FaunaDB C# Driver

Documentation

C# doc are hosted on GitHub:

faunadb-csharp

How to Build

Requirements

.NET SDK
Mono if you're using macOS or Linux

Build

Running the following command will build the driver for all supported .NET frameworks:

dotnet build FaunaDB.Client

If you're using MacOS or Linux you may need to override FrameworkPathOverride to point to the Mono specific api:

FrameworkPathOverride=/Library/Frameworks/Mono.framework/Versions/Current/lib/mono/4.5-api dotnet build FaunaDB.Client/ --framework net45

Running Tests

Running the following command will run the tests for all supported .NET frameworks

dotnet test FaunaDB.Client.Test

If you're using macOS or Linux you may need to override FrameworkPathOverride:

FrameworkPathOverride=/Library/Frameworks/Mono.framework/Versions/Current/lib/mono/4.5-api dotnet test FaunaDB.Client.Test/ --framework net45

specific tests:

FrameworkPathOverride=/Library/Frameworks/Mono.framework/Versions/Current/lib/mono/4.5-api dotnet test FaunaDB.Client.Test/ --framework net45 --filter Name~EncoderTest

If you're using .net core (which is cross-platform for Windows, Mac or Linux), use the following examples for running tests:

# runs all the tests for all target frameworks from csproj file
dotnet test FaunaDB.Client.Test

# runs tests for a specific target framework
dotnet test FaunaDB.Client.Test --framework net45
dotnet test FaunaDB.Client.Test --framework netcoreapp3.1
dotnet test FaunaDB.Client.Test --framework net5.0

# runs all the tests in a specified test class (format: namespace.class)
dotnet test FaunaDB.Client.Test --filter FullyQualifiedName~Test.EnvironmentHeaderTest --framework netcoreapp3.1

# runs a single test
dotnet test FaunaDB.Client.Test --filter Name=TestNetlifyEnvironment --framework netcoreapp3.1

# runs all the tests starting with TestUnknownEnvironment
dotnet test FaunaDB.Client.Test --filter FullyQualifiedName~Test.EnvironmentHeaderTest.TestUnknownEnvironment --framework netcoreapp3.1

Referencing FaunaDB Assembly

First install the Nuget package by adding the package reference to your MSBuild project:

<PackageReference Include="FaunaDB.Client" Version="5.0.0-preview" />

or by using your IDE and searching for FaunaDB.Client.

Quickstart

Here is an example on how to execute a simple query on FaunaDB:

using System;
using System.Collections.Generic;
using System.Threading.Tasks;
using FaunaDB.Client;
using FaunaDB.Types;

using static FaunaDB.Query.Language;

namespace FaunaDBProject
{
    class FaunaDBHelloWorld
    {
        static readonly string ENDPOINT = "https://db.fauna.com:443";
        static readonly string SECRET = "<<YOUR-SECRET-HERE>>";

        static void ProcessData(Value[] values)
        {
            foreach (Value value in values)
            {
                //do something
            }
        }
        static async Task DoQuery(FaunaClient client)
        {
            Value result = await client.Query(Paginate(Match(Index("spells"))));
            IResult<Value[]> data = result.At("data").To<Value[]>();

            data.Match(
                Success: value => ProcessData(value),
                Failure: reason => Console.WriteLine($"Something went wrong: {reason}")
            );
        }

        public static void Main(string[] args)
        {
            var client = new FaunaClient(endpoint: ENDPOINT, secret: SECRET);

            DoQuery(client).Wait();
        }
    }
}

This small example shows how to use pretty much every aspect of the library.

How to instantiate a FaunaDB `FaunaClient`

var client = new FaunaClient(endpoint: ENDPOINT, secret: SECRET, httpClient: HTTP_CLIENT, queryTimeout: TIMEOUT);

Except secret all other arguments are optional.

