コード例 #1
0
        public static void EncryptFunct(
            Stream Input, Stream Output, string ncaFilename,
            bool verifyEncrypted, Keyset keyset, Output Out)
        {
            var DecryptedKeys = Utils.CreateJaggedArray <byte[][]>(4, 0x10);
            var HeaderKey1    = new byte[16];
            var HeaderKey2    = new byte[16];

            Buffer.BlockCopy(keyset.HeaderKey, 0, HeaderKey1, 0, 16);
            Buffer.BlockCopy(keyset.HeaderKey, 16, HeaderKey2, 0, 16);

            var DecryptedHeader = new byte[0xC00];

            Input.Read(DecryptedHeader, 0, 0xC00);

            var Header     = new NcaHeader(new BinaryReader(new MemoryStream(DecryptedHeader)), keyset);
            var CryptoType = Math.Max(Header.CryptoType, Header.CryptoType2);

            if (CryptoType > 0)
            {
                CryptoType--;
            }

            var HasRightsId = !Header.RightsId.IsEmpty();

            if (!HasRightsId)
            {
                Out.Log("Key Area (Encrypted):\r\n");
                if (keyset.KeyAreaKeys[CryptoType][Header.KaekInd].IsEmpty())
                {
                    throw new ArgumentException($"key_area_key_{KakNames[Header.KaekInd]}_{CryptoType:x2}",
                                                "Missing area key!");
                }

                Out.Log(
                    $"key_area_key_{KakNames[Header.KaekInd]}_{CryptoType:x2}: {Utils.BytesToString(keyset.KeyAreaKeys[CryptoType][Header.KaekInd])}\r\n");
                for (var i = 0; i < 4; ++i)
                {
                    LibHac.Crypto.DecryptEcb(keyset.KeyAreaKeys[CryptoType][Header.KaekInd], Header.EncryptedKeys[i],
                                             DecryptedKeys[i], 0x10);
                    Out.Log($"Key {i} (Encrypted): {Utils.BytesToString(Header.EncryptedKeys[i])}\r\n");
                    Out.Log($"Key {i} (Decrypted): {Utils.BytesToString(DecryptedKeys[i])}\r\n");
                }
            }
            else
            {
                var titleKey    = keyset.TitleKeys[Header.RightsId];
                var TitleKeyDec = new byte[0x10];
                LibHac.Crypto.DecryptEcb(keyset.TitleKeks[CryptoType], titleKey, TitleKeyDec, 0x10);
                Out.Log($"titleKey: {Utils.BytesToString(titleKey)}\r\n");
                Out.Log($"TitleKeyDec: {Utils.BytesToString(TitleKeyDec)}\r\n");
                DecryptedKeys[2] = TitleKeyDec;
            }

            var Sections         = new NcaSection[4];
            var SectionsByOffset = new Dictionary <long, int>();
            var lowestOffset     = long.MaxValue;

            for (var i = 0; i < 4; ++i)
            {
                var section = NcaParseSection.ParseSection(Header, i);
                if (section == null)
                {
                    continue;
                }

                SectionsByOffset.Add(section.Offset, i);
                if (section.Offset < lowestOffset)
                {
                    lowestOffset = section.Offset;
                }

                Sections[i] = section;
            }

            Out.Log($"HeaderKey: {Utils.BytesToString(keyset.HeaderKey)}\r\n");
            Out.Log("Encrypting and writing header to NCA...\r\n");
            SHA256Cng sha256NCA = null;

            if (verifyEncrypted)
            {
                sha256NCA = new SHA256Cng();
                sha256NCA.Initialize();
            }

            var encryptedHeader = CryptoInitialisers.AES_XTS(HeaderKey1, HeaderKey2, 0x200, DecryptedHeader, 0);

            if (Output != null)
            {
                Output.Write(encryptedHeader, 0, DecryptedHeader.Length);
            }

            if (verifyEncrypted)
            {
                sha256NCA.TransformBlock(encryptedHeader, 0, DecryptedHeader.Length, null, 0);
            }

