SetByte() public méthode

public SetByte ( uint offset, byte value ) : void
offset uint
value byte
Résultat void
        public bool Format()
        {
            if (!diskDevice.CanWrite)
            {
                return(false);
            }

            BinaryFormat masterboot = new BinaryFormat(new byte[512]);

            masterboot.SetUInt(MasterBootRecord.DiskSignature, diskSignature);
            masterboot.SetUShort(MasterBootRecord.MBRSignature, MasterBootConstants.MBRSignature);

            if (code != null)
            {
                for (uint index = 0; index < MasterBootConstants.CodeAreaSize; index++)
                {
                    masterboot.SetByte(index, code[index]);
                }
            }

            //TODO: write partitions

            diskDevice.WriteBlock(0, 1, masterboot.Data);

            return(true);
        }
Exemple #2
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		public bool Format ()
		{
			if (!diskDevice.CanWrite)
				return false;

			BinaryFormat masterboot = new BinaryFormat (new byte[512]);

			masterboot.SetUInt (MasterBootRecord.DiskSignature, diskSignature);
			masterboot.SetUShort (MasterBootRecord.MBRSignature, MasterBootConstants.MBRSignature);

			if (code != null)
				for (uint index = 0; index < MasterBootConstants.CodeAreaSize; index++)
					masterboot.SetByte (index, code[index]);

			//TODO: write partitions

			diskDevice.WriteBlock (0, 1, masterboot.Data);

			return true;
		}
Exemple #3
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		public void Delete (uint childBlock, uint parentBlock, uint parentBlockIndex)
		{
			BinaryFormat entry = new BinaryFormat (partition.ReadBlock (parentBlock, 1));

			entry.SetByte ((parentBlockIndex * Entry.EntrySize) + Entry.DOSName, (byte)FileNameAttribute.Deleted);

			partition.WriteBlock (parentBlock, 1, entry.Data);

			if (!FreeClusterChain (childBlock))
				throw new System.ArgumentException ();	//throw new IOException ("Unable to free all cluster allocations in fat");
		}
Exemple #4
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		public bool Format (FATSettings fatSettings)
		{
			if (!partition.CanWrite)
				return false;

			this.fatType = fatSettings.FatType;
			bytesPerSector = 512;

			totalSectors = partition.BlockCount;

			sectorsPerCluster = GetSectorsPerClusterByTotalSectors (fatType, totalSectors);
			nbrFats = 2;

			if (fatType == FATType.FAT32) {
				reservedSectors = 32;
				rootEntries = 0;
			}
			else {
				reservedSectors = 1;
				rootEntries = 512;
			}

			rootDirSectors = (((rootEntries * 32) + (bytesPerSector - 1)) / bytesPerSector);
			fatStart = reservedSectors;

			uint val1 = totalSectors - (reservedSectors + rootDirSectors);
			uint val2 = (uint)((256 * sectorsPerCluster) + nbrFats);

			if (fatType == FATType.FAT32)
				val2 = val2 / 2;

			uint sectorsperfat = (val1 + (val2 - 1)) / val2;

			BinaryFormat bootSector = new BinaryFormat (512);

			bootSector.SetUInt (BootSector.JumpInstruction, 0);
			bootSector.SetString (BootSector.EOMName, "MSWIN4.1");
			bootSector.SetUShort (BootSector.BytesPerSector, (ushort)bytesPerSector);
			bootSector.SetByte (BootSector.SectorsPerCluster, (byte)sectorsPerCluster);
			bootSector.SetUShort (BootSector.ReservedSectors, (ushort)reservedSectors);
			bootSector.SetByte (BootSector.FatAllocationTables, nbrFats);
			bootSector.SetUShort (BootSector.MaxRootDirEntries, (ushort)rootEntries);

			if (totalSectors > 0xFFFF) {
				bootSector.SetUShort (BootSector.TotalSectors, 0);
				bootSector.SetUInt (BootSector.FAT32_TotalSectors, totalClusters);
			}
			else {
				bootSector.SetUShort (BootSector.TotalSectors, (ushort)totalSectors);
				bootSector.SetUInt (BootSector.FAT32_TotalSectors, 0);
			}

			bootSector.SetByte (BootSector.MediaDescriptor, 0xF8);

			if (fatType == FATType.FAT32)
				bootSector.SetUShort (BootSector.SectorsPerFAT, 0);
			else
				bootSector.SetUShort (BootSector.SectorsPerFAT, (ushort)sectorsperfat);

			bootSector.SetUShort (BootSector.SectorsPerTrack, 0); ////FIXME
			bootSector.SetUInt (BootSector.HiddenSectors, 0);

