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mirror of https://github.com/ppy/osu.git synced 2024-11-19 06:42:54 +08:00
osu-lazer/osu.Game/IO/Legacy/SerializationReader.cs
Bartłomiej Dach 044770f1a2 Locally suppress warning in SerializationReader
`SerializationReader` is not written in a form that would support
turning nullability checking on for the entire class. The biggest
problem there is the inner `DynamicDeserializer` static class, whose
members are initialised via an `initialize()` method, which the compiler
knows nothing about.

For this reason, just opt to suppress the single inspection about
returning a `null` from a method with a return type of `string` (rider
expects `string?`). It would have been also viable to enable nullability
checking for this one method, but that's pretty much the same thing and
adds no safety anyways, so just disable the warning to minimise
surprise.
2021-05-14 23:29:34 +02:00

307 lines
9.7 KiB
C#

// Copyright (c) ppy Pty Ltd <contact@ppy.sh>. Licensed under the MIT Licence.
// See the LICENCE file in the repository root for full licence text.
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
using System.Reflection;
using System.Runtime.Serialization;
using System.Runtime.Serialization.Formatters.Binary;
using System.Text;
namespace osu.Game.IO.Legacy
{
/// <summary> SerializationReader. Extends BinaryReader to add additional data types,
/// handle null strings and simplify use with ISerializable. </summary>
public class SerializationReader : BinaryReader
{
private readonly Stream stream;
public SerializationReader(Stream s)
: base(s, Encoding.UTF8)
{
stream = s;
}
public int RemainingBytes => (int)(stream.Length - stream.Position);
/// <summary> Static method to take a SerializationInfo object (an input to an ISerializable constructor)
/// and produce a SerializationReader from which serialized objects can be read </summary>.
public static SerializationReader GetReader(SerializationInfo info)
{
byte[] byteArray = (byte[])info.GetValue("X", typeof(byte[]));
MemoryStream ms = new MemoryStream(byteArray);
return new SerializationReader(ms);
}
/// <summary> Reads a string from the buffer. Overrides the base implementation so it can cope with nulls. </summary>
public override string ReadString()
{
// ReSharper disable once AssignNullToNotNullAttribute
if (ReadByte() == 0) return null;
return base.ReadString();
}
/// <summary> Reads a byte array from the buffer, handling nulls and the array length. </summary>
public byte[] ReadByteArray()
{
int len = ReadInt32();
if (len > 0) return ReadBytes(len);
if (len < 0) return null;
return Array.Empty<byte>();
}
/// <summary> Reads a char array from the buffer, handling nulls and the array length. </summary>
public char[] ReadCharArray()
{
int len = ReadInt32();
if (len > 0) return ReadChars(len);
if (len < 0) return null;
return Array.Empty<char>();
}
/// <summary> Reads a DateTime from the buffer. </summary>
public DateTime ReadDateTime()
{
long ticks = ReadInt64();
if (ticks < 0) throw new IOException("Bad ticks count read!");
return new DateTime(ticks, DateTimeKind.Utc);
}
/// <summary> Reads a generic list from the buffer. </summary>
public IList<T> ReadBList<T>(bool skipErrors = false) where T : ILegacySerializable, new()
{
int count = ReadInt32();
if (count < 0) return null;
IList<T> d = new List<T>(count);
SerializationReader sr = new SerializationReader(BaseStream);
for (int i = 0; i < count; i++)
{
T obj = new T();
try
{
obj.ReadFromStream(sr);
}
catch (Exception)
{
if (skipErrors)
continue;
throw;
}
d.Add(obj);
}
return d;
}
/// <summary> Reads a generic list from the buffer. </summary>
public IList<T> ReadList<T>()
{
int count = ReadInt32();
if (count < 0) return null;
IList<T> d = new List<T>(count);
