Example #1
0
 public void Crc16RandomData()
 {
     byte[]     data = new byte[1048576];
     FileStream fs   = new FileStream(Path.Combine(Consts.TestFilesRoot, "checksums", "random"), FileMode.Open,
                                      FileAccess.Read);
     fs.Read(data, 0, 1048576);
     fs.Close();
     fs.Dispose();
     Crc16Context.Data(data, out byte[] result);
     Assert.AreEqual(ExpectedRandom, result);
 }
Example #2
0
 public void Crc16RandomInstance()
 {
     byte[]     data = new byte[1048576];
     FileStream fs   = new FileStream(Path.Combine(Consts.TestFilesRoot, "checksums", "random"), FileMode.Open,
                                      FileAccess.Read);
     fs.Read(data, 0, 1048576);
     fs.Close();
     fs.Dispose();
     IChecksum ctx = new Crc16Context();
     ctx.Update(data);
     byte[] result = ctx.Final();
     Assert.AreEqual(ExpectedRandom, result);
 }
Example #3
0
        internal Checksum()
        {
            adler32ctx   = new Adler32Context();
            crc16ctx     = new Crc16Context();
            crc32ctx     = new Crc32Context();
            crc64ctx     = new Crc64Context();
            md5ctx       = new Md5Context();
            ripemd160ctx = new Ripemd160Context();
            sha1ctx      = new Sha1Context();
            sha256ctx    = new Sha256Context();
            sha384ctx    = new Sha384Context();
            sha512ctx    = new Sha512Context();
            ssctx        = new SpamSumContext();

            adlerThread     = new Thread(updateAdler);
            crc16Thread     = new Thread(updateCRC16);
            crc32Thread     = new Thread(updateCRC32);
            crc64Thread     = new Thread(updateCRC64);
            md5Thread       = new Thread(updateMD5);
            ripemd160Thread = new Thread(updateRIPEMD160);
            sha1Thread      = new Thread(updateSHA1);
            sha256Thread    = new Thread(updateSHA256);
            sha384Thread    = new Thread(updateSHA384);
            sha512Thread    = new Thread(updateSHA512);
            spamsumThread   = new Thread(updateSpamSum);

            adlerPkt     = new adlerPacket();
            crc16Pkt     = new crc16Packet();
            crc32Pkt     = new crc32Packet();
            crc64Pkt     = new crc64Packet();
            md5Pkt       = new md5Packet();
            ripemd160Pkt = new ripemd160Packet();
            sha1Pkt      = new sha1Packet();
            sha256Pkt    = new sha256Packet();
            sha384Pkt    = new sha384Packet();
            sha512Pkt    = new sha512Packet();
            spamsumPkt   = new spamsumPacket();

            adlerPkt.context     = adler32ctx;
            crc16Pkt.context     = crc16ctx;
            crc32Pkt.context     = crc32ctx;
            crc64Pkt.context     = crc64ctx;
            md5Pkt.context       = md5ctx;
            ripemd160Pkt.context = ripemd160ctx;
            sha1Pkt.context      = sha1ctx;
            sha256Pkt.context    = sha256ctx;
            sha384Pkt.context    = sha384ctx;
            sha512Pkt.context    = sha512ctx;
            spamsumPkt.context   = ssctx;
        }
Example #4
0
        internal static List <ChecksumType> GetChecksums(byte[] data, EnableChecksum enabled = EnableChecksum.All)
        {
            IChecksum adler32CtxData = null;
            IChecksum crc16CtxData   = null;
            IChecksum crc32CtxData   = null;
            IChecksum crc64CtxData   = null;
            IChecksum md5CtxData     = null;

            #if !NETSTANDARD2_0
            IChecksum ripemd160CtxData = null;
            #endif
            IChecksum sha1CtxData   = null;
            IChecksum sha256CtxData = null;
            IChecksum sha384CtxData = null;
            IChecksum sha512CtxData = null;
            IChecksum ssctxData     = null;
            IChecksum f16CtxData    = null;
            IChecksum f32CtxData    = null;

            Thread adlerThreadData = new Thread(UpdateHash);
            Thread crc16ThreadData = new Thread(UpdateHash);
            Thread crc32ThreadData = new Thread(UpdateHash);
            Thread crc64ThreadData = new Thread(UpdateHash);
            Thread md5ThreadData   = new Thread(UpdateHash);
            #if !NETSTANDARD2_0
            Thread ripemd160ThreadData = new Thread(UpdateHash);
            #endif
            Thread sha1ThreadData    = new Thread(UpdateHash);
            Thread sha256ThreadData  = new Thread(UpdateHash);
            Thread sha384ThreadData  = new Thread(UpdateHash);
            Thread sha512ThreadData  = new Thread(UpdateHash);
            Thread spamsumThreadData = new Thread(UpdateHash);
            Thread f16ThreadData     = new Thread(UpdateHash);
            Thread f32ThreadData     = new Thread(UpdateHash);

            if (enabled.HasFlag(EnableChecksum.Adler32))
            {
                adler32CtxData = new Adler32Context();
                HashPacket adlerPktData = new HashPacket {
                    Context = adler32CtxData, Data = data
                };
                adlerThreadData.Start(adlerPktData);
            }

            if (enabled.HasFlag(EnableChecksum.Crc16))
            {
                crc16CtxData = new Crc16Context();
                HashPacket crc16PktData = new HashPacket {
                    Context = crc16CtxData, Data = data
                };
                crc16ThreadData.Start(crc16PktData);
            }

            if (enabled.HasFlag(EnableChecksum.Crc32))
            {
                crc32CtxData = new Crc32Context();
                HashPacket crc32PktData = new HashPacket {
                    Context = crc32CtxData, Data = data
                };
                crc32ThreadData.Start(crc32PktData);
            }

            if (enabled.HasFlag(EnableChecksum.Crc64))
            {
                crc64CtxData = new Crc64Context();
                HashPacket crc64PktData = new HashPacket {
                    Context = crc64CtxData, Data = data
                };
                crc64ThreadData.Start(crc64PktData);
            }

            if (enabled.HasFlag(EnableChecksum.Md5))
            {
                md5CtxData = new Md5Context();
                HashPacket md5PktData = new HashPacket {
                    Context = md5CtxData, Data = data
                };
                md5ThreadData.Start(md5PktData);
            }

