heads */
- cnt += 2;
- *(__int32 *)(boot + cnt) = LE32(ft->hidden); /* # hidden sectors */
- cnt += 4;
- *(__int32 *)(boot + cnt) = LE32(ft->total_sect); /* # huge sectors */
- cnt += 4;
-
- if(ft->size_fat == 32)
- {
- *(__int32 *)(boot + cnt) = LE32(ft->fat_length); cnt += 4; /* fat size 32 */
- boot[cnt++] = 0x00; /* ExtFlags */
- boot[cnt++] = 0x00;
- boot[cnt++] = 0x00; /* FSVer */
- boot[cnt++] = 0x00;
- boot[cnt++] = 0x02; /* RootClus */
- boot[cnt++] = 0x00;
- boot[cnt++] = 0x00;
- boot[cnt++] = 0x00;
- boot[cnt++] = 0x01; /* FSInfo */
- boot[cnt++] = 0x00;
- boot[cnt++] = 0x06; /* BkBootSec */
- boot[cnt++] = 0x00;
- memset(boot+cnt, 0, 12); cnt+=12; /* Reserved */
- }
-
- boot[cnt++] = 0x00; /* drive number */ // FIXED 80 > 00
- boot[cnt++] = 0x00; /* reserved */
- boot[cnt++] = 0x29; /* boot sig */
-
- memcpy (boot + cnt, ft->volume_id, 4); /* vol id */
- cnt += 4;
-
- memcpy (boot + cnt, ft->volume_name, 11); /* vol title */
- cnt += 11;
-
- switch(ft->size_fat) /* filesystem type */
- {
- case 12: memcpy (boot + cnt, "FAT12 ", 8); break;
- case 16: memcpy (boot + cnt, "FAT16 ", 8); break;
- case 32: memcpy (boot + cnt, "FAT32 ", 8); break;
- }
- cnt += 8;
-
- memset (boot + cnt, 0, ft->size_fat==32 ? 420:448); /* boot code */
- cnt += ft->size_fat==32 ? 420:448;
- boot[cnt++] = 0x55;
- boot[cnt++] = 0xaa; /* boot sig */
-}
-
-
-/* FAT32 FSInfo */
-static void PutFSInfo (unsigned char *sector, fatparams *ft)
-{
- memset (sector, 0, ft->sector_size);
- sector[3]=0x41; /* LeadSig */
- sector[2]=0x61;
- sector[1]=0x52;
- sector[0]=0x52;
- sector[484+3]=0x61; /* StrucSig */
- sector[484+2]=0x41;
- sector[484+1]=0x72;
- sector[484+0]=0x72;
-
- // Free cluster count
- *(uint32 *)(sector + 488) = LE32 (ft->cluster_count - ft->size_root_dir / ft->sector_size / ft->cluster_size);
-
- // Next free cluster
- *(uint32 *)(sector + 492) = LE32 (2);
-
- sector[508+3]=0xaa; /* TrailSig */
- sector[508+2]=0x55;
- sector[508+1]=0x00;
- sector[508+0]=0x00;
-}
-
-
-int
-FormatFat (void* hwndDlgPtr, unsigned __int64 startSector, fatparams * ft, void * dev, PCRYPTO_INFO cryptoInfo, BOOL quickFormat)
-{
- int write_buf_cnt = 0;
- char sector[TC_MAX_VOLUME_SECTOR_SIZE], *write_buf;
- unsigned __int64 nSecNo = startSector;
- int x, n;
- int retVal;
- char temporaryKey[MASTER_KEYDATA_SIZE];
- HWND hwndDlg = (HWND) hwndDlgPtr;
-
- LARGE_INTEGER startOffset;
- LARGE_INTEGER newOffset;
-
- // Seek to start sector
- startOffset.QuadPart = startSector * ft->sector_size;
- if (!SetFilePointerEx ((HANDLE) dev, startOffset, &newOffset, FILE_BEGIN)
- || newOffset.QuadPart != startOffset.QuadPart)
- {
- return ERR_VOL_SEEKING;
- }
-
- /* Write the data area */
-
- write_buf = (char *)TCalloc (FormatWriteBufferSize);
- if (!write_buf)
- return ERR_OUTOFMEMORY;
-
- memset (sector, 0, ft->sector_size);
-
- if (!RandgetBytes (hwndDlg, ft->volume_id, sizeof (ft->volume_id), FALSE))
- goto fail;
-
- PutBoot (ft, (unsigned char *) sector);
- if (WriteSector (dev, sector, write_buf, &write_buf_cnt, &nSecNo,
- cryptoInfo) == FALSE)
- goto fail;
-
- /* fat32 boot area */
- if (ft->size_fat == 32)
- {
- /* fsinfo */
- PutFSInfo((unsigned char *) sector, ft);
- if (WriteSector (dev, sector, write_buf, &write_buf_cnt, &nSecNo,
