using System.IO; using System.Linq; using System.Text; using LibHac; using static hactoolnet.Print; namespace hactoolnet { internal static class ProcessNca { public static void Process(Context ctx) { using (var file = new FileStream(ctx.Options.InFile, FileMode.Open, FileAccess.Read)) { var nca = new Nca(ctx.Keyset, file, false); nca.ValidateMasterHashes(); if (ctx.Options.BaseNca != null) { var baseFile = new FileStream(ctx.Options.BaseNca, FileMode.Open, FileAccess.Read); var baseNca = new Nca(ctx.Keyset, baseFile, false); nca.SetBaseNca(baseNca); } for (int i = 0; i < 3; i++) { if (ctx.Options.SectionOut[i] != null) { nca.ExportSection(i, ctx.Options.SectionOut[i], ctx.Options.Raw, ctx.Options.IntegrityLevel, ctx.Logger); } if (ctx.Options.SectionOutDir[i] != null) { nca.ExtractSection(i, ctx.Options.SectionOutDir[i], ctx.Options.IntegrityLevel, ctx.Logger); } if (ctx.Options.Validate && nca.Sections[i] != null) { nca.VerifySection(i, ctx.Logger); } } if (ctx.Options.ListRomFs && nca.Sections[1] != null) { var romfs = new Romfs(nca.OpenSection(1, false, ctx.Options.IntegrityLevel)); foreach (RomfsFile romfsFile in romfs.Files) { ctx.Logger.LogMessage(romfsFile.FullPath); } } if (ctx.Options.RomfsOutDir != null || ctx.Options.RomfsOut != null) { NcaSection section = nca.Sections.FirstOrDefault(x => x?.Type == SectionType.Romfs || x?.Type == SectionType.Bktr); if (section == null) { ctx.Logger.LogMessage("NCA has no RomFS section"); return; } if (section.Type == SectionType.Bktr && ctx.Options.BaseNca == null) { ctx.Logger.LogMessage("Cannot save BKTR section without base RomFS"); return; } if (ctx.Options.RomfsOut != null) { nca.ExportSection(section.SectionNum, ctx.Options.RomfsOut, ctx.Options.Raw, ctx.Options.IntegrityLevel, ctx.Logger); } if (ctx.Options.RomfsOutDir != null) { var romfs = new Romfs(nca.OpenSection(section.SectionNum, false, ctx.Options.IntegrityLevel)); romfs.Extract(ctx.Options.RomfsOutDir, ctx.Logger); } } if (ctx.Options.ExefsOutDir != null || ctx.Options.ExefsOut != null) { NcaSection section = nca.Sections.FirstOrDefault(x => x?.IsExefs == true); if (section == null) { ctx.Logger.LogMessage("Could not find an ExeFS section"); return; } if (ctx.Options.ExefsOut != null) { nca.ExportSection(section.SectionNum, ctx.Options.ExefsOut, ctx.Options.Raw, ctx.Options.IntegrityLevel, ctx.Logger); } if (ctx.Options.ExefsOutDir != null) { nca.ExtractSection(section.SectionNum, ctx.Options.ExefsOutDir, ctx.Options.IntegrityLevel, ctx.Logger); } } ctx.Logger.LogMessage(nca.Print()); } } private static string Print(this Nca nca) { int colLen = 36; var sb = new StringBuilder(); sb.AppendLine(); sb.AppendLine("NCA:"); PrintItem(sb, colLen, "Magic:", nca.Header.Magic); PrintItem(sb, colLen, "Fixed-Key Signature:", nca.Header.Signature1); PrintItem(sb, colLen, "NPDM Signature:", nca.Header.Signature2); PrintItem(sb, colLen, "Content Size:", $"0x{nca.Header.NcaSize:x12}"); PrintItem(sb, colLen, "TitleID:", $"{nca.Header.TitleId:X16}"); PrintItem(sb, colLen, "SDK