for (int i = 0; i < count; i++) d.Add((T)ReadObject());
return d;
}
/// <summary> Reads a generic Dictionary from the buffer. </summary>
public IDictionary<TKey, TValue> ReadDictionary<TKey, TValue>()
{
int count = ReadInt32();
if (count < 0) return null;
IDictionary<TKey, TValue> d = new Dictionary<TKey, TValue>();
for (int i = 0; i < count; i++) d[(TKey)ReadObject()] = (TValue)ReadObject();
return d;
}
/// <summary> Reads an object which was added to the buffer by WriteObject. </summary>
public object ReadObject()
{
ObjType t = (ObjType)ReadByte();
switch (t)
{
case ObjType.boolType:
return ReadBoolean();
case ObjType.byteType:
return ReadByte();
case ObjType.uint16Type:
return ReadUInt16();
case ObjType.uint32Type:
return ReadUInt32();
case ObjType.uint64Type:
return ReadUInt64();
case ObjType.sbyteType:
return ReadSByte();
case ObjType.int16Type:
return ReadInt16();
case ObjType.int32Type:
return ReadInt32();
case ObjType.int64Type:
return ReadInt64();
case ObjType.charType:
return ReadChar();
case ObjType.stringType:
return base.ReadString();
case ObjType.singleType:
return ReadSingle();
case ObjType.doubleType:
return ReadDouble();
case ObjType.decimalType:
return ReadDecimal();
case ObjType.dateTimeType:
return ReadDateTime();
case ObjType.byteArrayType:
return ReadByteArray();
case ObjType.charArrayType:
return ReadCharArray();
case ObjType.otherType:
return DynamicDeserializer.Deserialize(BaseStream);
default:
return null;
}
}
public static class DynamicDeserializer
{
private static VersionConfigToNamespaceAssemblyObjectBinder versionBinder;
private static BinaryFormatter formatter;
private static void initialize()
{
versionBinder = new VersionConfigToNamespaceAssemblyObjectBinder();
formatter = new BinaryFormatter
{
// AssemblyFormat = FormatterAssemblyStyle.Simple,
Binder = versionBinder
};
}
public static object Deserialize(Stream stream)
{
if (formatter == null)
initialize();
Debug.Assert(formatter != null, "formatter != null");
// ReSharper disable once PossibleNullReferenceException
return formatter.Deserialize(stream);
}
#region Nested type: VersionConfigToNamespaceAssemblyObjectBinder
public sealed class VersionConfigToNamespaceAssemblyObjectBinder : SerializationBinder
{
private readonly Dictionary<string, Type> cache = new Dictionary<string, Type>();
public override Type BindToType(string assemblyName, string typeName)
{
if (cache.TryGetValue(assemblyName + typeName, out var typeToDeserialize))
return typeToDeserialize;
List<Type> tmpTypes = new List<Type>();
Type genType = null;
if (typeName.Contains("System.Collections.Generic") && typeName.Contains("[["))
{
string[] splitTyps = typeName.Split('[');
foreach (string typ in splitTyps)
{
if (typ.Contains("Version"))
{
string asmTmp = typ.Substring(typ.IndexOf(',') + 1);
string asmName = asmTmp.Remove(asmTmp.IndexOf(']')).Trim();
string typName = typ.Remove(typ.IndexOf(','));
tmpTypes.Add(BindToType(asmName, typName));
}
else if (typ.Contains("Generic"))
{
genType = BindToType(assemblyName, typ);
}
}
if (genType != null && tmpTypes.Count > 0)
{
return genType.MakeGenericType(tmpTypes.ToArray());
}
}
string toAssemblyName = assemblyName.Split(',')[0];
Assembly[] assemblies = AppDomain.CurrentDomain.GetAssemblies();
foreach (Assembly a in assemblies)
{
if (a.FullName.Split(',')[0] == toAssemblyName)
{
typeToDeserialize = a.GetType(typeName);
break;
}
}
cache.Add(assemblyName + typeName, typeToDeserialize);
return typeToDeserialize;
}
}
#endregion
}
}
public enum ObjType : byte
{
nullType,
boolType,
byteType,
uint16Type,
uint32Type,
uint64Type,
sbyteType,
int16Type,
int32Type,
int64Type,
charType,
stringType,
singleType,
doubleType,
decimalType,
dateTimeType,
byteArrayType,
charArrayType,
otherType,
ILegacySerializableType
}
}