- cryptoInfo) == FALSE)
- goto fail;
-
- /* reserved */
- while (nSecNo - startSector < 6)
- {
- memset (sector, 0, ft->sector_size);
- sector[508+3]=0xaa; /* TrailSig */
- sector[508+2]=0x55;
- if (WriteSector (dev, sector, write_buf, &write_buf_cnt, &nSecNo,
- cryptoInfo) == FALSE)
- goto fail;
- }
-
- /* bootsector backup */
- memset (sector, 0, ft->sector_size);
- PutBoot (ft, (unsigned char *) sector);
- if (WriteSector (dev, sector, write_buf, &write_buf_cnt, &nSecNo,
- cryptoInfo) == FALSE)
- goto fail;
-
- PutFSInfo((unsigned char *) sector, ft);
- if (WriteSector (dev, sector, write_buf, &write_buf_cnt, &nSecNo,
- cryptoInfo) == FALSE)
- goto fail;
- }
-
- /* reserved */
- while (nSecNo - startSector < (unsigned int)ft->reserved)
- {
- memset (sector, 0, ft->sector_size);
- if (WriteSector (dev, sector, write_buf, &write_buf_cnt, &nSecNo,
- cryptoInfo) == FALSE)
- goto fail;
- }
-
- /* write fat */
- for (x = 1; x <= ft->fats; x++)
- {
- for (n = 0; n < ft->fat_length; n++)
- {
- memset (sector, 0, ft->sector_size);
-
- if (n == 0)
- {
- unsigned char fat_sig[12];
- if (ft->size_fat == 32)
- {
- fat_sig[0] = (unsigned char) ft->media;
- fat_sig[1] = fat_sig[2] = 0xff;
- fat_sig[3] = 0x0f;
- fat_sig[4] = fat_sig[5] = fat_sig[6] = 0xff;
- fat_sig[7] = 0x0f;
- fat_sig[8] = fat_sig[9] = fat_sig[10] = 0xff;
- fat_sig[11] = 0x0f;
- memcpy (sector, fat_sig, 12);
- }
- else if (ft->size_fat == 16)
- {
- fat_sig[0] = (unsigned char) ft->media;
- fat_sig[1] = 0xff;
- fat_sig[2] = 0xff;
- fat_sig[3] = 0xff;
- memcpy (sector, fat_sig, 4);
- }
- else if (ft->size_fat == 12)
- {
- fat_sig[0] = (unsigned char) ft->media;
- fat_sig[1] = 0xff;
- fat_sig[2] = 0xff;
- fat_sig[3] = 0x00;
- memcpy (sector, fat_sig, 4);
- }
- }
-
- if (WriteSector (dev, sector, write_buf, &write_buf_cnt, &nSecNo,
- cryptoInfo) == FALSE)
- goto fail;
- }
- }
-
-
- /* write rootdir */
- for (x = 0; x < ft->size_root_dir / ft->sector_size; x++)
- {
- memset (sector, 0, ft->sector_size);
- if (WriteSector (dev, sector, write_buf, &write_buf_cnt, &nSecNo,
- cryptoInfo) == FALSE)
- goto fail;
-
- }
-
- /* Fill the rest of the data area with random data */
-
- if(!quickFormat)
- {
- if (!FlushFormatWriteBuffer (dev, write_buf, &write_buf_cnt, &nSecNo, cryptoInfo))
- goto fail;
-
- /* Generate a random temporary key set to be used for "dummy" encryption that will fill
- the free disk space (data area) with random data. This is necessary for plausible
- deniability of hidden volumes (and also reduces the amount of predictable plaintext
- within the volume). */
-
- // Temporary master key
- if (!RandgetBytes (hwndDlg, temporaryKey, EAGetKeySize (cryptoInfo->ea), FALSE))
- goto fail;
-
- // Temporary secondary key (XTS mode)
- if (!RandgetBytes (hwndDlg, cryptoInfo->k2, sizeof cryptoInfo->k2, FALSE))
- goto fail;
-
- retVal = EAInit (cryptoInfo->ea, temporaryKey, cryptoInfo->ks);
- if (retVal != ERR_SUCCESS)
- {
- burn (temporaryKey, sizeof(temporaryKey));
- return retVal;
- }
- if (!EAInitMode (cryptoInfo))
- {
- burn (temporaryKey, sizeof(temporaryKey));
- return ERR_MODE_INIT_FAILED;
- }
-
- x = ft->num_sectors - ft->reserved - ft->size_root_dir / ft->sector_size - ft->fat_length * 2;
- while (x--)
- {