            #if !NETSTANDARD2_0
            if (enabled.HasFlag(EnableChecksum.Ripemd160))
            {
                ripemd160CtxData = new Ripemd160Context();
                HashPacket ripemd160PktData = new HashPacket {
                    Context = ripemd160CtxData, Data = data
                };
                ripemd160ThreadData.Start(ripemd160PktData);
            }
            #endif

            if (enabled.HasFlag(EnableChecksum.Sha1))
            {
                sha1CtxData = new Sha1Context();
                HashPacket sha1PktData = new HashPacket {
                    Context = sha1CtxData, Data = data
                };
                sha1ThreadData.Start(sha1PktData);
            }

            if (enabled.HasFlag(EnableChecksum.Sha256))
            {
                sha256CtxData = new Sha256Context();
                HashPacket sha256PktData = new HashPacket {
                    Context = sha256CtxData, Data = data
                };
                sha256ThreadData.Start(sha256PktData);
            }

            if (enabled.HasFlag(EnableChecksum.Sha384))
            {
                sha384CtxData = new Sha384Context();
                HashPacket sha384PktData = new HashPacket {
                    Context = sha384CtxData, Data = data
                };
                sha384ThreadData.Start(sha384PktData);
            }

            if (enabled.HasFlag(EnableChecksum.Sha512))
            {
                sha512CtxData = new Sha512Context();
                HashPacket sha512PktData = new HashPacket {
                    Context = sha512CtxData, Data = data
                };
                sha512ThreadData.Start(sha512PktData);
            }

            if (enabled.HasFlag(EnableChecksum.SpamSum))
            {
                ssctxData = new SpamSumContext();
                HashPacket spamsumPktData = new HashPacket {
                    Context = ssctxData, Data = data
                };
                spamsumThreadData.Start(spamsumPktData);
            }

            if (enabled.HasFlag(EnableChecksum.Fletcher16))
            {
                f16CtxData = new Fletcher16Context();
                HashPacket f16PktData = new HashPacket {
                    Context = f16CtxData, Data = data
                };
                f16ThreadData.Start(f16PktData);
            }

            if (enabled.HasFlag(EnableChecksum.Fletcher32))
            {
                f32CtxData = new Fletcher32Context();
                HashPacket f32PktData = new HashPacket {
                    Context = f32CtxData, Data = data
                };
                f32ThreadData.Start(f32PktData);
            }

            while (adlerThreadData.IsAlive || crc16ThreadData.IsAlive || crc32ThreadData.IsAlive ||
                   crc64ThreadData.IsAlive || md5ThreadData.IsAlive ||
                  #if !NETSTANDARD2_0
                   ripemd160ThreadData.IsAlive ||
                  #endif
                   sha1ThreadData.IsAlive || sha256ThreadData.IsAlive || sha384ThreadData.IsAlive ||
                   sha512ThreadData.IsAlive || spamsumThreadData.IsAlive || f16ThreadData.IsAlive ||
                   f32ThreadData.IsAlive)
            {
            }

            List <ChecksumType> dataChecksums = new List <ChecksumType>();
            ChecksumType        chk;

            if (enabled.HasFlag(EnableChecksum.Adler32))
            {
                chk = new ChecksumType {
                    type = ChecksumTypeType.adler32, Value = adler32CtxData.End()
                };
                dataChecksums.Add(chk);
            }

            if (enabled.HasFlag(EnableChecksum.Crc16))
            {
                chk = new ChecksumType {
                    type = ChecksumTypeType.crc16, Value = crc16CtxData.End()
                };
                dataChecksums.Add(chk);
            }

            if (enabled.HasFlag(EnableChecksum.Crc32))
            {
                chk = new ChecksumType {
                    type = ChecksumTypeType.crc32, Value = crc32CtxData.End()
                };
                dataChecksums.Add(chk);
            }

            if (enabled.HasFlag(EnableChecksum.Crc64))
            {
                chk = new ChecksumType {
                    type = ChecksumTypeType.crc64, Value = crc64CtxData.End()
                };
                dataChecksums.Add(chk);
            }

            if (enabled.HasFlag(EnableChecksum.Md5))
            {
                chk = new ChecksumType {
                    type = ChecksumTypeType.md5, Value = md5CtxData.End()
                };
                dataChecksums.Add(chk);
            }

            #if !NETSTANDARD2_0
            if (enabled.HasFlag(EnableChecksum.Ripemd160))
            {
                chk = new ChecksumType {
                    type = ChecksumTypeType.ripemd160, Value = ripemd160CtxData.End()
                };
                dataChecksums.Add(chk);
            }
            #endif

            if (enabled.HasFlag(EnableChecksum.Sha1))
            {
                chk = new ChecksumType {
                    type = ChecksumTypeType.sha1, Value = sha1CtxData.End()
                };
                dataChecksums.Add(chk);
            }

            if (enabled.HasFlag(EnableChecksum.Sha256))
            {
                chk = new ChecksumType {
                    type = ChecksumTypeType.sha256, Value = sha256CtxData.End()
                };
                dataChecksums.Add(chk);
            }

            if (enabled.HasFlag(EnableChecksum.Sha384))
            {
                chk = new ChecksumType {
                    type = ChecksumTypeType.sha384, Value = sha384CtxData.End()
                };
                dataChecksums.Add(chk);
            }

