mirror of
https://github.com/wabbajack-tools/wabbajack.git
synced 2024-08-30 18:42:17 +00:00
bb9ef89dee
7Zip extracted archives now only extract the fewest files required. Audited the uses of .Wait Lazily init the VFS cleaning
427 lines
16 KiB
C#
427 lines
16 KiB
C#
using System;
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using System.Collections.Generic;
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using System.IO;
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using System.IO.Compression;
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using System.Linq;
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using System.Threading;
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using System.Threading.Tasks;
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using Alphaleonis.Win32.Filesystem;
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using Wabbajack.Common;
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using Wabbajack.Lib.Downloaders;
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using Wabbajack.VirtualFileSystem;
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using Directory = Alphaleonis.Win32.Filesystem.Directory;
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using File = Alphaleonis.Win32.Filesystem.File;
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using FileInfo = Alphaleonis.Win32.Filesystem.FileInfo;
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using Path = Alphaleonis.Win32.Filesystem.Path;
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namespace Wabbajack.Lib
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{
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public abstract class AInstaller : ABatchProcessor
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{
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public bool IgnoreMissingFiles { get; internal set; } = false;
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public AbsolutePath OutputFolder { get; private set; }
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public AbsolutePath DownloadFolder { get; private set; }
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public abstract ModManager ModManager { get; }
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public AbsolutePath ModListArchive { get; private set; }
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public ModList ModList { get; private set; }
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public Dictionary<Hash, AbsolutePath> HashedArchives { get; } = new Dictionary<Hash, AbsolutePath>();
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public SystemParameters? SystemParameters { get; set; }
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public AInstaller(AbsolutePath archive, ModList modList, AbsolutePath outputFolder, AbsolutePath downloadFolder, SystemParameters? parameters, int steps)
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: base(steps)
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{
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ModList = modList;
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ModListArchive = archive;
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OutputFolder = outputFolder;
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DownloadFolder = downloadFolder;
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SystemParameters = parameters;
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}
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public void Info(string msg)
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{
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Utils.Log(msg);
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}
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public void Status(string msg)
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{
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Queue.Report(msg, Percent.Zero);
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}
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public void Error(string msg)
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{
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Utils.Log(msg);
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throw new Exception(msg);
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}
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public async Task<byte[]> LoadBytesFromPath(RelativePath path)
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{
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await using var fs = new FileStream((string)ModListArchive, FileMode.Open, FileAccess.Read, FileShare.Read);
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using var ar = new ZipArchive(fs, ZipArchiveMode.Read);
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await using var ms = new MemoryStream();
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var entry = ar.GetEntry((string)path);
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await using (var e = entry.Open())
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{
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await e.CopyToAsync(ms);
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}
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return ms.ToArray();
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}
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public static ModList LoadFromFile(AbsolutePath path)
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{
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using var fs = new FileStream((string)path, FileMode.Open, FileAccess.Read, FileShare.Read);
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using var ar = new ZipArchive(fs, ZipArchiveMode.Read);
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var entry = ar.GetEntry("modlist");
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if (entry == null)
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{
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entry = ar.GetEntry("modlist.json");
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using (var e = entry.Open())
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return e.FromJson<ModList>();
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}
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using (var e = entry.Open())
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return e.FromJson<ModList>();
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}
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/// <summary>
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/// We don't want to make the installer index all the archives, that's just a waste of time, so instead
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/// we'll pass just enough information to VFS to let it know about the files we have.
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/// </summary>
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protected async Task PrimeVFS()
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{
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VFS.AddKnown(ModList.Directives.OfType<FromArchive>().Select(d => d.ArchiveHashPath), HashedArchives);
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await VFS.BackfillMissing();
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}
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public void BuildFolderStructure()
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{
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Info("Building Folder Structure");
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ModList.Directives
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.Select(d => OutputFolder.Combine(d.To.Parent))
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.Distinct()
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.Do(f => f.CreateDirectory());
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}
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public async Task InstallArchives()
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{
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Info("Installing Archives");
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Info("Grouping Install Files");
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var grouped = ModList.Directives
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.OfType<FromArchive>()
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.GroupBy(e => e.ArchiveHashPath.BaseHash)
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.ToDictionary(k => k.Key);
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var archives = ModList.Archives
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.Select(a => new { Archive = a, AbsolutePath = HashedArchives.GetOrDefault(a.Hash) })
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.Where(a => a.AbsolutePath != null)
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.ToList();
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Info("Installing Archives");
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await archives.PMap(Queue, UpdateTracker,a => InstallArchive(Queue, a.Archive, a.AbsolutePath, grouped[a.Archive.Hash]));
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}
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private async Task InstallArchive(WorkQueue queue, Archive archive, AbsolutePath absolutePath, IGrouping<Hash, FromArchive> grouping)
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{
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Status($"Extracting {archive.Name}");
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List<FromArchive> vFiles = grouping.Select(g =>
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{
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var file = VFS.Index.FileForArchiveHashPath(g.ArchiveHashPath);
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g.FromFile = file;
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return g;
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}).ToList();
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var onFinish = await VFS.Stage(vFiles.Select(f => f.FromFile).Distinct());
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Status($"Copying files for {archive.Name}");
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async ValueTask CopyFile(AbsolutePath from, AbsolutePath to, bool useMove)
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{
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if (to.Exists)
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{