- if (WriteSector (dev, sector, write_buf, &write_buf_cnt, &nSecNo,
- cryptoInfo) == FALSE)
- goto fail;
- }
- UpdateProgressBar (nSecNo * ft->sector_size);
- }
- else
- UpdateProgressBar ((uint64) ft->num_sectors * ft->sector_size);
-
- if (!FlushFormatWriteBuffer (dev, write_buf, &write_buf_cnt, &nSecNo, cryptoInfo))
- goto fail;
-
- TCfree (write_buf);
- burn (temporaryKey, sizeof(temporaryKey));
- return 0;
-
-fail:
-
- TCfree (write_buf);
- burn (temporaryKey, sizeof(temporaryKey));
- return ERR_OS_ERROR;
-}
+/* + Legal Notice: Some portions of the source code contained in this file were + derived from the source code of TrueCrypt 7.1a, which is + Copyright (c) 2003-2012 TrueCrypt Developers Association and which is + governed by the TrueCrypt License 3.0, also from the source code of + Encryption for the Masses 2.02a, which is Copyright (c) 1998-2000 Paul Le Roux + and which is governed by the 'License Agreement for Encryption for the Masses' + Modifications and additions to the original source code (contained in this file) + and all other portions of this file are Copyright (c) 2013-2016 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. */ + +#include <stdlib.h> +#include <string.h> +#include <time.h> + +#include "Tcdefs.h" + +#include "Crypto.h" +#include "Common/Endian.h" +#include "Format.h" +#include "Fat.h" +#include "Progress.h" +#include "Random.h" +#include "Volumes.h" + +void +GetFatParams (fatparams * ft) +{ + uint64 volumeSize = (uint64) ft->num_sectors * ft->sector_size; + unsigned int fatsecs; + + if(ft->cluster_size == 0) // 'Default' cluster size + { + uint32 clusterSize; + + // Determine optimal cluster size to minimize FAT size (mounting delay), maximize number of files, keep 4 KB alignment, etc. + if (volumeSize >= 2 * BYTES_PER_TB) + clusterSize = 256 * BYTES_PER_KB; + else if (volumeSize >= 512 * BYTES_PER_GB) + clusterSize = 128 * BYTES_PER_KB; + else if (volumeSize >= 128 * BYTES_PER_GB) + clusterSize = 64 * BYTES_PER_KB; + else if (volumeSize >= 64 * BYTES_PER_GB) + clusterSize = 32 * BYTES_PER_KB; + else if (volumeSize >= 32 * BYTES_PER_GB) + clusterSize = 16 * BYTES_PER_KB; + else if (volumeSize >= 16 * BYTES_PER_GB) + clusterSize = 8 * BYTES_PER_KB; + else if (volumeSize >= 512 * BYTES_PER_MB) + clusterSize = 4 * BYTES_PER_KB; + else if (volumeSize >= 256 * BYTES_PER_MB) + clusterSize = 2 * BYTES_PER_KB; + else if (volumeSize >= 1 * BYTES_PER_MB) + clusterSize = 1 * BYTES_PER_KB; + else + clusterSize = 512; + + ft->cluster_size = clusterSize / ft->sector_size; + + if (ft->cluster_size == 0) + ft->cluster_size = 1; + + if (((unsigned __int64) ft->cluster_size * ft->sector_size) > TC_MAX_FAT_CLUSTER_SIZE) + ft->cluster_size = TC_MAX_FAT_CLUSTER_SIZE / ft->sector_size; + + if (ft->cluster_size > 128) + ft->cluster_size = 128; + } + + if (volumeSize <= TC_MAX_FAT_CLUSTER_SIZE * 4) + ft->cluster_size = 1; + + // Geometry always set to SECTORS/1/1 + ft->secs_track = 1; + ft->heads = 1; + + ft->dir_entries = 512; + ft->fats = 2; + ft->media = 0xf8; + ft->hidden = 0; + + ft->size_root_dir = ft->dir_entries * 32; + + // FAT12 + ft->size_fat = 12; + ft->reserved = 2; + fatsecs = ft->num_sectors - (ft->size_root_dir + ft->sector_size - 1) / ft->sector_size - ft->reserved; + ft->cluster_count = (int) (((unsigned __int64) fatsecs * ft->sector_size) / ((unsigned __int64) ft->cluster_size * ft->sector_size)); + ft->fat_length = (((ft->cluster_count * 3 + 1) >> 1) + ft->sector_size - 1) / ft->sector_size; + + if (ft->cluster_count >= 4085) // FAT16 + { + ft->size_fat = 16; + ft->reserved = 2; + fatsecs = ft->num_sectors - (ft->size_root_dir + ft->sector_size - 1) / ft->sector_size - ft->reserved; + ft->cluster_count = (int) (((__int64) fatsecs * ft->sector_size) / (ft->cluster_size * ft->sector_size)); + ft->fat_length = (ft->cluster_count * 2 + ft->sector_size - 1) / ft->sector_size; + } + + if(ft->cluster_count >= 65525) // FAT32 + { + ft->size_fat = 32; + ft->reserved = 32 - 1; + + do + { + ft->reserved++; + + fatsecs = ft->num_sectors - ft->reserved; + ft->size_root_dir = ft->cluster_size * ft->sector_size; + ft->cluster_count = (int) (((unsigned __int64) fatsecs * ft->sector_size) / (ft->cluster_size * ft->sector_size)); + ft->fat_length = (ft->cluster_count * 4 + ft->sector_size - 1) / ft->sector_size; + + // Align data area on TC_MAX_VOLUME_SECTOR_SIZE + + } while (ft->sector_size == TC_SECTOR_SIZE_LEGACY + && (ft->reserved * ft->sector_size + ft->fat_length * ft->fats * ft->sector_size) % TC_MAX_VOLUME_SECTOR_SIZE != 0); + } + + ft->cluster_count -= ft->fat_length * ft->fats / ft->cluster_size; + + if (ft->num_sectors >= 65536 || ft->size_fat == 32) + { + ft->sectors = 0; + ft->total_sect = ft->num_sectors; + } + else + { + ft->sectors = (uint16) ft->num_sectors; + ft->total_sect = 0; + } +} + +void +PutBoot (fatparams * ft, unsigned char *boot) +{ + int cnt = 0; + + boot[cnt++] = 0xeb; /* boot jump */ + boot[cnt++] = 0x3c; + boot[cnt++] = 0x90; + memcpy (boot + cnt, "MSDOS5.0", 8); /* system id */ + cnt += 8; + *(__int16 *)(boot + cnt) = LE16(ft->sector_size); /* bytes per sector */ + cnt += 2; + boot[cnt++] = (__int8) ft->cluster_size; /* sectors per cluster */ + *(__int16 *)(boot + cnt) = LE16(ft->reserved); /* reserved sectors */ + cnt += 2; + boot[cnt++] = (__int8) ft->fats; /* 2 fats */ + + if(ft->size_fat == 32) + { + boot[cnt++] = 0x00; + boot[cnt++] = 0x00; + } + else + { + *(__int16 *)(boot + cnt) = LE16(ft->dir_entries); /* 512 root entries */ + cnt += 2; + } + + *(__int16 *)(boot + cnt) = LE16(ft->sectors); /* # sectors */ + cnt += 2; + boot[cnt++] = (__int8) ft->media; /* media byte */ + + if(ft->size_fat == 32) + { + boot[cnt++] = 0x00; + boot[cnt++] = 0x00; + } + else + { + *(__int16 *)(boot + cnt) = LE16((uint16) ft->fat_length); /* fat size */ + cnt += 2; + } + + *(__int16 *)(boot + cnt) = LE16(ft->secs_track); /* # sectors per track */ + cnt += 2; + *(__int16 *)(boot + cnt) = LE16(ft->heads); /* # heads */ + cnt += 2; + *(__int32 *)(boot + cnt) = LE32(ft->hidden); /* # hidden sectors */ + cnt += 4; + *(__int32 *)(boot + cnt) = LE32(ft->total_sect); /* # huge sectors */ + cnt += 4; + + if(ft->size_fat == 32) + { + *(__int32 *)(boot + cnt) = LE32(ft->fat_length); cnt += 4; /* fat size 32 */ + boot[cnt++] = 0x00; /* ExtFlags */ + boot[cnt++] = 0x00; + boot[cnt++] = 0x00; /* FSVer */ + boot[cnt++] = 0x00; + boot[cnt++] = 0x02; /* RootClus */ + boot[cnt++] = 0x00; + boot[cnt++] = 0x00; + boot[cnt++] = 