            if (enabled.HasFlag(EnableChecksum.Sha512))
            {
                chk = new ChecksumType {
                    type = ChecksumTypeType.sha512, Value = sha512CtxData.End()
                };
                dataChecksums.Add(chk);
            }

            if (enabled.HasFlag(EnableChecksum.SpamSum))
            {
                chk = new ChecksumType {
                    type = ChecksumTypeType.spamsum, Value = ssctxData.End()
                };
                dataChecksums.Add(chk);
            }

            if (enabled.HasFlag(EnableChecksum.Fletcher16))
            {
                chk = new ChecksumType {
                    type = ChecksumTypeType.fletcher16, Value = f16CtxData.End()
                };
                dataChecksums.Add(chk);
            }

            if (enabled.HasFlag(EnableChecksum.Fletcher32))
            {
                chk = new ChecksumType {
                    type = ChecksumTypeType.fletcher32, Value = f32CtxData.End()
                };
                dataChecksums.Add(chk);
            }

            return(dataChecksums);
        }
Example #5
0
        public static BenchmarkResults Do(int bufferSize, int blockSize)
        {
            BenchmarkResults results = new BenchmarkResults
            {
                Entries      = new Dictionary <string, BenchmarkEntry>(),
                MinMemory    = long.MaxValue,
                MaxMemory    = 0,
                SeparateTime = 0
            };
            MemoryStream ms  = new MemoryStream(bufferSize);
            Random       rnd = new Random();
            DateTime     start;
            DateTime     end;

            start = DateTime.Now;
            InitProgress();
            for (int i = 0; i < bufferSize / blockSize; i++)
            {
                UpdateProgress("Writing block {0} of {1} with random data.", i + 1, bufferSize / blockSize);
                byte[] tmp = new byte[blockSize];
                rnd.NextBytes(tmp);
                ms.Write(tmp, 0, blockSize);
            }

            EndProgress();
            end = DateTime.Now;

            results.FillTime  = (end - start).TotalSeconds;
            results.FillSpeed = bufferSize / 1048576.0 / (end - start).TotalSeconds;

            ms.Seek(0, SeekOrigin.Begin);
            long mem = GC.GetTotalMemory(false);

            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }
            start = DateTime.Now;
            InitProgress();
            for (int i = 0; i < bufferSize / blockSize; i++)
            {
                UpdateProgress("Reading block {0} of {1}.", i + 1, bufferSize / blockSize);
                byte[] tmp = new byte[blockSize];
                ms.Read(tmp, 0, blockSize);
            }

            EndProgress();
            end = DateTime.Now;
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }

            results.ReadTime  = (end - start).TotalSeconds;
            results.ReadSpeed = bufferSize / 1048576.0 / (end - start).TotalSeconds;

            #region Adler32
            IChecksum ctx = new Adler32Context();
            ms.Seek(0, SeekOrigin.Begin);
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }
            start = DateTime.Now;
            InitProgress();
            for (int i = 0; i < bufferSize / blockSize; i++)
            {
                UpdateProgress("Checksumming block {0} of {1} with Adler32.", i + 1, bufferSize / blockSize);
                byte[] tmp = new byte[blockSize];
                ms.Read(tmp, 0, blockSize);
                ctx.Update(tmp);
            }

            EndProgress();
            ctx.End();
            end = DateTime.Now;
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }

            results.Entries.Add("Adler32",
                                new BenchmarkEntry
            {
                TimeSpan = (end - start).TotalSeconds,
                Speed    = bufferSize / 1048576.0 / (end - start).TotalSeconds
            });
            results.SeparateTime += (end - start).TotalSeconds;
            #endregion Adler32

            #region Fletcher16
            ctx = new Fletcher16Context();
            ms.Seek(0, SeekOrigin.Begin);
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }
            start = DateTime.Now;
            InitProgress();
            for (int i = 0; i < bufferSize / blockSize; i++)
            {
                UpdateProgress("Checksumming block {0} of {1} with Fletcher-16.", i + 1, bufferSize / blockSize);
                byte[] tmp = new byte[blockSize];
                ms.Read(tmp, 0, blockSize);
                ctx.Update(tmp);
            }

            EndProgress();
            ctx.End();
            end = DateTime.Now;
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }

            results.Entries.Add("Fletcher16",
                                new BenchmarkEntry
            {
                TimeSpan = (end - start).TotalSeconds,
                Speed    = bufferSize / 1048576.0 / (end - start).TotalSeconds
            });
            results.SeparateTime += (end - start).TotalSeconds;
            #endregion Fletcher16

            #region Fletcher32
            ctx = new Fletcher32Context();
            ms.Seek(0, SeekOrigin.Begin);
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }
            start = DateTime.Now;
            InitProgress();
            for (int i = 0; i < bufferSize / blockSize; i++)
            {
                UpdateProgress("Checksumming block {0} of {1} with Fletcher-32.", i + 1, bufferSize / blockSize);
                byte[] tmp = new byte[blockSize];
                ms.Read(tmp, 0, blockSize);
                ctx.Update(tmp);
            }

            EndProgress();
            ctx.End();
            end = DateTime.Now;
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }

            results.Entries.Add("Fletcher32",
                                new BenchmarkEntry
            {
                TimeSpan = (end - start).TotalSeconds,
                Speed    = bufferSize / 1048576.0 / (end - start).TotalSeconds
            });
            results.SeparateTime += (end - start).TotalSeconds;
            #endregion Fletcher32

            #region CRC16
            ctx = new Crc16Context();
            ms.Seek(0, SeekOrigin.Begin);
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }
            start = DateTime.Now;
            InitProgress();
            for (int i = 0; i < bufferSize / blockSize; i++)
            {
                UpdateProgress("Checksumming block {0} of {1} with CRC16.", i + 1, bufferSize / blockSize);
                byte[] tmp = new byte[blockSize];
                ms.Read(tmp, 0, blockSize);
                ctx.Update(tmp);
            }

