LibHac/tests/LibHac.Tests/FsSystem/ReadOnlyBlockCacheStorageTests.cs

200 lines
No EOL
7.1 KiB
C#

using System;
using System.Buffers.Binary;
using LibHac.Common;
using LibHac.Fs;
using LibHac.FsSystem;
using Xunit;
namespace LibHac.Tests.FsSystem;
public class ReadOnlyBlockCacheStorageTests
{
private class TestContext
{
private int _blockSize;
private int _cacheBlockCount;
public byte[] BaseData;
public byte[] ModifiedBaseData;
public byte[] CacheBuffer;
public ReadOnlyBlockCacheStorage CacheStorage;
public TestContext(int blockSize, int cacheBlockCount, int storageBlockCount, ulong rngSeed)
{
_blockSize = blockSize;
_cacheBlockCount = cacheBlockCount;
BaseData = new byte[_blockSize * storageBlockCount];
ModifiedBaseData = new byte[_blockSize * storageBlockCount];
CacheBuffer = new byte[_blockSize * _cacheBlockCount];
new Random(rngSeed).NextBytes(BaseData);
BaseData.AsSpan().CopyTo(ModifiedBaseData);
for (int i = 0; i < storageBlockCount; i++)
{
ModifyBlock(GetModifiedBaseDataBlock(i));
}
using var baseStorage = new SharedRef<IStorage>(new MemoryStorage(BaseData));
CacheStorage = new ReadOnlyBlockCacheStorage(ref baseStorage.Ref, _blockSize, CacheBuffer, _cacheBlockCount);
}
public Span<byte> GetBaseDataBlock(int index) => BaseData.AsSpan(_blockSize * index, _blockSize);
public Span<byte> GetModifiedBaseDataBlock(int index) => ModifiedBaseData.AsSpan(_blockSize * index, _blockSize);
public Span<byte> GetCacheDataBlock(int index) => CacheBuffer.AsSpan(_blockSize * index, _blockSize);
private void ModifyBlock(Span<byte> block)
{
BinaryPrimitives.WriteUInt64LittleEndian(block, ulong.MaxValue);
}
public void ModifyAllCacheBlocks()
{
for (int i = 0; i < _cacheBlockCount; i++)
{
ModifyBlock(GetCacheDataBlock(i));
}
}
public Span<byte> ReadCachedStorage(int blockIndex)
{
byte[] buffer = new byte[_blockSize];
Assert.Success(CacheStorage.Read(_blockSize * blockIndex, buffer));
return buffer;
}
public Span<byte> ReadCachedStorage(long offset, int size)
{
byte[] buffer = new byte[size];
Assert.Success(CacheStorage.Read(offset, buffer));
return buffer;
}
public void InvalidateCache()
{
Assert.Success(CacheStorage.OperateRange(OperationId.InvalidateCache, 0, long.MaxValue));
}
}
private const int BlockSize = 0x4000;
private const int CacheBlockCount = 4;
private const int StorageBlockCount = 16;
[Fact]
public void Read_CompleteBlocks_ReadsCorrectData()
{
var context = new TestContext(BlockSize, CacheBlockCount, StorageBlockCount, 21341);
for (int i = 0; i < StorageBlockCount; i++)
{
Assert.True(context.GetBaseDataBlock(i).SequenceEqual(context.ReadCachedStorage(i)));
Assert.True(context.GetBaseDataBlock(i).SequenceEqual(context.ReadCachedStorage(i)));
}
}
[Fact]
public void Read_PreviouslyCachedBlock_ReturnsDataFromCache()
{
const int index = 4;
var context = new TestContext(BlockSize, CacheBlockCount, StorageBlockCount, 21341);
// Cache the block
context.ReadCachedStorage(index);
// Directly modify the cache buffer
context.ModifyAllCacheBlocks();
// Next read should return the modified data from the cache buffer
Assert.True(context.GetModifiedBaseDataBlock(index).SequenceEqual(context.ReadCachedStorage(index)));
}
[Fact]
public void Read_BlockEvictedFromCache_ReturnsDataFromBaseStorage()
{
const int index = 4;
var context = new TestContext(BlockSize, CacheBlockCount, StorageBlockCount, 21341);
context.ReadCachedStorage(index);
context.ModifyAllCacheBlocks();
// Read enough additional blocks to push the initial block out of the cache
context.ReadCachedStorage(6);
context.ReadCachedStorage(7);
context.ReadCachedStorage(8);
context.ReadCachedStorage(9);
// Reading the initial block should now return the original data
Assert.True(context.GetBaseDataBlock(index).SequenceEqual(context.ReadCachedStorage(index)));
}
[Fact]
public void Read_ReadMultipleBlocks_BlocksAreEvictedAtTheRightTime()
{
const int index = 4;
var context = new TestContext(BlockSize, CacheBlockCount, StorageBlockCount, 21341);
context.ReadCachedStorage(index);
context.ModifyAllCacheBlocks();
context.ReadCachedStorage(6);
context.ReadCachedStorage(7);
context.ReadCachedStorage(8);
// Reading the initial block should return the cached data
Assert.True(context.GetModifiedBaseDataBlock(index).SequenceEqual(context.ReadCachedStorage(index)));
for (int i = 0; i < 3; i++)
context.ReadCachedStorage(9 + i);
context.ModifyAllCacheBlocks();
// The initial block should have been moved to the top of the cache when it was last accessed
Assert.True(context.GetModifiedBaseDataBlock(index).SequenceEqual(context.ReadCachedStorage(index)));
// Access all the other blocks in the cache so the initial block is the least recently accessed
for (int i = 0; i < 3; i++)
Assert.True(context.GetModifiedBaseDataBlock(9 + i).SequenceEqual(context.ReadCachedStorage(9 + i)));
// Add a new block to the cache
Assert.True(context.GetBaseDataBlock(2).SequenceEqual(context.ReadCachedStorage(2)));
// The initial block should have been removed from the cache
Assert.True(context.GetBaseDataBlock(index).SequenceEqual(context.ReadCachedStorage(index)));
}
[Fact]
public void Read_UnalignedBlock_ReturnsOriginalData()
{
const int index = 4;
var context = new TestContext(BlockSize, CacheBlockCount, StorageBlockCount, 21341);
context.ReadCachedStorage(index);
context.ModifyAllCacheBlocks();
// Read two blocks at once
int offset = index * BlockSize;
int size = BlockSize * 2;
// The cache should be bypassed, returning the original data
Assert.True(context.BaseData.AsSpan(offset, size).SequenceEqual(context.ReadCachedStorage(offset, size)));
}
[Fact]
public void OperateRange_InvalidateCache_PreviouslyCachedBlockReturnsDataFromBaseStorage()
{
const int index = 4;
var context = new TestContext(BlockSize, CacheBlockCount, StorageBlockCount, 21341);
context.ReadCachedStorage(index);
context.ModifyAllCacheBlocks();
// Next read should return the modified data from the cache buffer
Assert.True(context.GetModifiedBaseDataBlock(index).SequenceEqual(context.ReadCachedStorage(index)));
// Reading after invalidating the cache should return the original data
context.InvalidateCache();
Assert.True(context.GetBaseDataBlock(index).SequenceEqual(context.ReadCachedStorage(index)));
}
}