using Ryujinx.HLE.OsHle.Utilities; using System.IO; using System.Text; namespace Ryujinx.HLE.Loaders.Npdm { //https://github.com/SciresM/hactool/blob/master/npdm.c //https://github.com/SciresM/hactool/blob/master/npdm.h //http://switchbrew.org/index.php?title=NPDM class Npdm { public bool Is64Bits; public int AddressSpaceWidth; public byte MainThreadPriority; public byte DefaultCpuId; public int SystemResourceSize; public int ProcessCategory; public int MainEntrypointStackSize; public string TitleName; public byte[] ProductCode; public ulong FSPerms; private int ACI0Offset; private int ACI0Size; private int ACIDOffset; private int ACIDSize; public ACI0 ACI0; public ACID ACID; public const long NpdmMagic = 'M' << 0 | 'E' << 8 | 'T' << 16 | 'A' << 24; public Npdm(Stream NPDMStream) { BinaryReader Reader = new BinaryReader(NPDMStream); if (Reader.ReadInt32() != NpdmMagic) { throw new InvalidNpdmException("NPDM Stream doesn't contain NPDM file!"); } Reader.ReadInt64(); // Padding / Unused // MmuFlags, bit0: 64-bit instructions, bits1-3: address space width (1=64-bit, 2=32-bit). Needs to be <= 0xF byte MmuFlags = Reader.ReadByte(); Is64Bits = (MmuFlags & 1) != 0; AddressSpaceWidth = (MmuFlags >> 1) & 7; Reader.ReadByte(); // Padding / Unused MainThreadPriority = Reader.ReadByte(); // (0-63) DefaultCpuId = Reader.ReadByte(); Reader.ReadInt32(); // Padding / Unused // System resource size (max size as of 5.x: 534773760). Unknown usage. SystemResourceSize = EndianSwap.Swap32(Reader.ReadInt32()); // ProcessCategory (0: regular title, 1: kernel built-in). Should be 0 here. ProcessCategory = EndianSwap.Swap32(Reader.ReadInt32()); // Main entrypoint stack size // (Should(?) be page-aligned. In non-nspwn scenarios, values of 0 can also rarely break in Horizon. // This might be something auto-adapting or a security feature of some sort ?) MainEntrypointStackSize = Reader.ReadInt32(); byte[] TempTitleName = Reader.ReadBytes(0x10); TitleName = Encoding.UTF8.GetString(TempTitleName, 0, TempTitleName.Length).Trim('\0'); ProductCode = Reader.ReadBytes(0x10); // Unknown value NPDMStream.Seek(0x30, SeekOrigin.Current); // Skip reserved bytes ACI0Offset = Reader.ReadInt32(); ACI0Size = Reader.ReadInt32(); ACIDOffset = Reader.ReadInt32(); ACIDSize = Reader.ReadInt32(); ACI0 = new ACI0(NPDMStream, ACI0Offset); ACID = new ACID(NPDMStream, ACIDOffset); FSPerms = ACI0.FSAccessHeader.PermissionsBitmask & ACID.FSAccessControl.PermissionsBitmask; } } }