Version:", nca.Header.SdkVersion); PrintItem(sb, colLen, "Distribution type:", nca.Header.Distribution); PrintItem(sb, colLen, "Content Type:", nca.Header.ContentType); PrintItem(sb, colLen, "Master Key Revision:", $"{nca.CryptoType} ({Util.GetKeyRevisionSummary(nca.CryptoType)})"); PrintItem(sb, colLen, "Encryption Type:", $"{(nca.HasRightsId ? "Titlekey crypto" : "Standard crypto")}"); if (nca.HasRightsId) { PrintItem(sb, colLen, "Rights ID:", nca.Header.RightsId); } else { PrintItem(sb, colLen, "Key Area Encryption Key:", nca.Header.KaekInd); sb.AppendLine("Key Area (Encrypted):"); for (int i = 0; i < 4; i++) { PrintItem(sb, colLen, $" Key {i} (Encrypted):", nca.Header.EncryptedKeys[i]); } sb.AppendLine("Key Area (Decrypted):"); for (int i = 0; i < 4; i++) { PrintItem(sb, colLen, $" Key {i} (Decrypted):", nca.DecryptedKeys[i]); } } PrintSections(); return sb.ToString(); void PrintSections() { sb.AppendLine("Sections:"); for (int i = 0; i < 4; i++) { NcaSection sect = nca.Sections[i]; if (sect == null) continue; sb.AppendLine($" Section {i}:"); PrintItem(sb, colLen, " Offset:", $"0x{sect.Offset:x12}"); PrintItem(sb, colLen, " Size:", $"0x{sect.Size:x12}"); PrintItem(sb, colLen, " Partition Type:", sect.IsExefs ? "ExeFS" : sect.Type.ToString()); PrintItem(sb, colLen, " Section CTR:", sect.Header.Ctr); switch (sect.Type) { case SectionType.Pfs0: PrintPfs0(sect); break; case SectionType.Romfs: PrintRomfs(sect); break; case SectionType.Bktr: break; default: sb.AppendLine(" Unknown/invalid superblock!"); break; } } } void PrintPfs0(NcaSection sect) { Sha256Info hashInfo = sect.Header.Sha256Info; PrintItem(sb, colLen, $" Superblock Hash{sect.MasterHashValidity.GetValidityString()}:", hashInfo.MasterHash); // todo sb.AppendLine($" Hash Table{sect.Pfs0.Validity.GetValidityString()}:"); sb.AppendLine($" Hash Table:"); PrintItem(sb, colLen, " Offset:", $"0x{hashInfo.HashTableOffset:x12}"); PrintItem(sb, colLen, " Size:", $"0x{hashInfo.HashTableSize:x12}"); PrintItem(sb, colLen, " Block Size:", $"0x{hashInfo.BlockSize:x}"); PrintItem(sb, colLen, " PFS0 Offset:", $"0x{hashInfo.DataOffset:x12}"); PrintItem(sb, colLen, " PFS0 Size:", $"0x{hashInfo.DataSize:x12}"); } void PrintRomfs(NcaSection sect) { IvfcHeader ivfcInfo = sect.Header.IvfcInfo; PrintItem(sb, colLen, $" Superblock Hash{sect.MasterHashValidity.GetValidityString()}:", ivfcInfo.MasterHash); PrintItem(sb, colLen, " Magic:", ivfcInfo.Magic); PrintItem(sb, colLen, " Version:", $"{ivfcInfo.Version:x8}"); for (int i = 0; i < Romfs.IvfcMaxLevel; i++) { IvfcLevelHeader level = ivfcInfo.LevelHeaders[i]; long hashOffset = 0; if (i != 0) { hashOffset = ivfcInfo.LevelHeaders[i - 1].LogicalOffset; } // todo sb.AppendLine($" Level {i}{level.HashValidity.GetValidityString()}:"); sb.AppendLine($" Level {i}:"); PrintItem(sb, colLen, " Data Offset:", $"0x{level.LogicalOffset:x12}"); PrintItem(sb, colLen, " Data Size:", $"0x{level.HashDataSize:x12}"); PrintItem(sb, colLen, " Hash Offset:", $"0x{hashOffset:x12}"); PrintItem(sb, colLen, " Hash BlockSize:", $"0x{1 << level.BlockSizePower:x8}"); } } } } }