            EndProgress();
            ctx.End();
            end = DateTime.Now;
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }

            results.Entries.Add("CRC16",
                                new BenchmarkEntry
            {
                TimeSpan = (end - start).TotalSeconds,
                Speed    = bufferSize / 1048576.0 / (end - start).TotalSeconds
            });
            results.SeparateTime += (end - start).TotalSeconds;
            #endregion CRC16

            #region CRC32
            ctx = new Crc32Context();
            ms.Seek(0, SeekOrigin.Begin);
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }
            start = DateTime.Now;
            InitProgress();
            for (int i = 0; i < bufferSize / blockSize; i++)
            {
                UpdateProgress("Checksumming block {0} of {1} with CRC32.", i + 1, bufferSize / blockSize);
                byte[] tmp = new byte[blockSize];
                ms.Read(tmp, 0, blockSize);
                ctx.Update(tmp);
            }

            EndProgress();
            ctx.End();
            end = DateTime.Now;
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }

            results.Entries.Add("CRC32",
                                new BenchmarkEntry
            {
                TimeSpan = (end - start).TotalSeconds,
                Speed    = bufferSize / 1048576.0 / (end - start).TotalSeconds
            });
            results.SeparateTime += (end - start).TotalSeconds;
            #endregion CRC32

            #region CRC64
            ctx = new Crc64Context();
            ms.Seek(0, SeekOrigin.Begin);
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }
            start = DateTime.Now;
            InitProgress();
            for (int i = 0; i < bufferSize / blockSize; i++)
            {
                UpdateProgress("Checksumming block {0} of {1} with CRC64.", i + 1, bufferSize / blockSize);
                byte[] tmp = new byte[blockSize];
                ms.Read(tmp, 0, blockSize);
                ctx.Update(tmp);
            }

            EndProgress();
            ctx.End();
            end = DateTime.Now;
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }

            results.Entries.Add("CRC64",
                                new BenchmarkEntry
            {
                TimeSpan = (end - start).TotalSeconds,
                Speed    = bufferSize / 1048576.0 / (end - start).TotalSeconds
            });
            results.SeparateTime += (end - start).TotalSeconds;
            #endregion CRC64

            #region MD5
            ctx = new Md5Context();
            ms.Seek(0, SeekOrigin.Begin);
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }
            start = DateTime.Now;
            InitProgress();
            for (int i = 0; i < bufferSize / blockSize; i++)
            {
                UpdateProgress("Checksumming block {0} of {1} with MD5.", i + 1, bufferSize / blockSize);
                byte[] tmp = new byte[blockSize];
                ms.Read(tmp, 0, blockSize);
                ctx.Update(tmp);
            }

            EndProgress();
            ctx.End();
            end = DateTime.Now;
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }

            results.Entries.Add("MD5",
                                new BenchmarkEntry
            {
                TimeSpan = (end - start).TotalSeconds,
                Speed    = bufferSize / 1048576.0 / (end - start).TotalSeconds
            });
            results.SeparateTime += (end - start).TotalSeconds;
            #endregion MD5

            #if !NETSTANDARD2_0
            #region RIPEMD160
            ctx = new Ripemd160Context();
            ms.Seek(0, SeekOrigin.Begin);
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }
            start = DateTime.Now;
            InitProgress();
            for (int i = 0; i < bufferSize / blockSize; i++)
            {
                UpdateProgress("Checksumming block {0} of {1} with RIPEMD160.", i + 1, bufferSize / blockSize);
                byte[] tmp = new byte[blockSize];
                ms.Read(tmp, 0, blockSize);
                ctx.Update(tmp);
            }

            EndProgress();
            ctx.End();
            end = DateTime.Now;
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }

            results.Entries.Add("RIPEMD160",
                                new BenchmarkEntry
            {
                TimeSpan = (end - start).TotalSeconds,
                Speed    = bufferSize / 1048576.0 / (end - start).TotalSeconds
            });
            results.SeparateTime += (end - start).TotalSeconds;
            #endregion RIPEMD160
            #endif

            #region SHA1
            ctx = new Sha1Context();
            ms.Seek(0, SeekOrigin.Begin);
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }
            start = DateTime.Now;
            InitProgress();
            for (int i = 0; i < bufferSize / blockSize; i++)
            {
                UpdateProgress("Checksumming block {0} of {1} with SHA1.", i + 1, bufferSize / blockSize);
                byte[] tmp = new byte[blockSize];
                ms.Read(tmp, 0, blockSize);
                ctx.Update(tmp);
            }

            EndProgress();
            ctx.End();
            end = DateTime.Now;
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }

            results.Entries.Add("SHA1",
                                new BenchmarkEntry
            {
                TimeSpan = (end - start).TotalSeconds,
                Speed    = bufferSize / 1048576.0 / (end - start).TotalSeconds
            });
            results.SeparateTime += (end - start).TotalSeconds;
            #endregion SHA1

            #region SHA256
            ctx = new Sha256Context();
            ms.Seek(0, SeekOrigin.Begin);
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }
            start = DateTime.Now;
            InitProgress();
            for (int i = 0; i < bufferSize / blockSize; i++)
            {
                UpdateProgress("Checksumming block {0} of {1} with SHA256.", i + 1, bufferSize / blockSize);
                byte[] tmp = new byte[blockSize];
                ms.Read(tmp, 0, blockSize);
                ctx.Update(tmp);
            }

            EndProgress();
            ctx.End();
            end = DateTime.Now;
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }

            results.Entries.Add("SHA256",
                                new BenchmarkEntry
            {
                TimeSpan = (end - start).TotalSeconds,
                Speed    = bufferSize / 1048576.0 / (end - start).TotalSeconds
            });
            results.SeparateTime += (end - start).TotalSeconds;
            #endregion SHA256