            var   dummyHeader       = new byte[0xC00];
            ulong dummyHeaderSector = 6;
            long  dummyHeaderPos;

            for (dummyHeaderPos = 0xC00; dummyHeaderPos < lowestOffset; dummyHeaderPos += 0xC00)
            {
                var dummyHeaderWriteCount = (int)Math.Min(lowestOffset - dummyHeaderPos, DecryptedHeader.Length);
                Input.Read(dummyHeader, 0, dummyHeaderWriteCount);
                var dummyHeaderEncrypted =
                    CryptoInitialisers.AES_XTS(HeaderKey1, HeaderKey2, 0x200, dummyHeader, dummyHeaderSector);
                if (Output != null)
                {
                    Output.Write(dummyHeaderEncrypted, 0, dummyHeaderWriteCount);
                }

                if (verifyEncrypted)
                {
                    sha256NCA.TransformBlock(dummyHeaderEncrypted, 0, dummyHeaderWriteCount, null, 0);
                }

                dummyHeaderSector += 6;
            }

            Out.Log("Encrypting and writing sectors to NCA...\r\n");
            Out.Log("Sections:\r\n");
            foreach (var i in SectionsByOffset.OrderBy(i => i.Key).Select(item => item.Value))
            {
                var sect = Sections[i];
                if (sect == null)
                {
                    continue;
                }

                var isExefs       = Header.ContentType == ContentType.Program && i == (int)ProgramPartitionType.Code;
                var PartitionType = isExefs ? "ExeFS" : sect.Type.ToString();
                Out.Log($"    Section {i}:\r\n");
                Out.Log($"        Offset: 0x{sect.Offset:x12}\r\n");
                Out.Log($"        Size: 0x{sect.Size:x12}\r\n");
                Out.Log($"        Partition Type: {PartitionType}\r\n");
                Out.Log($"        Section CTR: {Utils.BytesToString(sect.Header.Ctr)}\r\n");
                var initialCounter = new byte[0x10];


                if (sect.Header.Ctr != null)
                {
                    Array.Copy(sect.Header.Ctr, initialCounter, 8);
                }

                Out.Log($"initialCounter: {Utils.BytesToString(initialCounter)}\r\n");

                if (Input.Position != sect.Offset)
                {
                    //Input.Seek(sect.Offset, SeekOrigin.Begin);
                    //Output.Seek(sect.Offset, SeekOrigin.Begin);
                    //Todo: sha256NCA Gap support
                    throw new NotImplementedException("Gaps between NCA sections aren't implemented yet!");
                }

                const int maxBS = 10485760;                 //10 MB
                int       bs;
                var       DecryptedSectionBlock = new byte[maxBS];
                var       sectOffsetEnd         = sect.Offset + sect.Size;
                var       AesCtrEncrypter       = new Aes128CtrTransform(DecryptedKeys[2], initialCounter);
                switch (sect.Header.EncryptionType)
                {
                case NcaEncryptionType.None:
                    while (Input.Position < sectOffsetEnd)
                    {
                        bs = (int)Math.Min(sectOffsetEnd - Input.Position, maxBS);
                        Out.Print($"Encrypted: {Input.Position / 0x100000} MB\r\n");
                        Input.Read(DecryptedSectionBlock, 0, bs);
                        if (Output != null)
                        {
                            Output.Write(DecryptedSectionBlock, 0, bs);
                        }

                        if (verifyEncrypted)
                        {
                            sha256NCA.TransformBlock(DecryptedSectionBlock, 0, bs, null, 0);
                        }
                    }

                    break;

                case NcaEncryptionType.AesCtr:

                    while (Input.Position < sectOffsetEnd)
                    {
                        SetCtrOffset(initialCounter, Input.Position);
                        bs = (int)Math.Min(sectOffsetEnd - Input.Position, maxBS);
                        Out.Print($"Encrypted: {Input.Position / 0x100000} MB\r\n");
                        Input.Read(DecryptedSectionBlock, 0, bs);
                        AesCtrEncrypter.Counter = initialCounter;
                        AesCtrEncrypter.TransformBlock(DecryptedSectionBlock);

