using Avalonia.Media; using LibHac.Common; using LibHac.Fs; using LibHac.Fs.Fsa; using LibHac.FsSystem; using LibHac.Ncm; using LibHac.Tools.Fs; using LibHac.Tools.FsSystem; using LibHac.Tools.FsSystem.NcaUtils; using Ryujinx.Ava.UI.Models; using Ryujinx.HLE.FileSystem; using SixLabors.ImageSharp; using SixLabors.ImageSharp.PixelFormats; using System; using System.Buffers.Binary; using System.Collections.Generic; using System.Collections.ObjectModel; using System.IO; using Color = Avalonia.Media.Color; namespace Ryujinx.Ava.UI.ViewModels { internal class UserFirmwareAvatarSelectorViewModel : BaseModel { private static readonly Dictionary _avatarStore = new(); private ObservableCollection _images; private Color _backgroundColor = Colors.White; private int _selectedIndex; public UserFirmwareAvatarSelectorViewModel() { _images = new ObservableCollection(); LoadImagesFromStore(); } public Color BackgroundColor { get => _backgroundColor; set { _backgroundColor = value; OnPropertyChanged(); ChangeImageBackground(); } } public ObservableCollection Images { get => _images; set { _images = value; OnPropertyChanged(); } } public int SelectedIndex { get => _selectedIndex; set { _selectedIndex = value; if (_selectedIndex == -1) { SelectedImage = null; } else { SelectedImage = _images[_selectedIndex].Data; } OnPropertyChanged(); } } public byte[] SelectedImage { get; private set; } private void LoadImagesFromStore() { Images.Clear(); foreach (var image in _avatarStore) { Images.Add(new ProfileImageModel(image.Key, image.Value)); } } private void ChangeImageBackground() { foreach (var image in Images) { image.BackgroundColor = new SolidColorBrush(BackgroundColor); } } public static void PreloadAvatars(ContentManager contentManager, VirtualFileSystem virtualFileSystem) { if (_avatarStore.Count > 0) { return; } string contentPath = contentManager.GetInstalledContentPath(0x010000000000080A, StorageId.BuiltInSystem, NcaContentType.Data); string avatarPath = virtualFileSystem.SwitchPathToSystemPath(contentPath); if (!string.IsNullOrWhiteSpace(avatarPath)) { using IStorage ncaFileStream = new LocalStorage(avatarPath, FileAccess.Read, FileMode.Open); Nca nca = new(virtualFileSystem.KeySet, ncaFileStream); IFileSystem romfs = nca.OpenFileSystem(NcaSectionType.Data, IntegrityCheckLevel.ErrorOnInvalid); foreach (DirectoryEntryEx item in romfs.EnumerateEntries()) { // TODO: Parse DatabaseInfo.bin and table.bin files for more accuracy. if (item.Type == DirectoryEntryType.File && item.FullPath.Contains("chara") && item.FullPath.Contains("szs")) { using var file = new UniqueRef(); romfs.OpenFile(ref file.Ref, ("/" + item.FullPath).ToU8Span(), OpenMode.Read).ThrowIfFailure(); using MemoryStream stream = new(); using MemoryStream streamPng = new(); file.Get.AsStream().CopyTo(stream); stream.Position = 0; Image avatarImage = Image.LoadPixelData(DecompressYaz0(stream), 256, 256); avatarImage.SaveAsPng(streamPng); _avatarStore.Add(item.FullPath, streamPng.ToArray()); } } } } private static byte[] DecompressYaz0(Stream stream) { using BinaryReader reader = new(stream); reader.ReadInt32(); // Magic uint decodedLength = BinaryPrimitives.ReverseEndianness(reader.ReadUInt32()); reader.ReadInt64(); // Padding byte[] input = new byte[stream.Length - stream.Position]; stream.Read(input, 0, input.Length); uint inputOffset = 0; byte[] output = new byte[decodedLength]; uint outputOffset = 0; ushort mask = 0; byte header = 0; while (outputOffset < decodedLength) { if ((mask >>= 1) == 0) { header = input[inputOffset++]; mask = 0x80; } if ((header & mask) != 0) { if (outputOffset == output.Length) { break; } output[outputOffset++] = input[inputOffset++]; } else { byte byte1 = input[inputOffset++]; byte byte2 = input[inputOffset++]; uint dist = (uint)((byte1 & 0xF) << 8) | byte2; uint position = outputOffset - (dist + 1); uint length = (uint)byte1 >> 4; if (length == 0) { length = (uint)input[inputOffset++] + 0x12; } else { length += 2; } uint gap = outputOffset - position; uint nonOverlappingLength = length; if (nonOverlappingLength > gap) { nonOverlappingLength = gap; } Buffer.BlockCopy(output, (int)position, output, (int)outputOffset, (int)nonOverlappingLength); outputOffset += nonOverlappingLength; position += nonOverlappingLength; length -= nonOverlappingLength; while (length-- > 0) { output[outputOffset++] = output[position++]; } } } return output; } } }