            #region SHA384
            ctx = new Sha384Context();
            ms.Seek(0, SeekOrigin.Begin);
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }
            start = DateTime.Now;
            InitProgress();
            for (int i = 0; i < bufferSize / blockSize; i++)
            {
                UpdateProgress("Checksumming block {0} of {1} with SHA384.", i + 1, bufferSize / blockSize);
                byte[] tmp = new byte[blockSize];
                ms.Read(tmp, 0, blockSize);
                ctx.Update(tmp);
            }

            EndProgress();
            ctx.End();
            end = DateTime.Now;
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }

            results.Entries.Add("SHA384",
                                new BenchmarkEntry
            {
                TimeSpan = (end - start).TotalSeconds,
                Speed    = bufferSize / 1048576.0 / (end - start).TotalSeconds
            });
            results.SeparateTime += (end - start).TotalSeconds;
            #endregion SHA384

            #region SHA512
            ctx = new Sha512Context();
            ms.Seek(0, SeekOrigin.Begin);
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }
            start = DateTime.Now;
            InitProgress();
            for (int i = 0; i < bufferSize / blockSize; i++)
            {
                UpdateProgress("Checksumming block {0} of {1} with SHA512.", i + 1, bufferSize / blockSize);
                byte[] tmp = new byte[blockSize];
                ms.Read(tmp, 0, blockSize);
                ctx.Update(tmp);
            }

            EndProgress();
            ctx.End();
            end = DateTime.Now;
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }

            results.Entries.Add("SHA512",
                                new BenchmarkEntry
            {
                TimeSpan = (end - start).TotalSeconds,
                Speed    = bufferSize / 1048576.0 / (end - start).TotalSeconds
            });
            results.SeparateTime += (end - start).TotalSeconds;
            #endregion SHA512

            #region SpamSum
            ctx = new SpamSumContext();
            ms.Seek(0, SeekOrigin.Begin);
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }
            start = DateTime.Now;
            InitProgress();
            for (int i = 0; i < bufferSize / blockSize; i++)
            {
                UpdateProgress("Checksumming block {0} of {1} with SpamSum.", i + 1, bufferSize / blockSize);
                byte[] tmp = new byte[blockSize];
                ms.Read(tmp, 0, blockSize);
                ctx.Update(tmp);
            }

            EndProgress();
            ctx.End();
            end = DateTime.Now;
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }

            results.Entries.Add("SpamSum",
                                new BenchmarkEntry
            {
                TimeSpan = (end - start).TotalSeconds,
                Speed    = bufferSize / 1048576.0 / (end - start).TotalSeconds
            });
            results.SeparateTime += (end - start).TotalSeconds;
            #endregion SpamSum

            #region Entropy
            ulong[] entTable = new ulong[256];
            ms.Seek(0, SeekOrigin.Begin);
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }
            start = DateTime.Now;
            InitProgress();
            for (int i = 0; i < bufferSize / blockSize; i++)
            {
                UpdateProgress("Entropying block {0} of {1}.", i + 1, bufferSize / blockSize);
                byte[] tmp = new byte[blockSize];
                ms.Read(tmp, 0, blockSize);
                foreach (byte b in tmp)
                {
                    entTable[b]++;
                }
            }

            EndProgress();

            end = DateTime.Now;
            mem = GC.GetTotalMemory(false);
            if (mem > results.MaxMemory)
            {
                results.MaxMemory = mem;
            }
            if (mem < results.MinMemory)
            {
                results.MinMemory = mem;
            }

            results.EntropyTime  = (end - start).TotalSeconds;
            results.EntropySpeed = bufferSize / 1048576.0 / (end - start).TotalSeconds;
            #endregion Entropy

            /*
             #region Multitasking
             * start                 = DateTime.Now;
             * Checksum allChecksums = new Checksum();
             * InitProgress();
             * for(int i = 0; i < bufferSize / blockSize; i++)
             * {
             *  UpdateProgress("Checksumming block {0} of {1} with all algorithms at the same time.", i + 1,
             *                 bufferSize / blockSize);
             *  byte[] tmp = new byte[blockSize];
             *  ms.Read(tmp, 0, blockSize);
             *
             *  allChecksums.Update(tmp);
             * }
             *
             * EndProgress();
             *
             * allChecksums.End();
             * end                                           = DateTime.Now;
             * mem                                           = GC.GetTotalMemory(false);
             * if(mem > results.MaxMemory) results.MaxMemory = mem;
             * if(mem < results.MinMemory) results.MinMemory = mem;
             *
             * results.TotalTime  = (end - start).TotalSeconds;
             * results.TotalSpeed = bufferSize / 1048576.0 / results.TotalTime;
             #endregion
             */
            results.SeparateSpeed = bufferSize / 1048576.0 / results.SeparateTime;

            return(results);
        }
Example #6
0
 public void Crc16RandomFile()
 {
     byte[] result = Crc16Context.File(Path.Combine(Consts.TestFilesRoot, "checksums", "random"));
     Assert.AreEqual(ExpectedRandom, result);
 }
Example #7
0
 public void Crc16EmptyFile()
 {
     byte[] result = Crc16Context.File(Path.Combine(Consts.TestFilesRoot, "checksums", "empty"));
     Assert.AreEqual(ExpectedEmpty, result);
 }
Example #8
0
        internal static List <ChecksumType> GetChecksums(byte[] data)
        {
            Adler32Context   adler32ctxData   = new Adler32Context();
            Crc16Context     crc16ctxData     = new Crc16Context();
            Crc32Context     crc32ctxData     = new Crc32Context();
            Crc64Context     crc64ctxData     = new Crc64Context();
            Md5Context       md5ctxData       = new Md5Context();
            Ripemd160Context ripemd160ctxData = new Ripemd160Context();
            Sha1Context      sha1ctxData      = new Sha1Context();
            Sha256Context    sha256ctxData    = new Sha256Context();
            Sha384Context    sha384ctxData    = new Sha384Context();
            Sha512Context    sha512ctxData    = new Sha512Context();
            SpamSumContext   ssctxData        = new SpamSumContext();