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if (to.IsReadOnly)
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to.IsReadOnly = false;
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to.Delete();
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}
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if (from.Exists)
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{
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if (from.IsReadOnly)
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from.IsReadOnly = false;
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}
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if (useMove)
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from.MoveTo(to);
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else
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from.CopyTo(to);
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// If we don't do this, the file will use the last-modified date of the file when it was compressed
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// into an archive, which isn't really what we want in the case of files installed archives
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to.LastModified = DateTime.Now;
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}
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await vFiles.GroupBy(f => f.FromFile)
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.PDoIndexed(queue, async (idx, group) =>
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{
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Utils.Status("Installing files", Percent.FactoryPutInRange(idx, vFiles.Count));
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if (group.Key == null)
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{
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throw new ArgumentNullException("FromFile was null");
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}
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var firstDest = OutputFolder.Combine(group.First().To);
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await group.Key.StagedFile.MoveTo(firstDest);
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foreach (var copy in group.Skip(1))
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{
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await CopyFile(firstDest, OutputFolder.Combine(copy.To), false);
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}
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});
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Status("Unstaging files");
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await onFinish();
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// Now patch all the files from this archive
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await grouping.OfType<PatchedFromArchive>()
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.PMap(queue, async toPatch =>
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{
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await using var patchStream = new MemoryStream();
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Status($"Patching {toPatch.To.FileName}");
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// Read in the patch data
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byte[] patchData = await LoadBytesFromPath(toPatch.PatchID);
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var toFile = OutputFolder.Combine(toPatch.To);
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var oldData = new MemoryStream(await toFile.ReadAllBytesAsync());
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// Remove the file we're about to patch
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toFile.Delete();
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// Patch it
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await using (var outStream = toFile.Create())
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{
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Utils.ApplyPatch(oldData, () => new MemoryStream(patchData), outStream);
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}
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Status($"Verifying Patch {toPatch.To.FileName}");
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var resultSha = await toFile.FileHashAsync();
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if (resultSha != toPatch.Hash)
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throw new InvalidDataException($"Invalid Hash for {toPatch.To} after patching");
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});
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}
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public async Task DownloadArchives()
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{
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var missing = ModList.Archives.Where(a => !HashedArchives.ContainsKey(a.Hash)).ToList();
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Info($"Missing {missing.Count} archives");
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Info("Getting Nexus API Key, if a browser appears, please accept");
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var dispatchers = missing.Select(m => m.State.GetDownloader()).Distinct();
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await Task.WhenAll(dispatchers.Select(d => d.Prepare()));
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await DownloadMissingArchives(missing);
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}
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public async Task DownloadMissingArchives(List<Archive> missing, bool download = true)
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{
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if (download)
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{
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foreach (var a in missing.Where(a => a.State.GetType() == typeof(ManualDownloader.State)))
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{
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var outputPath = DownloadFolder.Combine(a.Name);
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await a.State.Download(a, outputPath);
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}
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}
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await missing.Where(a => a.State.GetType() != typeof(ManualDownloader.State))
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.PMap(Queue, async archive =>
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{
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Info($"Downloading {archive.Name}");
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var outputPath = DownloadFolder.Combine(archive.Name);
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if (download)
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{
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if (outputPath.Exists)
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{
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var origName = Path.GetFileNameWithoutExtension(archive.Name);
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var ext = Path.GetExtension(archive.Name);
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var uniqueKey = archive.State.PrimaryKeyString.StringSha256Hex();
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outputPath = DownloadFolder.Combine(origName + "_" + uniqueKey + "_" + ext);
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outputPath.Delete();
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}
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}
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return await DownloadArchive(archive, download, outputPath);
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});
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}
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public async Task<bool> DownloadArchive(Archive archive, bool download, AbsolutePath? destination = null)
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{
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try
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{
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if (destination == null)
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destination = DownloadFolder.Combine(archive.Name);
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await DownloadDispatcher.DownloadWithPossibleUpgrade(archive, destination.Value);
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}
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catch (Exception ex)
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{
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Utils.Log($"Download error for file {archive.Name}");
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Utils.Log(ex.ToString());
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return false;
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}
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return false;
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}
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public async Task HashArchives()
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{
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var hashResults = await DownloadFolder.EnumerateFiles()
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.Where(e => e.Extension != Consts.HashFileExtension)
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.PMap(Queue, async e => (await e.FileHashCachedAsync(), e));
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HashedArchives.SetTo(hashResults
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.OrderByDescending(e => e.Item2.LastModified)
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.GroupBy(e => e.Item1)
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.Select(e => e.First())
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.Select(e => new KeyValuePair<Hash, AbsolutePath>(e.Item1, e.Item2)));
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}
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/// <summary>
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/// Disabled
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/// </summary>
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public void ValidateFreeSpace()
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{
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return;
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// Disabled, caused more problems than it was worth.
