using System; using System.Collections.Generic; using static System.Buffers.Binary.BinaryPrimitives; namespace PKHeX.Core; /// /// Generation 4 object for Pokémon Battle Revolution saves. /// public sealed class SAV4BR : SaveFile { protected internal override string ShortSummary => $"{Version} #{SaveCount:0000}"; public override string Extension => string.Empty; public override PersonalTable4 Personal => PersonalTable.DP; public override ReadOnlySpan HeldItems => Legal.HeldItems_DP; private const int SAVE_COUNT = 4; public const int SIZE_HALF = 0x1C0000; public SAV4BR() : base(SaveUtil.SIZE_G4BR) { ClearBoxes(); } public SAV4BR(byte[] data) : base(data) { InitializeData(data); } private void InitializeData(ReadOnlySpan data) { Data = DecryptPBRSaveData(data); // Detect active save var first = ReadUInt32BigEndian(Data.AsSpan(0x00004C)); var second = ReadUInt32BigEndian(Data.AsSpan(0x1C004C)); SaveCount = Math.Max(second, first); if (second > first) { // swap halves byte[] tempData = new byte[SIZE_HALF]; Array.Copy(Data, 0, tempData, 0, SIZE_HALF); Array.Copy(Data, SIZE_HALF, Data, 0, SIZE_HALF); tempData.CopyTo(Data, SIZE_HALF); } var names = (string[]) SaveNames; for (int i = 0; i < SAVE_COUNT; i++) { var name = GetOTName(i); if (string.IsNullOrWhiteSpace(name)) name = $"Empty {i + 1}"; else if (_currentSlot == -1) _currentSlot = i; names[i] = name; } if (_currentSlot == -1) _currentSlot = 0; CurrentSlot = _currentSlot; } /// Amount of times the primary save has been saved private uint SaveCount; protected override byte[] GetFinalData() { SetChecksums(); return EncryptPBRSaveData(Data); } // Configuration protected override SAV4BR CloneInternal() => new(Write()); public readonly IReadOnlyList SaveNames = new string[SAVE_COUNT]; private int _currentSlot = -1; private const int SIZE_SLOT = 0x6FF00; public int CurrentSlot { get => _currentSlot; // 4 save slots, data reading depends on current slot set { _currentSlot = value; var ofs = SIZE_SLOT * _currentSlot; Box = ofs + 0x978; Party = ofs + 0x13A54; // first team slot after boxes BoxName = ofs + 0x58674; } } protected override int SIZE_STORED => PokeCrypto.SIZE_4STORED; protected override int SIZE_PARTY => PokeCrypto.SIZE_4STORED + 4; public override BK4 BlankPKM => new(); public override Type PKMType => typeof(BK4); public override ushort MaxMoveID => 467; public override ushort MaxSpeciesID => Legal.MaxSpeciesID_4; public override int MaxAbilityID => Legal.MaxAbilityID_4; public override int MaxItemID => Legal.MaxItemID_4_HGSS; public override int MaxBallID => Legal.MaxBallID_4; public override int MaxGameID => Legal.MaxGameID_4; public override int MaxEV => 255; public override int Generation => 4; public override EntityContext Context => EntityContext.Gen4; protected override int GiftCountMax => 1; public override int MaxStringLengthOT => 7; public override int MaxStringLengthNickname => 10; public override int MaxMoney => 999999; public override int Language => (int)LanguageID.English; // prevent KOR from inhabiting public override int BoxCount => 18; public override int PartyCount { get { int ctr = 0; for (int i = 0; i < 6; i++) { if (Data[GetPartyOffset(i) + 4] != 0) // sanity ctr++; } return ctr; } protected set { // Ignore, value is calculated } } // Checksums protected override void SetChecksums() { SetChecksum(Data, 0x0000000, 0x0000100, 0x000008); SetChecksum(Data, 0x0000000, SIZE_HALF, SIZE_HALF - 0x80); SetChecksum(Data, SIZE_HALF, 0x0000100, SIZE_HALF + 0x000008); SetChecksum(Data, SIZE_HALF, SIZE_HALF, SIZE_HALF + SIZE_HALF - 0x80); } public override bool ChecksumsValid => IsChecksumsValid(Data); public override string ChecksumInfo => $"Checksums valid: {ChecksumsValid}."; public static bool IsChecksumsValid(Span sav) { return VerifyChecksum(sav, 0x0000000, 0x0000100, 0x000008) && VerifyChecksum(sav, 0x0000000, SIZE_HALF, SIZE_HALF - 0x80) && VerifyChecksum(sav, SIZE_HALF, 0x0000100, SIZE_HALF + 0x000008) && VerifyChecksum(sav, SIZE_HALF, SIZE_HALF, SIZE_HALF + SIZE_HALF - 0x80); } // Trainer Info public override GameVersion Version { get => GameVersion.BATREV; protected set { } } private string GetOTName(int slot) { var ofs = 0x390 + (0x6FF00 * slot); var span = Data.AsSpan(ofs, 16); return GetString(span); } private void SetOTName(int slot, ReadOnlySpan name) { var ofs = 0x390 + (0x6FF00 * slot); var span = Data.AsSpan(ofs, 16); SetString(span, name, 7, StringConverterOption.ClearZero); } public string CurrentOT { get => GetOTName(_currentSlot); set => SetOTName(_currentSlot, value); } // Storage public override int GetPartyOffset(int slot) => Party + (SIZE_PARTY * slot); public override int GetBoxOffset(int box) => Box + (SIZE_STORED * box * 30); public override ushort TID16 { get => (ushort)((Data[(_currentSlot * SIZE_SLOT) + 0x12867] << 8) | Data[(_currentSlot * SIZE_SLOT) + 0x12860]); set { Data[(_currentSlot * SIZE_SLOT) + 0x12867] = (byte)(value >> 8); Data[(_currentSlot * SIZE_SLOT) + 0x12860] = (byte)(value & 0xFF); } } public override ushort SID16 { get => (ushort)((Data[(_currentSlot * SIZE_SLOT) + 0x12865] << 8) | Data[(_currentSlot * SIZE_SLOT) + 0x12866]); set { Data[(_currentSlot * SIZE_SLOT) + 0x12865] = (byte)(value >> 8); Data[(_currentSlot * SIZE_SLOT) + 0x12866] = (byte)(value & 0xFF); } } // Save file does not have Box Name / Wallpaper info private int BoxName = -1; private const int BoxNameLength = 0x28; private Span GetBoxNameSpan(int box) { int ofs = BoxName + (box * BoxNameLength); return Data.AsSpan(ofs, BoxNameLength); } public override string GetBoxName(int box) { if (BoxName < 0) return $"BOX {box + 1}"; var span = GetBoxNameSpan(box); if (ReadUInt16BigEndian(span) == 0) return $"BOX {box + 1}"; return GetString(span); } public override void SetBoxName(int box, ReadOnlySpan value) { if (BoxName < 0) return; var span = GetBoxNameSpan(box); if (ReadUInt16BigEndian(span) == 0) return; SetString(span, value, BoxNameLength / 2, StringConverterOption.ClearZero); } protected override BK4 GetPKM(byte[] data) { if (data.Length != SIZE_STORED) Array.Resize(ref data, SIZE_STORED); return BK4.ReadUnshuffle(data); } protected override byte[] DecryptPKM(byte[] data) => data; protected override void SetDex(PKM pk) { /* There's no PokéDex */ } protected override void SetPKM(PKM pk, bool isParty = false) { var pk4 = (BK4)pk; // Apply to this Save File DateTime Date = DateTime.Now; if (pk4.Trade(OT, ID32, Gender, Date.Day, Date.Month, Date.Year)) pk.RefreshChecksum(); } protected override void SetPartyValues(PKM pk, bool isParty) { if (pk is G4PKM g4) g4.Sanity = isParty ? (ushort)0xC000 : (ushort)0x4000; } public static byte[] DecryptPBRSaveData(ReadOnlySpan input) { byte[] output = new byte[input.Length]; Span keys = stackalloc ushort[4]; for (int offset = 0; offset < SaveUtil.SIZE_G4BR; offset += SIZE_HALF) { var inSlice = input.Slice(offset, SIZE_HALF); var outSlice = output.AsSpan(offset, SIZE_HALF); // First 8 bytes are the encryption keys for this chunk. var keySlice = inSlice[..(keys.Length * 2)]; GeniusCrypto.ReadKeys(keySlice, keys); // Copy over the keys to the result. keySlice.CopyTo(outSlice); // Decrypt the input, result stored in output. Range r = new(8, SIZE_HALF); GeniusCrypto.Decrypt(inSlice[r], outSlice[r], keys); } return output; } private static byte[] EncryptPBRSaveData(ReadOnlySpan input) { byte[] output = new byte[input.Length]; Span keys = stackalloc ushort[4]; for (int offset = 0; offset < SaveUtil.SIZE_G4BR; offset += SIZE_HALF) { var inSlice = input.Slice(offset, SIZE_HALF); var outSlice = output.AsSpan(offset, SIZE_HALF); // First 8 bytes are the encryption keys for this chunk. var keySlice = inSlice[..(keys.Length * 2)]; GeniusCrypto.ReadKeys(keySlice, keys); // Copy over the keys to the result. keySlice.CopyTo(outSlice); // Decrypt the input, result stored in output. Range r = new(8, SIZE_HALF); GeniusCrypto.Encrypt(inSlice[r], outSlice[r], keys); } return output; } public static bool VerifyChecksum(Span input, int offset, int len, int chkOffset) { // Read original checksum data, and clear it for recomputing Span originalChecksums = stackalloc uint[16]; var checkSpan = input.Slice(chkOffset, 4 * originalChecksums.Length); for (int i = 0; i < originalChecksums.Length; i++) { var chk = checkSpan.Slice(i * 4, 4); originalChecksums[i] = ReadUInt32BigEndian(chk); } checkSpan.Clear(); // Compute current checksum of the specified span Span checksums = stackalloc uint[16]; var span = input.Slice(offset, len); ComputeChecksums(span, checksums); // Restore original checksums WriteChecksums(checkSpan, originalChecksums); // Check if they match return checksums.SequenceEqual(originalChecksums); } private static void SetChecksum(Span input, int offset, int len, int chkOffset) { // Wipe Checksum region. var checkSpan = input.Slice(chkOffset, 4 * 16); checkSpan.Clear(); // Compute current checksum of the specified span Span checksums = stackalloc uint[16]; var span = input.Slice(offset, len); ComputeChecksums(span, checksums); WriteChecksums(checkSpan, checksums); } private static void WriteChecksums(Span span, Span checksums) { for (int i = 0; i < checksums.Length; i++) { var dest = span[(i * 4)..]; WriteUInt32BigEndian(dest, checksums[i]); } } private static void ComputeChecksums(Span span, Span checksums) { for (int i = 0; i < span.Length; i += 2) { uint value = ReadUInt16BigEndian(span[i..]); for (int c = 0; c < checksums.Length; c++) checksums[c] += ((value >> c) & 1); } } public override string GetString(ReadOnlySpan data) => StringConverter4GC.GetStringUnicode(data); public override int SetString(Span destBuffer, ReadOnlySpan value, int maxLength, StringConverterOption option) => StringConverter4GC.SetStringUnicode(value, destBuffer, maxLength, option); }