            Thread adlerThreadData     = new Thread(updateAdler);
            Thread crc16ThreadData     = new Thread(updateCRC16);
            Thread crc32ThreadData     = new Thread(updateCRC32);
            Thread crc64ThreadData     = new Thread(updateCRC64);
            Thread md5ThreadData       = new Thread(updateMD5);
            Thread ripemd160ThreadData = new Thread(updateRIPEMD160);
            Thread sha1ThreadData      = new Thread(updateSHA1);
            Thread sha256ThreadData    = new Thread(updateSHA256);
            Thread sha384ThreadData    = new Thread(updateSHA384);
            Thread sha512ThreadData    = new Thread(updateSHA512);
            Thread spamsumThreadData   = new Thread(updateSpamSum);

            adlerPacket     adlerPktData     = new adlerPacket();
            crc16Packet     crc16PktData     = new crc16Packet();
            crc32Packet     crc32PktData     = new crc32Packet();
            crc64Packet     crc64PktData     = new crc64Packet();
            md5Packet       md5PktData       = new md5Packet();
            ripemd160Packet ripemd160PktData = new ripemd160Packet();
            sha1Packet      sha1PktData      = new sha1Packet();
            sha256Packet    sha256PktData    = new sha256Packet();
            sha384Packet    sha384PktData    = new sha384Packet();
            sha512Packet    sha512PktData    = new sha512Packet();
            spamsumPacket   spamsumPktData   = new spamsumPacket();

            adler32ctxData.Init();
            adlerPktData.context = adler32ctxData;
            crc16ctxData.Init();
            crc16PktData.context = crc16ctxData;
            crc32ctxData.Init();
            crc32PktData.context = crc32ctxData;
            crc64ctxData.Init();
            crc64PktData.context = crc64ctxData;
            md5ctxData.Init();
            md5PktData.context = md5ctxData;
            ripemd160ctxData.Init();
            ripemd160PktData.context = ripemd160ctxData;
            sha1ctxData.Init();
            sha1PktData.context = sha1ctxData;
            sha256ctxData.Init();
            sha256PktData.context = sha256ctxData;
            sha384ctxData.Init();
            sha384PktData.context = sha384ctxData;
            sha512ctxData.Init();
            sha512PktData.context = sha512ctxData;
            ssctxData.Init();
            spamsumPktData.context = ssctxData;

            adlerPktData.data = data;
            adlerThreadData.Start(adlerPktData);
            crc16PktData.data = data;
            crc16ThreadData.Start(crc16PktData);
            crc32PktData.data = data;
            crc32ThreadData.Start(crc32PktData);
            crc64PktData.data = data;
            crc64ThreadData.Start(crc64PktData);
            md5PktData.data = data;
            md5ThreadData.Start(md5PktData);
            ripemd160PktData.data = data;
            ripemd160ThreadData.Start(ripemd160PktData);
            sha1PktData.data = data;
            sha1ThreadData.Start(sha1PktData);
            sha256PktData.data = data;
            sha256ThreadData.Start(sha256PktData);
            sha384PktData.data = data;
            sha384ThreadData.Start(sha384PktData);
            sha512PktData.data = data;
            sha512ThreadData.Start(sha512PktData);
            spamsumPktData.data = data;
            spamsumThreadData.Start(spamsumPktData);

            while (adlerThreadData.IsAlive || crc16ThreadData.IsAlive || crc32ThreadData.IsAlive ||
                   crc64ThreadData.IsAlive || md5ThreadData.IsAlive || ripemd160ThreadData.IsAlive ||
                   sha1ThreadData.IsAlive || sha256ThreadData.IsAlive || sha384ThreadData.IsAlive ||
                   sha512ThreadData.IsAlive || spamsumThreadData.IsAlive)
            {
            }

            List <ChecksumType> dataChecksums = new List <ChecksumType>();

            ChecksumType chk = new ChecksumType {
                type = ChecksumTypeType.adler32, Value = adler32ctxData.End()
            };

            dataChecksums.Add(chk);

            chk = new ChecksumType {
                type = ChecksumTypeType.crc16, Value = crc16ctxData.End()
            };
            dataChecksums.Add(chk);

            chk = new ChecksumType {
                type = ChecksumTypeType.crc32, Value = crc32ctxData.End()
            };
            dataChecksums.Add(chk);

            chk = new ChecksumType {
                type = ChecksumTypeType.crc64, Value = crc64ctxData.End()
            };
            dataChecksums.Add(chk);

            chk = new ChecksumType {
                type = ChecksumTypeType.md5, Value = md5ctxData.End()
            };
            dataChecksums.Add(chk);

            chk = new ChecksumType {
                type = ChecksumTypeType.ripemd160, Value = ripemd160ctxData.End()
            };
            dataChecksums.Add(chk);

            chk = new ChecksumType {
                type = ChecksumTypeType.sha1, Value = sha1ctxData.End()
            };
            dataChecksums.Add(chk);

            chk = new ChecksumType {
                type = ChecksumTypeType.sha256, Value = sha256ctxData.End()
            };
            dataChecksums.Add(chk);

            chk = new ChecksumType {
                type = ChecksumTypeType.sha384, Value = sha384ctxData.End()
            };
            dataChecksums.Add(chk);

            chk = new ChecksumType {
                type = ChecksumTypeType.sha512, Value = sha512ctxData.End()
            };
            dataChecksums.Add(chk);

            chk = new ChecksumType {
                type = ChecksumTypeType.spamsum, Value = ssctxData.End()
            };
            dataChecksums.Add(chk);

            return(dataChecksums);
        }
Example #9
0
        public bool Open(IFilter imageFilter)
        {
            Stream stream = imageFilter.GetDataForkStream();

