Fill() public method

Fills the specified offset.
public Fill ( uint offset, byte value, uint length ) : void
offset uint The offset.
value byte The value.
length uint The length.
return void
Example #1
0
        public static void PatchSyslinux_3_72(PartitionDevice partitionDevice, FatFileSystem fat)
        {
            // Locate ldlinux.sys file for patching
            string filename = "ldlinux.sys";
            string name = (Path.GetFileNameWithoutExtension(filename) + Path.GetExtension(filename).PadRight(4).Substring(0, 4)).ToUpper();

            var location = fat.FindEntry(new Mosa.FileSystem.FAT.Find.WithName(name), 0);

            if (location.IsValid)
            {
                // Read boot sector
                var bootSector = new BinaryFormat(partitionDevice.ReadBlock(0, 1));

                // Set the first sector location of the file
                bootSector.SetUInt(0x1F8, fat.GetSectorByCluster(location.FirstCluster));

                // Change jump address
                bootSector.SetUInt(0x01, 0x58);

                // Write back patched boot sector
                partitionDevice.WriteBlock(0, 1, bootSector.Data);

                // Get the file size & number of sectors used
                uint fileSize = fat.GetFileSize(location.DirectorySector, location.DirectorySectorIndex);
                uint sectorCount = (fileSize + 511) >> 9;

                uint[] sectors = new uint[65];
                uint nsec = 0;

                // Create list of the first 65 sectors of the file
                for (uint cluster = location.FirstCluster; ((cluster != 0) & (nsec <= 64)); cluster = fat.GetNextCluster(cluster))
                {
                    uint sec = fat.GetSectorByCluster(cluster);
                    for (uint s = 0; s < fat.SectorsPerCluster; s++)
                        sectors[nsec++] = sec + s;
                }

                // Read the first cluster of the file
                var firstCluster = new BinaryFormat(fat.ReadCluster(location.FirstCluster));

                uint patchArea = 0;

                // Search for 0x3EB202FE (magic)
                for (patchArea = 0; (firstCluster.GetUInt(patchArea) != 0x3EB202FE) && (patchArea < fat.ClusterSizeInBytes); patchArea += 4) ;

                patchArea = patchArea + 8;

                if (patchArea < fat.ClusterSizeInBytes)
                {
                    // Set up the totals
                    firstCluster.SetUShort(patchArea, (ushort)(fileSize >> 2));
                    firstCluster.SetUShort(patchArea + 2, (ushort)(sectorCount - 1));

                    // Clear sector entries
                    firstCluster.Fill(patchArea + 8, 0, 64 * 4);

                    // Set sector entries
                    for (nsec = 0; nsec < 64; nsec++)
                        firstCluster.SetUInt(patchArea + 8 + (nsec * 4), sectors[nsec + 1]);

                    // Clear out checksum
                    firstCluster.SetUInt(patchArea + 4, 0);

                    // Write back the updated cluster
                    fat.WriteCluster(location.FirstCluster, firstCluster.Data);

                    // Re-Calculate checksum by opening the file
                    var file = new FatFileStream(fat, location);

                    uint csum = 0x3EB202FE;
                    for (uint index = 0; index < (file.Length >> 2); index++)
                    {
                        uint value = (uint)file.ReadByte() | ((uint)file.ReadByte() << 8) | ((uint)file.ReadByte() << 16) | ((uint)file.ReadByte() << 24);
                        csum -= value;
                    }

                    // Set the checksum
                    firstCluster.SetUInt(patchArea + 4, csum);

                    // Write patched cluster back to disk
                    fat.WriteCluster(location.FirstCluster, firstCluster.Data);
                }
            }
        }
Example #2
0
        /// <summary>
        /// Identifies the drive.
        /// </summary>
        protected void IdentifyDrive()
        {
            byte drive = (byte)(((deviceHead & 0x10) != 0x10) ? 0 : 1);
            byte d = (byte)('0' + drive + 1);
            BinaryFormat data = new BinaryFormat(bufferData);

            data.Fill(0, 0, 512);

            // fixed drive and over 5Mb/sec
            data.SetUShort(0x00, 0x140);
            // Serial Number
            data.Fill(0x0A * 2, d, 20);
            data.SetByte(0x0A * 2, d);
            // Firmware version
            data.Fill(0x17 * 2, d, 8);
            data.SetChar(0x17 * 2 + 0, '1');
            data.SetChar(0x17 * 2 + 1, '.');
            data.SetChar(0x17 * 2 + 2, '0');
            // Model Number
            data.Fill(0x1B * 2, d, 40);
            data.SetChar(0x17 * 2 + 0, 'D');
            data.SetChar(0x17 * 2 + 1, 'R');
            data.SetChar(0x17 * 2 + 2, 'I');
            data.SetChar(0x17 * 2 + 3, 'V');
            data.SetChar(0x17 * 2 + 4, 'E');
            data.SetByte(0x1B * 2 + 5, d);
            // lba28
            data.SetUInt(0x3C * 2, (uint)(driveFiles[drive].Length / 512));

            commandStatus = (byte)((commandStatus | 0x08) & ~0x80); // Set DRQ (bit 3), clear BUSY (bit 7)

            status = DeviceStatus.IdentifyDrive;
        }