Add HierarchicalSha256Storage

This commit is contained in:
Alex Barney 2024-03-17 17:01:00 -07:00
parent ea49386b48
commit e73e2861bc
2 changed files with 258 additions and 3 deletions

View file

@ -0,0 +1,255 @@
using System;
using System.Runtime.CompilerServices;
using LibHac.Common;
using LibHac.Crypto;
using LibHac.Diag;
using LibHac.Fs;
using LibHac.Os;
using LibHac.Util;
namespace LibHac.FsSystem;
file static class Anonymous
{
public static int Log2(int value)
{
Assert.SdkRequiresGreater(value, 0);
Assert.SdkRequires(BitUtil.IsPowerOfTwo(value));
int log = 0;
while ((value >>= 1) > 0)
{
log++;
}
return log;
}
}
/// <summary>
/// Read and writes the storages generally used by code filesystems in NCAs. These use a Merkle tree to verify the
/// integrity of the data.
/// </summary>
/// <remarks>Based on nnSdk 17.5.0 (FS 17.0.0)</remarks>
public class HierarchicalSha256Storage : IStorage
{
private const int LayerCount = 3;
private const int HashSize = Sha256.DigestSize;
private ValueSubStorage _baseStorage;
private long _baseStorageSize;
private Memory<byte> _hashBuffer;
private int _hashTargetBlockSize;
private int _log2SizeRatio;
private IHash256GeneratorFactory _hashGeneratorFactory;
private SdkMutexType _mutex;
[InlineArray(LayerCount), NonCopyableDisposable]
public struct BaseStorages : IDisposable
{
private ValueSubStorage _0;
public void Dispose()
{
for (int i = 0; i < LayerCount; i++)
{
this[i].Dispose();
}
}
}
public HierarchicalSha256Storage()
{
_baseStorage = new ValueSubStorage();
_mutex = new SdkMutexType();
}
public override void Dispose()
{
_baseStorage.Dispose();
base.Dispose();
}
public Result Initialize(ref readonly BaseStorages baseStorages, int layerCount, uint hashTargetBlockSize,
Memory<byte> hashBuffer, IHash256GeneratorFactory hashGeneratorFactory)
{
Assert.SdkRequiresEqual(layerCount, LayerCount);
Assert.SdkRequires(BitUtil.IsPowerOfTwo(hashTargetBlockSize));
Assert.SdkRequiresNotNull(hashGeneratorFactory);
_hashTargetBlockSize = (int)hashTargetBlockSize;
_log2SizeRatio = Anonymous.Log2((int)(hashTargetBlockSize / HashSize));
_hashGeneratorFactory = hashGeneratorFactory;
Result res = baseStorages[2].GetSize(out _baseStorageSize);
if (res.IsFailure()) return res.Miss();
if (_baseStorageSize > HashSize << _log2SizeRatio << _log2SizeRatio)
{
_baseStorageSize = 0;
return ResultFs.HierarchicalSha256BaseStorageTooLarge.Log();
}
_hashBuffer = hashBuffer;
_baseStorage.Set(in baseStorages[2]);
Span<byte> masterHash = stackalloc byte[HashSize];
res = baseStorages[0].Read(0, masterHash);
if (res.IsFailure()) return res.Miss();
res = baseStorages[1].GetSize(out long hashStorageSize);
if (res.IsFailure()) return res.Miss();
Assert.SdkRequiresAligned(hashStorageSize, HashSize);
Assert.SdkRequiresLessEqual(hashStorageSize, _hashTargetBlockSize);
Assert.SdkRequiresLessEqual(hashStorageSize, hashBuffer.Length);
Span<byte> buffer = _hashBuffer.Span.Slice(0, (int)hashStorageSize);
res = baseStorages[1].Read(0, buffer);
if (res.IsFailure()) return res.Miss();
Span<byte> hash = stackalloc byte[HashSize];
res = _hashGeneratorFactory.GenerateHash(hash, buffer);
if (res.IsFailure()) return res.Miss();
if (!CryptoUtil.IsSameBytes(hash, masterHash, HashSize))
return ResultFs.HierarchicalSha256HashVerificationFailed.Log();
return Result.Success;
}
public override Result Read(long offset, Span<byte> destination)
{
if (destination.Length == 0)
return Result.Success;
if (!Alignment.IsAligned(offset, (ulong)_hashTargetBlockSize))
return ResultFs.InvalidArgument.Log();
if (!Alignment.IsAligned(destination.Length, (ulong)_hashTargetBlockSize))
return ResultFs.InvalidArgument.Log();
// The last block in a HierarchicalSha256Storage is allowed to be a partial block, but reads are required to be
// in complete blocks. Calculate the actual amount of data we need to read from the base storage.
long reducedSize = Math.Min(_baseStorageSize, Alignment.AlignUp(offset + destination.Length, (ulong)_hashTargetBlockSize)) - offset;
Result res = _baseStorage.Read(offset, destination.Slice(0, (int)reducedSize));
if (res.IsFailure()) return res.Miss();
using var changeThreadPriority = new ScopedThreadPriorityChanger(1, ScopedThreadPriorityChanger.Mode.Relative);
Span<byte> hash = stackalloc byte[HashSize];
