using System.Diagnostics; using System.Text.RegularExpressions; using NLog; using StabilityMatrix.Core.Attributes; using StabilityMatrix.Core.Helper; using StabilityMatrix.Core.Helper.Cache; using StabilityMatrix.Core.Helper.HardwareInfo; using StabilityMatrix.Core.Models.FileInterfaces; using StabilityMatrix.Core.Models.Progress; using StabilityMatrix.Core.Processes; using StabilityMatrix.Core.Python; using StabilityMatrix.Core.Services; using YamlDotNet.RepresentationModel; using YamlDotNet.Serialization; using YamlDotNet.Serialization.NamingConventions; namespace StabilityMatrix.Core.Models.Packages; [Singleton(typeof(BasePackage))] public class ComfyUI( IGithubApiCache githubApi, ISettingsManager settingsManager, IDownloadService downloadService, IPrerequisiteHelper prerequisiteHelper ) : BaseGitPackage(githubApi, settingsManager, downloadService, prerequisiteHelper) { private static readonly Logger Logger = LogManager.GetCurrentClassLogger(); public override string Name => "ComfyUI"; public override string DisplayName { get; set; } = "ComfyUI"; public override string Author => "comfyanonymous"; public override string LicenseType => "GPL-3.0"; public override string LicenseUrl => "https://github.com/comfyanonymous/ComfyUI/blob/master/LICENSE"; public override string Blurb => "A powerful and modular stable diffusion GUI and backend"; public override string LaunchCommand => "main.py"; public override Uri PreviewImageUri => new("https://github.com/comfyanonymous/ComfyUI/raw/master/comfyui_screenshot.png"); public override bool ShouldIgnoreReleases => true; public override bool IsInferenceCompatible => true; public override string OutputFolderName => "output"; public override PackageDifficulty InstallerSortOrder => PackageDifficulty.Advanced; public override SharedFolderMethod RecommendedSharedFolderMethod => SharedFolderMethod.Configuration; // https://github.com/comfyanonymous/ComfyUI/blob/master/folder_paths.py#L11 public override Dictionary> SharedFolders => new() { [SharedFolderType.StableDiffusion] = new[] { "models/checkpoints" }, [SharedFolderType.Diffusers] = new[] { "models/diffusers" }, [SharedFolderType.Lora] = new[] { "models/loras" }, [SharedFolderType.CLIP] = new[] { "models/clip" }, [SharedFolderType.TextualInversion] = new[] { "models/embeddings" }, [SharedFolderType.VAE] = new[] { "models/vae" }, [SharedFolderType.ApproxVAE] = new[] { "models/vae_approx" }, [SharedFolderType.ControlNet] = new[] { "models/controlnet" }, [SharedFolderType.GLIGEN] = new[] { "models/gligen" }, [SharedFolderType.ESRGAN] = new[] { "models/upscale_models" }, [SharedFolderType.Hypernetwork] = new[] { "models/hypernetworks" }, [SharedFolderType.IpAdapter] = new[] { "models/ipadapter" }, [SharedFolderType.T2IAdapter] = new[] { "models/controlnet" }, }; public override Dictionary>? SharedOutputFolders => new() { [SharedOutputType.Text2Img] = new[] { "output" } }; public override List LaunchOptions => [ new LaunchOptionDefinition { Name = "Host", Type = LaunchOptionType.String, DefaultValue = "127.0.0.1", Options = ["--listen"] }, new LaunchOptionDefinition { Name = "Port", Type = LaunchOptionType.String, DefaultValue = "8188", Options = ["--port"] }, new LaunchOptionDefinition { Name = "VRAM", Type = LaunchOptionType.Bool, InitialValue = HardwareHelper.IterGpuInfo().Select(gpu => gpu.MemoryLevel).Max() switch { MemoryLevel.Low => "--lowvram", MemoryLevel.Medium => "--normalvram", _ => null }, Options = ["--highvram", "--normalvram", "--lowvram", "--novram"] }, new LaunchOptionDefinition { Name = "Preview Method", Type = LaunchOptionType.Bool, InitialValue = "--preview-method auto", Options = ["--preview-method auto", "--preview-method latent2rgb", "--preview-method taesd"] }, new LaunchOptionDefinition { Name = "Enable DirectML", Type = LaunchOptionType.Bool, InitialValue = HardwareHelper.PreferDirectML(), Options = ["--directml"] }, new LaunchOptionDefinition { Name = "Use CPU only", Type = LaunchOptionType.Bool, InitialValue = !HardwareHelper.HasNvidiaGpu() && !HardwareHelper.HasAmdGpu(), Options = ["--cpu"] }, new LaunchOptionDefinition { Name = "Disable Xformers", Type = LaunchOptionType.Bool, InitialValue = !HardwareHelper.HasNvidiaGpu(), Options = ["--disable-xformers"] }, new LaunchOptionDefinition { Name = "Disable upcasting of attention", Type = LaunchOptionType.Bool, Options = ["--dont-upcast-attention"] }, new LaunchOptionDefinition { Name = "Auto-Launch", Type = LaunchOptionType.Bool, Options = ["--auto-launch"] }, LaunchOptionDefinition.Extras ]; public override string MainBranch => "master"; public override IEnumerable AvailableTorchVersions => new[] { TorchVersion.Cpu, TorchVersion.Cuda, TorchVersion.DirectMl, TorchVersion.Rocm, TorchVersion.Mps }; public override async Task InstallPackage( string installLocation, TorchVersion torchVersion, SharedFolderMethod selectedSharedFolderMethod, DownloadPackageVersionOptions versionOptions, IProgress? progress = null, Action? onConsoleOutput = null ) { progress?.Report(new ProgressReport(-1, "Setting up venv", isIndeterminate: true)); // Setup venv await using var venvRunner = new PyVenvRunner(Path.Combine(installLocation, "venv")); venvRunner.WorkingDirectory = installLocation; await venvRunner.Setup(true, onConsoleOutput).ConfigureAwait(false); // Install torch / xformers based on gpu info switch (torchVersion) { case TorchVersion.Cpu: await InstallCpuTorch(venvRunner, progress, onConsoleOutput).ConfigureAwait(false); break; case TorchVersion.Cuda: await venvRunner .PipInstall( new PipInstallArgs() .WithTorch("~=2.1.0") .WithTorchVision() .WithXFormers("==0.0.22.post4") .AddArg("--upgrade") .WithTorchExtraIndex("cu121"), onConsoleOutput ) .ConfigureAwait(false); break; case TorchVersion.DirectMl: await venvRunner .PipInstall(new PipInstallArgs().WithTorchDirectML(), onConsoleOutput) .ConfigureAwait(false); break; case TorchVersion.Rocm: await InstallRocmTorch(venvRunner, progress, onConsoleOutput).ConfigureAwait(false); break; case TorchVersion.Mps: await venvRunner .PipInstall( new PipInstallArgs() .AddArg("--pre") .WithTorch() .WithTorchVision() .WithTorchExtraIndex("nightly/cpu"), onConsoleOutput ) .ConfigureAwait(false); break; default: throw new ArgumentOutOfRangeException(nameof(torchVersion), torchVersion, null); } // Install requirements file (skip torch) progress?.Report(new ProgressReport(-1, "Installing Package Requirements", isIndeterminate: true)); var requirementsFile = new FilePath(installLocation, "requirements.txt"); await venvRunner .PipInstallFromRequirements(requirementsFile, onConsoleOutput, excludes: "torch") .ConfigureAwait(false); progress?.Report(new ProgressReport(1, "Installing Package Requirements", isIndeterminate: false)); } private async Task AutoDetectAndInstallTorch(PyVenvRunner venvRunner, IProgress? progress = null) { var gpus = HardwareHelper.IterGpuInfo().ToList(); if (gpus.Any(g => g.IsNvidia)) { await InstallCudaTorch(venvRunner, progress).ConfigureAwait(false); } else if (HardwareHelper.PreferRocm()) { await InstallRocmTorch(venvRunner, progress).ConfigureAwait(false); } else if (HardwareHelper.PreferDirectML()) { await InstallDirectMlTorch(venvRunner, progress).ConfigureAwait(false); } else { await InstallCpuTorch(venvRunner, progress).ConfigureAwait(false); } } public override async Task RunPackage( string installedPackagePath, string command, string arguments, Action? onConsoleOutput ) { await SetupVenv(installedPackagePath).ConfigureAwait(false); var args = $"\"{Path.Combine(installedPackagePath, command)}\" {arguments}"; VenvRunner?.RunDetached(args.TrimEnd(), HandleConsoleOutput, HandleExit); return; void HandleExit(int i) { Debug.WriteLine($"Venv process exited with code {i}"); OnExit(i); } void HandleConsoleOutput(ProcessOutput s) { onConsoleOutput?.Invoke(s); if (!s.Text.Contains("To see the GUI go to", StringComparison.OrdinalIgnoreCase)) return; var regex = new Regex(@"(https?:\/\/)([^:\s]+):(\d+)"); var match = regex.Match(s.Text); if (match.Success) { WebUrl = match.Value; } OnStartupComplete(WebUrl); } } public override Task SetupModelFolders(DirectoryPath installDirectory, SharedFolderMethod sharedFolderMethod) { switch (sharedFolderMethod) { case SharedFolderMethod.None: return Task.CompletedTask; case SharedFolderMethod.Symlink: return base.SetupModelFolders(installDirectory, sharedFolderMethod); } var extraPathsYamlPath = installDirectory + "extra_model_paths.yaml"; var modelsDir = SettingsManager.ModelsDirectory; var exists = File.Exists(extraPathsYamlPath); if (!exists) { Logger.Info("Creating extra_model_paths.yaml"); File.WriteAllText(extraPathsYamlPath, string.Empty); } var yaml = File.ReadAllText(extraPathsYamlPath); using var sr = new StringReader(yaml); var yamlStream = new YamlStream(); yamlStream.Load(sr); if (!yamlStream.Documents.Any()) { yamlStream.Documents.Add(new YamlDocument(new YamlMappingNode())); } var root = yamlStream.Documents[0].RootNode; if (root is not YamlMappingNode mappingNode) { throw new Exception("Invalid extra_model_paths.yaml"); } // check if we have a child called "stability_matrix" var stabilityMatrixNode = mappingNode.Children.FirstOrDefault(c => c.Key.ToString() == "stability_matrix"); if (stabilityMatrixNode.Key != null) { if (stabilityMatrixNode.Value is not YamlMappingNode nodeValue) return Task.CompletedTask; nodeValue.Children["checkpoints"] = Path.Combine(modelsDir, "StableDiffusion"); nodeValue.Children["vae"] = Path.Combine(modelsDir, "VAE"); nodeValue.Children["loras"] = $"{Path.Combine(modelsDir, "Lora")}\n" + $"{Path.Combine(modelsDir, "LyCORIS")}"; nodeValue.Children["upscale_models"] = $"{Path.Combine(modelsDir, "ESRGAN")}\n" + $"{Path.Combine(modelsDir, "RealESRGAN")}\n" + $"{Path.Combine(modelsDir, "SwinIR")}"; nodeValue.Children["embeddings"] = Path.Combine(modelsDir, "TextualInversion"); nodeValue.Children["hypernetworks"] = Path.Combine(modelsDir, "Hypernetwork"); nodeValue.Children["controlnet"] = Path.Combine(modelsDir, "ControlNet"); nodeValue.Children["clip"] = Path.Combine(modelsDir, "CLIP"); nodeValue.Children["diffusers"] = Path.Combine(modelsDir, "Diffusers"); nodeValue.Children["gligen"] = Path.Combine(modelsDir, "GLIGEN"); nodeValue.Children["vae_approx"] = Path.Combine(modelsDir, "ApproxVAE"); } else { stabilityMatrixNode = new KeyValuePair( new YamlScalarNode("stability_matrix"), new YamlMappingNode { { "checkpoints", Path.Combine(modelsDir, "StableDiffusion") }, { "vae", Path.Combine(modelsDir, "VAE") }, { "loras", $"{Path.Combine(modelsDir, "Lora")}\n{Path.Combine(modelsDir, "LyCORIS")}" }, { "upscale_models", $"{Path.Combine(modelsDir, "ESRGAN")}\n{Path.Combine(modelsDir, "RealESRGAN")}\n{Path.Combine(modelsDir, "SwinIR")}" }, { "embeddings", Path.Combine(modelsDir, "TextualInversion") }, { "hypernetworks", Path.Combine(modelsDir, "Hypernetwork") }, { "controlnet", Path.Combine(modelsDir, "ControlNet") }, { "clip", Path.Combine(modelsDir, "CLIP") }, { "diffusers", Path.Combine(modelsDir, "Diffusers") }, { "gligen", Path.Combine(modelsDir, "GLIGEN") }, { "vae_approx", Path.Combine(modelsDir, "ApproxVAE") } } ); } var newRootNode = new YamlMappingNode(); foreach (var child in mappingNode.Children.Where(c => c.Key.ToString() != "stability_matrix")) { newRootNode.Children.Add(child); } newRootNode.Children.Add(stabilityMatrixNode); var serializer = new SerializerBuilder().WithNamingConvention(UnderscoredNamingConvention.Instance).Build(); var yamlData = serializer.Serialize(newRootNode); File.WriteAllText(extraPathsYamlPath, yamlData); return Task.CompletedTask; } public override Task UpdateModelFolders(DirectoryPath installDirectory, SharedFolderMethod sharedFolderMethod) => sharedFolderMethod switch { SharedFolderMethod.Symlink => base.UpdateModelFolders(installDirectory, sharedFolderMethod), SharedFolderMethod.Configuration => SetupModelFolders(installDirectory, sharedFolderMethod), SharedFolderMethod.None => Task.CompletedTask, _ => Task.CompletedTask }; public override Task RemoveModelFolderLinks(DirectoryPath installDirectory, SharedFolderMethod sharedFolderMethod) { return sharedFolderMethod switch { SharedFolderMethod.Configuration => RemoveConfigSection(installDirectory), SharedFolderMethod.None => Task.CompletedTask, SharedFolderMethod.Symlink => base.RemoveModelFolderLinks(installDirectory, sharedFolderMethod), _ => Task.CompletedTask }; } private Task RemoveConfigSection(string installDirectory) { var extraPathsYamlPath = Path.Combine(installDirectory, "extra_model_paths.yaml"); var exists = File.Exists(extraPathsYamlPath); if (!exists) { return Task.CompletedTask; } var yaml = File.ReadAllText(extraPathsYamlPath); using var sr = new StringReader(yaml); var yamlStream = new YamlStream(); yamlStream.Load(sr); if (!yamlStream.Documents.Any()) { return Task.CompletedTask; } var root = yamlStream.Documents[0].RootNode; if (root is not YamlMappingNode mappingNode) { return Task.CompletedTask; } mappingNode.Children.Remove("stability_matrix"); var serializer = new SerializerBuilder().WithNamingConvention(UnderscoredNamingConvention.Instance).Build(); var yamlData = serializer.Serialize(mappingNode); File.WriteAllText(extraPathsYamlPath, yamlData); return Task.CompletedTask; } private async Task InstallRocmTorch( PyVenvRunner venvRunner, IProgress? progress = null, Action? onConsoleOutput = null ) { progress?.Report(new ProgressReport(-1f, "Installing PyTorch for ROCm", isIndeterminate: true)); await venvRunner.PipInstall("--upgrade pip wheel", onConsoleOutput).ConfigureAwait(false); await venvRunner .PipInstall( new PipInstallArgs().WithTorch("==2.0.1").WithTorchVision().WithTorchExtraIndex("rocm5.6"), onConsoleOutput ) .ConfigureAwait(false); } }