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KnownTypes registry to simplifying polymorphic serialization

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K4os.KnownTypes

Name Version
K4os.KnownTypes NuGet Stats
K4os.KnownTypes.NewtonsoftJson NuGet Stats
K4os.KnownTypes.SystemTextJson NuGet Stats

Serialization binder allowing to assign custom names to types.

Quick setup

Newtonsoft.Json

var registry = new KnownTypesRegistry();
registry.RegisterAssembly<Program>();

var settings = new JsonSerializerSettings {
    TypeNameHandling = TypeNameHandling.Auto,
    SerializationBinder = registry.CreateJsonSerializationBinder()
};

JsonConvert.SerializeObject(payload, settings);

System.Text.Json

var registry = new KnownTypesRegistry();
registry.RegisterAssembly<Program>();

var options = new JsonSerializerOptions {
    TypeInfoResolver = registry.CreateJsonTypeInfoResolver()
};

JsonSerializer.Serialize(payload, options);

Background

One of the frequent problems with Newtonsoft.Json serializer is polymorphic serialization. It is not turned on by default and when it get turned on the results are... not pretty (subjective opinion).

System.Text.Json did not have polymorphic serialization at all (some mumbo-jumbo with JsonConverter is required), although at version 7.0 (I think, don't quote me on that) it was added with DefaultJsonTypeInfoResolver.

Usage

Let's assume we have class hierarchy:

class Base { public string Text; }
class Derived: Base { public int Value; }

and an Envelope class:

class Envelope { public Base Data; }

Let's now create an envelope object holding an instance of Derived class. Please note, Envelope's declared member is Base but we will use Derived (this is ok, of course, as Derived is a subclass of Base).

var envelope = new Envelope {
    Data = new Derived { Text = "derived", Value = 7 }
}

When we serialized this envelope with default serialization settings:

var json = JsonConvert.SerializeObject(envelope);

generated JSON will not contain any type information:

{"Data":{"Value":7,"Text":"derived"}}

When we deserialize this JSON:

var data = JsonConvert.DeserializeObject<Envelope>(json);

the object inside envelope will be just of type Base not Derived and it just lost Value field. If we serialize this is again we will get {"Data":{"Text":"derived"}} only.

It is because Base is nominal (declared) type inside envelope and no additional clues are provided.

To force serializer to include type information we can use JsonSerializerSettings:

var settings = new JsonSerializerSettings {
    TypeNameHandling = TypeNameHandling.All
};
var envelope = new Envelope {
    Data = new Derived { Text = "derived", Value = 7 }
};
var json = JsonConvert.SerializeObject(envelope, settings);

which attached type information to message, generating slightly inflated message:

{
    "$type":"Some.Potentially.Very.Long.Namespace.Envelope, And.Here.Comes.Assembly.Name",
    "Data":{
        "$type":"Some.Potentially.Very.Long.Namespace.Derived, And.Here.Comes.Assembly.Name",
        "Value":7,
        "Text":"derived"
    }
}

This is kind-of what me might want. Slightly better results can be achieved with TypeNameHandling.Auto which includes type information only if actual type does not match nominal type (but it may fail us if nominal type changes over time, for example we change Data field type to object and now all previously persisted Base objects are without annotation, thus no properly deserialized).

One of disadvantages is tightly coupling JSON message to .NET assembly. It supposed to be portable, right? Please note, that we can't even move them to different assembly or change their names, as $type filed will no longer match. This is not ideal in constantly evolving system.

So what can we do?

We can add another level of indirection - assigning "code names" to types, and serialize just those. We can move/rename types as we like as long as code names stay assigned to appropriate types.

What we need is to create a binder and assign names to types:

var binder = new KnownTypesSerializationBinder();
binder.Register("envelope.v1", typeof(Envelope));
binder.Register("base.v1", typeof(Base));
binder.Register("derived.v1", typeof(Derived));

Then we can just use this binder for serialization:

var settings = new JsonSerializerSettings {
    TypeNameHandling = TypeNameHandling.All,
    SerializationBinder = binder
};

Since then type information will be much neater:

{"$type":"envelope.v1","Data":{"$type":"derived.v1","Value":7,"Text":"derived"}}

and not tightly coupled with actual assembly nor type.

KnownTypeAliasAttribute

To avoid manual registration we can put KnownTypeAliasAttribute on classes we want assign names to, for example:

[KnownTypeAlias("envlp.v1")]
class Envelope { ... }

and register type with just:

binder.Register<Envelope>();

or even all annotated classes in given assembly with:

binder.RegisterAssembly(this.GetType());

NOTE: It uses GetType() to get "this type" and consequently "this assembly". There are several overloads of RegisterAssembly, pick one you like. I actually like creating empty class in assembly called AssemblyHook to easily register types with:

binder.RegisterAssembly<Some.Other.Assembly.AssemblyHook>();

Versioning

Binder can be used to message versioning. It it a good practice to annotate all types with version from very beginning. Previously we used .v1 for all examples:

[KnownTypeAlias("data.v1")]
public class Data { ... }

It gives us nice way to introduce new version, by renaming old class (while keeping it's binding name) and introducing new "default" class:

// old message gets renamed
[KnownTypeAlias("data.v1")]
public class DataV1 { ... }

// new one takes its place
[KnownTypeAlias("data.v2")]
public class Data { ... }

Please note, that all old messages are properly deserialized with no sweat.

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KnownTypes registry to simplifying polymorphic serialization

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