You can also pass a custom HttpClient when creating a new FaunaClient:

// using System.Net.Http;
var http = new HttpClient();

// The default request headers can be any string values, but should be specific to your application.
http.DefaultRequestHeaders.Add("X-Custom-Header", "42");

http.Timeout = TimeSpan.FromSeconds(15);

var client = new FaunaClient("secret", "http://localhost:9090/", httpClient: http);

HTTP 2.0 support

Starting from version 4.0.0 of this driver (faunadb-csharp), HTTP/2 support is enabled by default for .NET standards 2.1 and above. This means that if you use .NET core 3.1 and above (which support that standard), you'll be sending requests to Fauna on HTTP/2. .NET standards lower than 2.1 and .NET frameworks 4.5-4.8 have HTTP/1.1 enabled as the default protocol version, since they lack of support for HTTP/2. We've also added an optional parameter if you want to specify the version of the protocol directly:

var adminClient = new FaunaClient(
    endpoint: endpoint,
    secret: secret,
    httpVersion: HttpVersion.Version11
);

How to execute a query

Value result = await client.Query(Paginate(Match(Index("spells"))));

Query methods receives an Expr object. Expr objects can be composed with others Expr to create complex query objects. FaunaDB.Query.Language is a helper class where you can find all available expressions in the library.

You can also pass a TimeSpan queryTimeout argument to that specific query as well:

Value result = await client.Query(Paginate(Match(Index("spells"))), TimeSpan.FromSeconds(42));

How to access objects fields and convert to primitive values

Objects fields are accessed through At methods of Value class. It's possible to access fields by names if the value represents an object or by index if it represents an array. Also it's possible to convert Value class to its primitive correspondent using To methods specifying a type.

IResult<Value[]> data = result.At("data").To<Value[]>();

How work with `IResult<T>` objects

This object represents the result of an operation and it might be success or a failure. All convertion operations returns an object like this. This way it's possible to avoid check for nullability everywhere in the code.

data.Match(
    Success: value => ProcessData(value),
    Failure: reason => Console.WriteLine($"Something went wrong: {reason}")
);

Optionally it's possible transform one IResult<T> into another IResult<U> of different type using Map and FlatMap.

IResult<int> result = <<...>>;
IResult<string> result.Map(value => value.toString());

If result represents an failure all calls to Map and FlatMap are ignored. See FaunaDB.Types.Result.

How to work with user defined classes

Instead of manually creating your objects via the DSL (e.g. the Obj() method), you may use the Encoder class to convert a user-defined type into the equivalent Value type.

For example:

class Product
{
    [FaunaField("description")]
    public string Description { get; set; }

    [FaunaField("price")]
    public double Price { get; set; }

    [FaunaConstructor]
    public Product(string description, double price)
    {
        Description = description;
        Price = price;
    }
}

To persist an instance of Product in FaunaDB:

Product product = new Product("Smartphone", 649.90);

await client.Query(
    Create(
        Collection("product"),
        Obj("data", Encoder.Encode(product))
    )
);

To convert from a Value type back to the Product type, you can use a Decoder:

Value value = await client.Query(Get(Ref(Collection("product"), "123456789")));

Product product = Decoder.Decode<Product>(value.At("data"));

or via the To<T>() helper method:

Value value = await client.Query(Get(Ref(Collection("product"), "123456789")));

IResult<Product> product = value.At("data").To<Product>();
product.Match(
    Success: p => Console.WriteLine("Product loaded: {0}", p.Description),
    Failure: reason => Console.WriteLine($"Something went wrong: {reason}")
);

// or even:

Product productLoaded = value.At("data").To<Product>().Value;
Console.WriteLine("Product loaded: {0}", prod.Description);

Note that in this case the return type is IResult<T>.

There are three attributes that can be used to change the behavior of the Encoder and Decoder:

FaunaField: Used to override a custom field name and/or provide a default value for that field. If this attribute is not specified, the member name will be used instead. Can be used on fields, properties and constructor arguments.
FaunaConstructor: Used to mark a constructor or a public static method as the method used to instantiate the specified type. This attribute can be used only once per class.
FaunaIgnore: Used to ignore a specific member. Can be used on fields, properties and constructors arguments. If used on a constructor argument, that argument must have a default value.