            stream.Seek(0, SeekOrigin.Begin);

            if (stream.Length < 512)
            {
                return(false);
            }

            byte[] headerB = new byte[256];
            stream.Read(headerB, 0, 256);
            CpcDiskInfo header = Marshal.ByteArrayToStructureLittleEndian <CpcDiskInfo>(headerB);

            if (!cpcdskId.SequenceEqual(header.magic) && !edskId.SequenceEqual(header.magic) &&
                !du54Id.SequenceEqual(header.magic))
            {
                return(false);
            }

            extended = edskId.SequenceEqual(header.magic);
            DicConsole.DebugWriteLine("CPCDSK plugin", "Extended = {0}", extended);
            DicConsole.DebugWriteLine("CPCDSK plugin", "header.magic = \"{0}\"",
                                      StringHandlers.CToString(header.magic));
            DicConsole.DebugWriteLine("CPCDSK plugin", "header.magic2 = \"{0}\"",
                                      StringHandlers.CToString(header.magic2));
            DicConsole.DebugWriteLine("CPCDSK plugin", "header.creator = \"{0}\"",
                                      StringHandlers.CToString(header.creator));
            DicConsole.DebugWriteLine("CPCDSK plugin", "header.tracks = {0}", header.tracks);
            DicConsole.DebugWriteLine("CPCDSK plugin", "header.sides = {0}", header.sides);
            if (!extended)
            {
                DicConsole.DebugWriteLine("CPCDSK plugin", "header.tracksize = {0}", header.tracksize);
            }
            else
            {
                for (int i = 0; i < header.tracks; i++)
                {
                    for (int j = 0; j < header.sides; j++)
                    {
                        DicConsole.DebugWriteLine("CPCDSK plugin", "Track {0} Side {1} size = {2}", i, j,
                                                  header.tracksizeTable[i * header.sides + j] * 256);
                    }
                }
            }

            ulong currentSector = 0;

            sectors      = new Dictionary <ulong, byte[]>();
            addressMarks = new Dictionary <ulong, byte[]>();
            ulong readtracks        = 0;
            bool  allTracksSameSize = true;
            ulong sectorsPerTrack   = 0;

            // Seek to first track descriptor
            stream.Seek(256, SeekOrigin.Begin);
            for (int i = 0; i < header.tracks; i++)
            {
                for (int j = 0; j < header.sides; j++)
                {
                    // Track not stored in image
                    if (extended && header.tracksizeTable[i * header.sides + j] == 0)
                    {
                        continue;
                    }

                    long trackPos = stream.Position;

                    byte[] trackB = new byte[256];
                    stream.Read(trackB, 0, 256);
                    CpcTrackInfo trackInfo = Marshal.ByteArrayToStructureLittleEndian <CpcTrackInfo>(trackB);

                    if (!trackId.SequenceEqual(trackInfo.magic))
                    {
                        DicConsole.ErrorWriteLine("Not the expected track info.");
                        return(false);
                    }

                    DicConsole.DebugWriteLine("CPCDSK plugin", "trackInfo[{1}:{2}].magic = \"{0}\"",
                                              StringHandlers.CToString(trackInfo.magic), i, j);
                    DicConsole.DebugWriteLine("CPCDSK plugin", "trackInfo[{1}:{2}].bps = {0}",
                                              SizeCodeToBytes(trackInfo.bps), i, j);
                    DicConsole.DebugWriteLine("CPCDSK plugin", "trackInfo[{1}:{2}].dataRate = {0}", trackInfo.dataRate,
                                              i, j);
                    DicConsole.DebugWriteLine("CPCDSK plugin", "trackInfo[{1}:{2}].filler = 0x{0:X2}", trackInfo.filler,
                                              i, j);
                    DicConsole.DebugWriteLine("CPCDSK plugin", "trackInfo[{1}:{2}].gap3 = 0x{0:X2}", trackInfo.gap3, i,
                                              j);
                    DicConsole.DebugWriteLine("CPCDSK plugin", "trackInfo[{1}:{2}].padding = {0}", trackInfo.padding, i,
                                              j);
                    DicConsole.DebugWriteLine("CPCDSK plugin", "trackInfo[{1}:{2}].recordingMode = {0}",
                                              trackInfo.recordingMode, i, j);
                    DicConsole.DebugWriteLine("CPCDSK plugin", "trackInfo[{1}:{2}].sectors = {0}", trackInfo.sectors, i,
                                              j);
                    DicConsole.DebugWriteLine("CPCDSK plugin", "trackInfo[{1}:{2}].side = {0}", trackInfo.side, i, j);
                    DicConsole.DebugWriteLine("CPCDSK plugin", "trackInfo[{1}:{2}].track = {0}", trackInfo.track, i, j);

                    if (trackInfo.sectors != sectorsPerTrack)
                    {
                        if (sectorsPerTrack == 0)
                        {
                            sectorsPerTrack = trackInfo.sectors;
                        }
                        else
                        {
                            allTracksSameSize = false;
                        }
                    }

                    byte[][] thisTrackSectors      = new byte[trackInfo.sectors][];
                    byte[][] thisTrackAddressMarks = new byte[trackInfo.sectors][];