0x00; + boot[cnt++] = 0x01; /* FSInfo */ + boot[cnt++] = 0x00; + boot[cnt++] = 0x06; /* BkBootSec */ + boot[cnt++] = 0x00; + memset(boot+cnt, 0, 12); cnt+=12; /* Reserved */ + } + + boot[cnt++] = 0x00; /* drive number */ // FIXED 80 > 00 + boot[cnt++] = 0x00; /* reserved */ + boot[cnt++] = 0x29; /* boot sig */ + + memcpy (boot + cnt, ft->volume_id, 4); /* vol id */ + cnt += 4; + + memcpy (boot + cnt, ft->volume_name, 11); /* vol title */ + cnt += 11; + + switch(ft->size_fat) /* filesystem type */ + { + case 12: memcpy (boot + cnt, "FAT12 ", 8); break; + case 16: memcpy (boot + cnt, "FAT16 ", 8); break; + case 32: memcpy (boot + cnt, "FAT32 ", 8); break; + } + cnt += 8; + + memset (boot + cnt, 0, ft->size_fat==32 ? 420:448); /* boot code */ + cnt += ft->size_fat==32 ? 420:448; + boot[cnt++] = 0x55; + boot[cnt++] = 0xaa; /* boot sig */ +} + + +/* FAT32 FSInfo */ +static void PutFSInfo (unsigned char *sector, fatparams *ft) +{ + memset (sector, 0, ft->sector_size); + sector[3]=0x41; /* LeadSig */ + sector[2]=0x61; + sector[1]=0x52; + sector[0]=0x52; + sector[484+3]=0x61; /* StrucSig */ + sector[484+2]=0x41; + sector[484+1]=0x72; + sector[484+0]=0x72; + + // Free cluster count + *(uint32 *)(sector + 488) = LE32 (ft->cluster_count - ft->size_root_dir / ft->sector_size / ft->cluster_size); + + // Next free cluster + *(uint32 *)(sector + 492) = LE32 (2); + + sector[508+3]=0xaa; /* TrailSig */ + sector[508+2]=0x55; + sector[508+1]=0x00; + sector[508+0]=0x00; +} + + +int +FormatFat (void* hwndDlgPtr, unsigned __int64 startSector, fatparams * ft, void * dev, PCRYPTO_INFO cryptoInfo, BOOL quickFormat) +{ + int write_buf_cnt = 0; + char sector[TC_MAX_VOLUME_SECTOR_SIZE], *write_buf; + unsigned __int64 nSecNo = startSector; + int x, n; + int retVal; + char temporaryKey[MASTER_KEYDATA_SIZE]; + HWND hwndDlg = (HWND) hwndDlgPtr; + + LARGE_INTEGER startOffset; + LARGE_INTEGER newOffset; + + // Seek to start sector + startOffset.QuadPart = startSector * ft->sector_size; + if (!SetFilePointerEx ((HANDLE) dev, startOffset, &newOffset, FILE_BEGIN) + || newOffset.QuadPart != startOffset.QuadPart) + { + return ERR_VOL_SEEKING; + } + + /* Write the data area */ + + write_buf = (char *)TCalloc (FormatWriteBufferSize); + if (!write_buf) + return ERR_OUTOFMEMORY; + + memset (sector, 0, ft->sector_size); + + if (!RandgetBytes (hwndDlg, ft->volume_id, sizeof (ft->volume_id), FALSE)) + goto fail; + + PutBoot (ft, (unsigned char *) sector); + if (WriteSector (dev, sector, write_buf, &write_buf_cnt, &nSecNo, + cryptoInfo) == FALSE) + goto fail; + + /* fat32 boot area */ + if (ft->size_fat == 32) + { + /* fsinfo */ + PutFSInfo((unsigned char *) sector, ft); + if (WriteSector (dev, sector, write_buf, &write_buf_cnt, &nSecNo, + cryptoInfo) == FALSE) + goto fail; + + /* reserved */ + while (nSecNo - startSector < 6) + { + memset (sector, 0, ft->sector_size); + sector[508+3]=0xaa; /* TrailSig */ + sector[508+2]=0x55; + if (WriteSector (dev, sector, write_buf, &write_buf_cnt, &nSecNo, + cryptoInfo) == FALSE) + goto fail; + } + + /* bootsector backup */ + memset (sector, 0, ft->sector_size); + PutBoot (ft, (unsigned char *) sector); + if (WriteSector (dev, sector, write_buf, &write_buf_cnt, &nSecNo, + cryptoInfo) == FALSE) + goto