			if (fatType != FATType.FAT32) {
				bootSector.SetByte (BootSector.PhysicalDriveNbr, 0x80);
				bootSector.SetByte (BootSector.ReservedCurrentHead, 0);
				bootSector.SetByte (BootSector.ExtendedBootSignature, 0x29);
				bootSector.SetBytes (BootSector.IDSerialNumber, fatSettings.SerialID, 0, (uint)(fatSettings.SerialID.Length <= 4 ? fatSettings.SerialID.Length : 4));
				bootSector.SetString (BootSector.VolumeLabel, "            ");  // 12 blank spaces
				bootSector.SetString (BootSector.VolumeLabel, fatSettings.VolumeLabel, (uint)(fatSettings.VolumeLabel.Length <= 12 ? fatSettings.VolumeLabel.Length : 12));
				bootSector.SetUShort (BootSector.BootSectorSignature, 0x55AA);
				//BootSector.OSBootCode // TODO
			}

			if (fatType == FATType.FAT12)
				bootSector.SetString (BootSector.FATType, "FAT12   ");
			else if (fatType == FATType.FAT16)
				bootSector.SetString (BootSector.FATType, "FAT16   ");
			else // if (type == FatType.FAT32)
				bootSector.SetString (BootSector.FATType, "FAT32   ");

			if (fatType == FATType.FAT32) {
				bootSector.SetUInt (BootSector.FAT32_SectorPerFAT, sectorsperfat);
				bootSector.SetByte (BootSector.FAT32_Flags, 0);
				bootSector.SetUShort (BootSector.FAT32_Version, 0);
				bootSector.SetUInt (BootSector.FAT32_ClusterNumberOfRoot, 2);
				bootSector.SetUShort (BootSector.FAT32_SectorFSInformation, 1);
				bootSector.SetUShort (BootSector.FAT32_SecondBootSector, 6);
				//FAT32_Reserved1
				bootSector.SetByte (BootSector.FAT32_PhysicalDriveNbr, 0x80);
				bootSector.SetByte (BootSector.FAT32_Reserved2, 0);
				bootSector.SetByte (BootSector.FAT32_ExtendedBootSignature, 0x29);
				bootSector.SetBytes (BootSector.FAT32_IDSerialNumber, fatSettings.SerialID, 0, (uint)(fatSettings.SerialID.Length <= 4 ? fatSettings.SerialID.Length : 4));
				bootSector.SetString (BootSector.FAT32_VolumeLabel, "            ");  // 12 blank spaces
				bootSector.SetString (BootSector.FAT32_VolumeLabel, fatSettings.VolumeLabel, (uint)(fatSettings.VolumeLabel.Length <= 12 ? fatSettings.VolumeLabel.Length : 12));
				bootSector.SetString (BootSector.FAT32_FATType, "FAT32   ");
				//BootSector.OSBootCode // TODO
			}

			// Write Boot Sector
			partition.WriteBlock (0, 1, bootSector.Data);

			// Write backup Boot Sector
			if (fatType == FATType.FAT32) {
				partition.WriteBlock (0, 1, bootSector.Data);	// FIXME: wrong block #
			}

			// create FSInfo Structure
			if (fatType == FATType.FAT32) {
				BinaryFormat infoSector = new BinaryFormat (512);

				infoSector.SetUInt (FSInfo.FSI_LeadSignature, 0x41615252);
				//FSInfo.FSI_Reserved1
				infoSector.SetUInt (FSInfo.FSI_StructureSigature, 0x61417272);
				infoSector.SetUInt (FSInfo.FSI_FreeCount, 0xFFFFFFFF);
				infoSector.SetUInt (FSInfo.FSI_NextFree, 0xFFFFFFFF);
				//FSInfo.FSI_Reserved2
				bootSector.SetUInt (FSInfo.FSI_TrailSignature, 0xAA550000);

				partition.WriteBlock (1, 1, infoSector.Data);
				partition.WriteBlock (7, 1, infoSector.Data);

				// create 2nd sector
				BinaryFormat secondSector = new BinaryFormat (512);

				secondSector.SetUInt ((ushort)FSInfo.FSI_TrailSignature2, 0xAA55);

				partition.WriteBlock (2, 1, secondSector.Data);
				partition.WriteBlock (8, 1, secondSector.Data);
			}

			// create fats
			/// TODO: incomplete
			BinaryFormat emptyFat = new BinaryFormat (512);

			// clear primary & secondary fats entries
			for (uint i = fatStart; i < fatStart + 1; i++) {	//FIXME
				partition.WriteBlock (i, 1, emptyFat.Data);
			}

			// first block is special
			BinaryFormat firstFat = new BinaryFormat (512);
			// TODO: incomplete
			partition.WriteBlock (reservedSectors, 1, emptyFat.Data);

			return ReadBootSector ();
		}