ReadOnlySpan<byte> hashBuffer = _hashBuffer.Span;
long currentOffset = offset;
long remainingSize = reducedSize;
while (remainingSize > 0)
{
long currentSize = Math.Min(_hashTargetBlockSize, remainingSize);
res = _hashGeneratorFactory.GenerateHash(hash, destination.Slice((int)(currentOffset - offset), (int)currentSize));
if (res.IsFailure()) return res.Miss();
Assert.SdkAssert((currentOffset >> _log2SizeRatio) < _hashBuffer.Length);
using (new ScopedLock<SdkMutexType>(ref _mutex))
{
if (!CryptoUtil.IsSameBytes(hash, hashBuffer.Slice((int)(currentOffset >> _log2SizeRatio)), HashSize))
{
destination.Clear();
return ResultFs.HierarchicalSha256HashVerificationFailed.Log();
}
}
currentOffset += currentSize;
remainingSize -= currentOffset;
}
return Result.Success;
}
public override Result Write(long offset, ReadOnlySpan<byte> source)
{
// Succeed if zero-size.
if (source.Length == 0)
return Result.Success;
// Validate preconditions.
if (!Alignment.IsAligned(offset, (ulong)_hashTargetBlockSize))
return ResultFs.InvalidArgument.Log();
if (!Alignment.IsAligned(source.Length, (ulong)_hashTargetBlockSize))
return ResultFs.InvalidArgument.Log();
Span<byte> newHash = stackalloc byte[HashSize];
Span<byte> hashBuffer = _hashBuffer.Span;
// Setup tracking variables.
long reducedSize = Math.Min(_baseStorageSize, Alignment.AlignUp(offset + source.Length, (ulong)_hashTargetBlockSize)) - offset;
long currentOffset = offset;
long remainingSize = reducedSize;
while (remainingSize > 0)
{
Result res;
// Generate the hash of the region we're validating.
long currentSize = Math.Min(_hashTargetBlockSize, remainingSize);
// Temporarily increase our thread priority.
using (new ScopedThreadPriorityChanger(1, ScopedThreadPriorityChanger.Mode.Relative))
{
res = _hashGeneratorFactory.GenerateHash(newHash, source.Slice((int)(currentOffset - offset), (int)currentSize));
if (res.IsFailure()) return res.Miss();
}
// Write the data.
res = _baseStorage.Write(currentOffset, source.Slice((int)(currentOffset - offset), (int)currentSize));
if (res.IsFailure()) return res.Miss();
// Write the hash.
using (new ScopedLock<SdkMutexType>(ref _mutex))
{
newHash.CopyTo(hashBuffer.Slice((int)(currentOffset >> _log2SizeRatio), HashSize));
}
// Advance.
currentOffset += currentSize;
remainingSize -= currentSize;
}
return Result.Success;
}
public override Result Flush()
{
return _baseStorage.Flush().Ret();
}
public override Result GetSize(out long size)
{
return _baseStorage.GetSize(out size).Ret();
}
public override Result SetSize(long size)
{
return ResultFs.UnsupportedSetSizeForHierarchicalSha256Storage.Log();
}
public override Result OperateRange(Span<byte> outBuffer, OperationId operationId, long offset, long size, ReadOnlySpan<byte> inBuffer)
{
if (operationId == OperationId.InvalidateCache)
{
return _baseStorage.OperateRange(OperationId.InvalidateCache, offset, size).Ret();
}
if (!Alignment.IsAligned(offset, (ulong)_hashTargetBlockSize))
return ResultFs.InvalidArgument.Log();
if (!Alignment.IsAligned(size, (ulong)_hashTargetBlockSize))
return ResultFs.InvalidArgument.Log();
long reducedSize = Math.Min(_baseStorageSize, Alignment.AlignUp(offset + size, (ulong)_hashTargetBlockSize)) - offset;
return _baseStorage.OperateRange(outBuffer, operationId, offset, reducedSize, inBuffer).Ret();
}
}

View file

@ -57,15 +57,15 @@ public abstract class IHash256GeneratorFactory : IDisposable
return DoCreate(ref outGenerator); return DoCreate(ref outGenerator);
} }
public void GenerateHash(Span<byte> hashBuffer, ReadOnlySpan<byte> data) public Result GenerateHash(Span<byte> hashBuffer, ReadOnlySpan<byte> data)
{ {
Assert.SdkRequiresEqual(IHash256Generator.HashSize, hashBuffer.Length); Assert.SdkRequiresEqual(IHash256Generator.HashSize, hashBuffer.Length);
DoGenerateHash(hashBuffer, data); return DoGenerateHash(hashBuffer, data).Ret();
} }
protected abstract Result DoCreate(ref UniqueRef<IHash256Generator> outGenerator); protected abstract Result DoCreate(ref UniqueRef<IHash256Generator> outGenerator);
protected abstract void DoGenerateHash(Span<byte> hashBuffer, ReadOnlySpan<byte> data); protected abstract Result DoGenerateHash(Span<byte> hashBuffer, ReadOnlySpan<byte> data);
} }
/// <summary> /// <summary>