                        if (Output != null)
                        {
                            Output.Write(DecryptedSectionBlock, 0, bs);
                        }

                        if (verifyEncrypted)
                        {
                            sha256NCA.TransformBlock(DecryptedSectionBlock, 0, bs, null, 0);
                        }
                    }

                    break;

                case NcaEncryptionType.AesCtrEx:
                    var info         = sect.Header.BktrInfo;
                    var MyBucketTree = new MyBucketTree <AesSubsectionEntry>(
                        new MemoryStream(sect.Header.BktrInfo.EncryptionHeader.Header), Input,
                        sect.Offset + info.EncryptionHeader.Offset);
                    var SubsectionEntries = MyBucketTree.GetEntryList();
                    var SubsectionOffsets = SubsectionEntries.Select(x => x.Offset).ToList();

                    var subsectionEntryCounter = new byte[0x10];
                    Array.Copy(initialCounter, subsectionEntryCounter, 0x10);
                    foreach (var entry in SubsectionEntries)
                    {
                        do
                        {
                            bs = (int)Math.Min((sect.Offset + entry.OffsetEnd) - Input.Position, maxBS);

                            SetCtrOffset(subsectionEntryCounter, Input.Position);
                            subsectionEntryCounter[7] = (byte)entry.Counter;
                            subsectionEntryCounter[6] = (byte)(entry.Counter >> 8);
                            subsectionEntryCounter[5] = (byte)(entry.Counter >> 16);
                            subsectionEntryCounter[4] = (byte)(entry.Counter >> 24);

                            var DecryptedSectionBlockLUL = new byte[bs];
                            Out.Print($"Encrypted: {Input.Position / 0x100000} MB\r\n");
                            Out.Log($"{Input.Position}: {Utils.BytesToString(subsectionEntryCounter)}\r\n");
                            Input.Read(DecryptedSectionBlockLUL, 0, bs);
                            AesCtrEncrypter.Counter = subsectionEntryCounter;
                            AesCtrEncrypter.TransformBlock(DecryptedSectionBlockLUL);
                            if (Output != null)
                            {
                                Output.Write(DecryptedSectionBlockLUL, 0, bs);
                            }

                            if (verifyEncrypted)
                            {
                                sha256NCA.TransformBlock(DecryptedSectionBlockLUL, 0, bs, null, 0);
                            }
                        } while (Input.Position < entry.OffsetEnd);
                    }

                    while (Input.Position < sectOffsetEnd)
                    {
                        SetCtrOffset(subsectionEntryCounter, Input.Position);
                        bs = (int)Math.Min(sectOffsetEnd - Input.Position, maxBS);
                        Out.Print($"EncryptedAfter: {Input.Position / 0x100000} MB\r\n");
                        Input.Read(DecryptedSectionBlock, 0, bs);
                        Out.Log($"{Input.Position}: {Utils.BytesToString(subsectionEntryCounter)}\r\n");
                        AesCtrEncrypter.Counter = subsectionEntryCounter;
                        AesCtrEncrypter.TransformBlock(DecryptedSectionBlock);
                        if (Output != null)
                        {
                            Output.Write(DecryptedSectionBlock, 0, bs);
                        }

                        if (verifyEncrypted)
                        {
                            sha256NCA.TransformBlock(DecryptedSectionBlock, 0, bs, null, 0);
                        }
                    }

                    break;

                default:
                    throw new NotImplementedException();
                }
            }

            if (verifyEncrypted)
            {
                sha256NCA.TransformFinalBlock(new byte[0], 0, 0);
                var sha256NCAHashString = Utils.BytesToString(sha256NCA.Hash).ToLower();
                if (sha256NCAHashString.StartsWith(ncaFilename.Split('.')[0].ToLower()))
                {
                    Out.Log($"[VERIFIED] {sha256NCAHashString}\r\n");
                }
                else
                {
                    throw new Exception($"[INVALID HASH] sha256({ncaFilename}) = {sha256NCAHashString}\r\n");
                }
            }
        }