Encoder and Decoder can currently convert:

Primitive scalar types (int, long, string, etc.)
Primitive arrays, generic collections such as List<T>, and their respective interfaces such as IList<T>.
Dictionaries with string keys, such as Dictionary<string, T> and its respective interface IDictionary<string, T>.

Exceptions handling

With the 5.0.0 release, child classes of the base FaunaException class now exist. For example:

public class AuthenticationFailedException : FaunaException
{
    public AuthenticationFailedException(int httpStatusCode, string message, string[] position) : base(httpStatusCode, ExceptionCodes.AuthenticationFailed, message, position) { }
}

public class InvalidArgumentException : FaunaException
{
    public InvalidArgumentException(int httpStatusCode, string message, string[] position) : base(httpStatusCode, ExceptionCodes.InvalidArgument, message, position) { }
}

public class TransactionAbortedException : FaunaException
{
    public TransactionAbortedException(int httpStatusCode, string message, string[] position) : base(httpStatusCode, ExceptionCodes.TransactionAborted, message, position) { }
}

Each class corresponds to an error code from Fauna. Inspect the FaunaException.cs file for more information on how it is implemented.

The following example demonstrates the methods that you can access from the exception object:

try
{
    adminClient.Query(ToDouble(Now()));
}
catch (InvalidArgumentException e)
{
    Console.WriteLine(e.HttpStatusCode);
    Console.WriteLine(e.Message);
    Console.WriteLine(e.Position);
}

Document streaming

Fauna supports document streaming, where changes to a streamed document are pushed to all clients subscribing to that document.

The streaming API is built using the Observer pattern which enables a subscriber to register with and receive notifications from a provider.
Provider is implemented within StreamingEventHandler class, and subscriber within StreamingEventMonitor class.

The following example assumes that you have already created a FaunaClient.

In the example below, we are capturing the 4 first messages by manually binding a subscriber.

// docRef is a reference to the document for which we want to stream updates.
// You can acquire a document reference with a query like the following, but it
// needs to work with the documents that you have.
// var docRef = Get(Ref(Collection("scoreboards"), "123"));

// create a data provider
var provider = await adminClient.Stream(docRef);

// we use this object to signalize a completion of
// asynchronous operation for the current example
var done = new TaskCompletionSource<object>();

// a collection for storage of incoming events from the provider
List<Value> events = new List<Value>();

// creating a subscriber
// it takes 3 lambdas that describe the following:
// - next event processing
// - error processing
// - completion processing
var monitor = new StreamingEventMonitor(
    value =>
    {
        events.Add(value);
        if (events.Count == 4)
        {
            provider.Complete();
        }
        else
        {
            provider.RequestData();
        }
    },
    ex => { done.SetException(ex); },
    () => { done.SetResult(null); }
);

// subscribe to data provider
monitor.Subscribe(provider);

// blocking until we receive all the events
await done.Task;

// clear the subscription
monitor.Unsubscribe();

You can also extend a base class instead of passing lambdas:

private class MyStreamingMonitor : StreamingEventMonitor
{
    // optionally override OnNext event
    public override void OnNext(Value value)
    {
        // process your event
        RequestData();
    }

    // optionally override OnError event
    public override void OnError(Exception error)
    {
        // process an error
    }

    // optionally override OnCompleted event
    public override void OnCompleted()
    {
        // process completion event
    }
}

// creating a subscriber
var monitor = new MyStreamingMonitor();

// subscribe to data provider
monitor.Subscribe(provider);

// clear the subscription
monitor.Unsubscribe();

License

Licensed under the Mozilla Public License, Version 2.0 (the "License"); you may not use this software except in compliance with the License. You may obtain a copy of the License at

http://mozilla.org/MPL/2.0/

Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.