fail; + + PutFSInfo((unsigned char *) sector, ft); + if (WriteSector (dev, sector, write_buf, &write_buf_cnt, &nSecNo, + cryptoInfo) == FALSE) + goto fail; + } + + /* reserved */ + while (nSecNo - startSector < (unsigned int)ft->reserved) + { + memset (sector, 0, ft->sector_size); + if (WriteSector (dev, sector, write_buf, &write_buf_cnt, &nSecNo, + cryptoInfo) == FALSE) + goto fail; + } + + /* write fat */ + for (x = 1; x <= ft->fats; x++) + { + for (n = 0; n < ft->fat_length; n++) + { + memset (sector, 0, ft->sector_size); + + if (n == 0) + { + unsigned char fat_sig[12]; + if (ft->size_fat == 32) + { + fat_sig[0] = (unsigned char) ft->media; + fat_sig[1] = fat_sig[2] = 0xff; + fat_sig[3] = 0x0f; + fat_sig[4] = fat_sig[5] = fat_sig[6] = 0xff; + fat_sig[7] = 0x0f; + fat_sig[8] = fat_sig[9] = fat_sig[10] = 0xff; + fat_sig[11] = 0x0f; + memcpy (sector, fat_sig, 12); + } + else if (ft->size_fat == 16) + { + fat_sig[0] = (unsigned char) ft->media; + fat_sig[1] = 0xff; + fat_sig[2] = 0xff; + fat_sig[3] = 0xff; + memcpy (sector, fat_sig, 4); + } + else if (ft->size_fat == 12) + { + fat_sig[0] = (unsigned char) ft->media; + fat_sig[1] = 0xff; + fat_sig[2] = 0xff; + fat_sig[3] = 0x00; + memcpy (sector, fat_sig, 4); + } + } + + if (WriteSector (dev, sector, write_buf, &write_buf_cnt, &nSecNo, + cryptoInfo) == FALSE) + goto fail; + } + } + + + /* write rootdir */ + for (x = 0; x < ft->size_root_dir / ft->sector_size; x++) + { + memset (sector, 0, ft->sector_size); + if (WriteSector (dev, sector, write_buf, &write_buf_cnt, &nSecNo, + cryptoInfo) == FALSE) + goto fail; + + } + + /* Fill the rest of the data area with random data */ + + if(!quickFormat) + { + if (!FlushFormatWriteBuffer (dev, write_buf, &write_buf_cnt, &nSecNo, cryptoInfo)) + goto fail; + + /* Generate a random temporary key set to be used for "dummy" encryption that will fill + the free disk space (data area) with random data. This is necessary for plausible + deniability of hidden volumes (and also reduces the amount of predictable plaintext + within the volume). */ + + // Temporary master key + if (!RandgetBytes (hwndDlg, temporaryKey, EAGetKeySize (cryptoInfo->ea), FALSE)) + goto fail; + + // Temporary secondary key (XTS mode) + if (!RandgetBytes (hwndDlg, cryptoInfo->k2, sizeof cryptoInfo->k2, FALSE)) + goto fail; + + retVal = EAInit (cryptoInfo->ea, temporaryKey, cryptoInfo->ks); + if (retVal != ERR_SUCCESS) + { + burn (temporaryKey, sizeof(temporaryKey)); + return retVal; + } + if (!EAInitMode (cryptoInfo)) + { + burn (temporaryKey, sizeof(temporaryKey)); + return ERR_MODE_INIT_FAILED; + } + + x = ft->num_sectors - ft->reserved - ft->size_root_dir / ft->sector_size - ft->fat_length * 2; + while (x--) + { + if (WriteSector (dev, sector, write_buf, &write_buf_cnt, &nSecNo, + cryptoInfo) == FALSE) + goto fail; + } + UpdateProgressBar (nSecNo * ft->sector_size); + } + else + UpdateProgressBar ((uint64) ft->num_sectors * ft->sector_size); + + if (!FlushFormatWriteBuffer (dev, write_buf, &write_buf_cnt, &nSecNo, cryptoInfo)) + goto fail; + + TCfree (write_buf); + burn (temporaryKey, sizeof(temporaryKey)); + return 0; + +fail: + + TCfree (write_buf); + burn (temporaryKey, sizeof(temporaryKey)); + return ERR_OS_ERROR; +} |