                    for (int k = 1; k <= trackInfo.sectors; k++)
                    {
                        DicConsole.DebugWriteLine("CPCDSK plugin", "trackInfo[{1}:{2}].sector[{3}].id = 0x{0:X2}",
                                                  trackInfo.sectorsInfo[k - 1].id, i, j, k);
                        DicConsole.DebugWriteLine("CPCDSK plugin", "trackInfo[{1}:{2}].sector[{3}].len = {0}",
                                                  trackInfo.sectorsInfo[k - 1].len, i, j, k);
                        DicConsole.DebugWriteLine("CPCDSK plugin", "trackInfo[{1}:{2}].sector[{3}].side = {0}",
                                                  trackInfo.sectorsInfo[k - 1].side, i, j, k);
                        DicConsole.DebugWriteLine("CPCDSK plugin", "trackInfo[{1}:{2}].sector[{3}].size = {0}",
                                                  SizeCodeToBytes(trackInfo.sectorsInfo[k - 1].size), i, j, k);
                        DicConsole.DebugWriteLine("CPCDSK plugin", "trackInfo[{1}:{2}].sector[{3}].st1 = 0x{0:X2}",
                                                  trackInfo.sectorsInfo[k - 1].st1, i, j, k);
                        DicConsole.DebugWriteLine("CPCDSK plugin", "trackInfo[{1}:{2}].sector[{3}].st2 = 0x{0:X2}",
                                                  trackInfo.sectorsInfo[k - 1].st2, i, j, k);
                        DicConsole.DebugWriteLine("CPCDSK plugin", "trackInfo[{1}:{2}].sector[{3}].track = {0}",
                                                  trackInfo.sectorsInfo[k - 1].track, i, j, k);

                        int sectLen = extended
                                          ? trackInfo.sectorsInfo[k - 1].len
                                          : SizeCodeToBytes(trackInfo.sectorsInfo[k - 1].size);

                        byte[] sector = new byte[sectLen];
                        stream.Read(sector, 0, sectLen);

                        if (sectLen < SizeCodeToBytes(trackInfo.sectorsInfo[k - 1].size))
                        {
                            byte[] temp = new byte[SizeCodeToBytes(trackInfo.sectorsInfo[k - 1].size)];
                            Array.Copy(sector, 0, temp, 0, sector.Length);
                            sector = temp;
                        }
                        else if (sectLen > SizeCodeToBytes(trackInfo.sectorsInfo[k - 1].size))
                        {
                            byte[] temp = new byte[SizeCodeToBytes(trackInfo.sectorsInfo[k - 1].size)];
                            Array.Copy(sector, 0, temp, 0, temp.Length);
                            sector = temp;
                        }

                        thisTrackSectors[(trackInfo.sectorsInfo[k - 1].id & 0x3F) - 1] = sector;

                        byte[] amForCrc = new byte[8];
                        amForCrc[0] = 0xA1;
                        amForCrc[1] = 0xA1;
                        amForCrc[2] = 0xA1;
                        amForCrc[3] = (byte)IBMIdType.AddressMark;
                        amForCrc[4] = trackInfo.sectorsInfo[k - 1].track;
                        amForCrc[5] = trackInfo.sectorsInfo[k - 1].side;
                        amForCrc[6] = trackInfo.sectorsInfo[k - 1].id;
                        amForCrc[7] = (byte)trackInfo.sectorsInfo[k - 1].size;

                        Crc16Context.Data(amForCrc, 8, out byte[] amCrc);

                        byte[] addressMark = new byte[22];
                        Array.Copy(amForCrc, 0, addressMark, 12, 8);
                        Array.Copy(amCrc, 0, addressMark, 20, 2);

                        thisTrackAddressMarks[(trackInfo.sectorsInfo[k - 1].id & 0x3F) - 1] = addressMark;
                    }

                    for (int s = 0; s < thisTrackSectors.Length; s++)
                    {
                        sectors.Add(currentSector, thisTrackSectors[s]);
                        addressMarks.Add(currentSector, thisTrackAddressMarks[s]);
                        currentSector++;
                        if (thisTrackSectors[s].Length > imageInfo.SectorSize)
                        {
                            imageInfo.SectorSize = (uint)thisTrackSectors[s].Length;
                        }
                    }

                    stream.Seek(trackPos, SeekOrigin.Begin);
                    if (extended)
                    {
                        stream.Seek(header.tracksizeTable[i * header.sides + j] * 256, SeekOrigin.Current);
                        imageInfo.ImageSize += (ulong)(header.tracksizeTable[i * header.sides + j] * 256) - 256;
                    }
                    else
                    {
                        stream.Seek(header.tracksize, SeekOrigin.Current);
                        imageInfo.ImageSize += (ulong)header.tracksize - 256;
                    }

                    readtracks++;
                }
            }

            DicConsole.DebugWriteLine("CPCDSK plugin", "Read {0} sectors", sectors.Count);
            DicConsole.DebugWriteLine("CPCDSK plugin", "Read {0} tracks", readtracks);
            DicConsole.DebugWriteLine("CPCDSK plugin", "All tracks are same size? {0}", allTracksSameSize);

            imageInfo.Application          = StringHandlers.CToString(header.creator);
            imageInfo.CreationTime         = imageFilter.GetCreationTime();
            imageInfo.LastModificationTime = imageFilter.GetLastWriteTime();
            imageInfo.MediaTitle           = Path.GetFileNameWithoutExtension(imageFilter.GetFilename());
            imageInfo.Sectors      = (ulong)sectors.Count;
            imageInfo.XmlMediaType = XmlMediaType.BlockMedia;
            imageInfo.MediaType    = MediaType.CompactFloppy;
            imageInfo.ReadableSectorTags.Add(SectorTagType.FloppyAddressMark);

            // Debug writing full disk as raw

            /*
             * FileStream foo = new FileStream(Path.GetFileNameWithoutExtension(imageFilter.GetFilename()) + ".bin", FileMode.Create);
             * for(ulong i = 0; i < (ulong)sectors.Count; i++)
             * {
             *  byte[] foob;
             *  sectors.TryGetValue(i, out foob);
             *  foo.Write(foob, 0, foob.Length);
             * }
             * foo.Close();
             */

            imageInfo.Cylinders       = header.tracks;
            imageInfo.Heads           = header.sides;
            imageInfo.SectorsPerTrack = (uint)(imageInfo.Sectors / (imageInfo.Cylinders * imageInfo.Heads));

            return(true);
        }