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/*
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DiskSpaceInfo DriveInfo(string path)
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{
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return Volume.GetDiskFreeSpace(Volume.GetUniqueVolumeNameForPath(path));
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}
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var paths = new[] {(OutputFolder, ModList.InstallSize),
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(DownloadFolder, ModList.DownloadSize),
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(Directory.GetCurrentDirectory(), ModList.ScratchSpaceSize)};
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paths.GroupBy(f => DriveInfo(f.Item1).DriveName)
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.Do(g =>
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{
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var required = g.Sum(i => i.Item2);
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var contains = g.Sum(folder =>
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Directory.EnumerateFiles(folder.Item1, "*", DirectoryEnumerationOptions.Recursive)
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.Sum(file => new FileInfo(file).Length));
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var available = DriveInfo(g.Key).FreeBytesAvailable;
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if (required - contains > available)
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throw new NotEnoughDiskSpaceException(
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$"This ModList requires {required.ToFileSizeString()} on {g.Key} but only {available.ToFileSizeString()} is available.");
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});
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*/
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}
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/// <summary>
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/// The user may already have some files in the OutputFolder. If so we can go through these and
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/// figure out which need to be updated, deleted, or left alone
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/// </summary>
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public async Task OptimizeModlist()
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{
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Utils.Log("Optimizing ModList directives");
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// Clone the ModList so our changes don't modify the original data
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ModList = ModList.Clone();
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var indexed = ModList.Directives.ToDictionary(d => d.To);
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UpdateTracker.NextStep("Looking for files to delete");
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await OutputFolder.EnumerateFiles()
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.PMap(Queue, UpdateTracker, f =>
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{
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var relativeTo = f.RelativeTo(OutputFolder);
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Utils.Status($"Checking if ModList file {relativeTo}");
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if (indexed.ContainsKey(relativeTo) || f.InFolder(DownloadFolder))
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return;
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Utils.Log($"Deleting {relativeTo} it's not part of this ModList");
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f.Delete();
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});
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Utils.Log("Cleaning empty folders");
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var expectedFolders = indexed.Keys
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.Select(f => f.RelativeTo(OutputFolder))
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// We ignore the last part of the path, so we need a dummy file name
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.Append(DownloadFolder.Combine("_"))
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.Where(f => f.InFolder(OutputFolder))
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.SelectMany(path =>
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{
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// Get all the folders and all the folder parents
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// so for foo\bar\baz\qux.txt this emits ["foo", "foo\\bar", "foo\\bar\\baz"]
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var split = ((string)path.RelativeTo(OutputFolder)).Split('\\');
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return Enumerable.Range(1, split.Length - 1).Select(t => string.Join("\\", split.Take(t)));
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})
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.Distinct()
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.Select(p => OutputFolder.Combine(p))
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.ToHashSet();
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try
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{
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var toDelete = OutputFolder.EnumerateDirectories(true)
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.Where(p => !expectedFolders.Contains(p))
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.OrderByDescending(p => ((string)p).Length)
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.ToList();
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foreach (var dir in toDelete)
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{
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await dir.DeleteDirectory();
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}
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}
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catch (Exception)
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{
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// ignored because it's not worth throwing a fit over
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Utils.Log("Error when trying to clean empty folders. This doesn't really matter.");
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}
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UpdateTracker.NextStep("Looking for unmodified files");
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(await indexed.Values.PMap(Queue, UpdateTracker, async d =>
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{
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// Bit backwards, but we want to return null for
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// all files we *want* installed. We return the files
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// to remove from the install list.
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Status($"Optimizing {d.To}");
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var path = OutputFolder.Combine(d.To);
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if (!path.Exists) return null;
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if (path.Size != d.Size) return null;
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return await path.FileHashAsync() == d.Hash ? d : null;
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}))
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.Do(d =>
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{
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if (d != null)
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{
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indexed.Remove(d.To);
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}
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});
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UpdateTracker.NextStep("Updating ModList");
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Utils.Log($"Optimized {ModList.Directives.Count} directives to {indexed.Count} required");
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var requiredArchives = indexed.Values.OfType<FromArchive>()
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.GroupBy(d => d.ArchiveHashPath.BaseHash)
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.Select(d => d.Key)
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.ToHashSet();
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ModList.Archives = ModList.Archives.Where(a => requiredArchives.Contains(a.Hash)).ToList();
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ModList.Directives = indexed.Values.ToList();
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}
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}
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public class NotEnoughDiskSpaceException : Exception
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{
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public NotEnoughDiskSpaceException(string s) : base(s)
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{
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}
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}
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}
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