FluentHttpClient is a modern async HTTP client for REST APIs. Its fluent interface lets you send an HTTP request and parse the response in one go — hiding away the gritty details like deserialisation, content negotiation, optional retry logic, and URL encoding:
Blog result = await new FluentClient("https://example.org/api")
.GetAsync("blogs")
.WithArgument("id", 15)
.WithBearerAuthentication(token)
.As<Blog>();Designed with discoverability and extensibility as core principles, just autocomplete to see which methods are available at each step.
Install it from NuGet:
Install-Package Pathoschild.Http.FluentClient
The client works on most platforms (including Linux, Mac, and Windows):
| platform | min version |
|---|---|
| .NET Core | 1.0 |
| .NET Framework | 4.5 |
| .NET Standard | 1.3 |
| Mono | 4.6 |
| Unity | 2018.1 |
| Universal Windows Platform | 10.0 |
| Xamarin.Android | 7.0 |
| Xamarin.iOS | 10.0 |
| Xamarin.Mac | 3.0 |
Just create the client and chain methods to set up the request/response. For example, this
sends a GET request and deserializes the response into a custom Item class based on content
negotiation:
Item item = await new FluentClient()
.GetAsync("https://example.org/api/items/14")
.As<Item>();You can also reuse the client for many requests (which improves performance using the built-in connection pool), and set a base URL in the constructor:
using var client = new FluentClient("https://example.org/api");
Item item = await client
.GetAsync("items/14")
.As<Item>();The client provides methods for DELETE, GET, POST, PUT, and PATCH out of the box. You can
also use SendAsync to craft a custom HTTP request.
You can add any number of arguments to the request URL with an anonymous object:
await client
.PostAsync("items/14")
.WithArguments(new { page = 1, search = "some search text" });Or with a dictionary:
await client
.PostAsync("items/14")
.WithArguments(new Dictionary<string, object> { … });Or individually:
await client
.PostAsync("items/14")
.WithArgument("page", 1)
.WithArgument("search", "some search text");You can add a model body directly in a POST or PUT:
await client.PostAsync("search", new SearchOptions(…));Or add it to any request:
await client
.GetAsync("search")
.WithBody(new SearchOptions(…));Or provide it in various formats:
| format | example |
|---|---|
| serialized model | WithBody(new ExampleModel()) |
| form URL encoded | WithBody(p => p.FormUrlEncoded(values)) |
| file upload | WithBody(p => p.FileUpload(files)) |
HttpContent |
WithBody(httpContent) |
You can add any number of headers:
await client
.PostAsync("items/14")
.WithHeader("User-Agent", "Some Bot/1.0.0")
.WithHeader("Content-Type", "application/json");Or use methods for common headers like WithAuthentication, WithBasicAuthentication,
WithBearerAuthentication, and SetUserAgent.
(Basic headers like Content-Type and User-Agent will be added automatically if you omit them.)
You can parse the response by awaiting an As* method:
await client
.GetAsync("items")
.AsArray<Item>();Here are the available formats:
| type | method |
|---|---|
Item |
As<Item>() |
Item[] |
AsArray<Item>() |
byte[] |
AsByteArray() |
string |
AsString() |
Stream |
AsStream() |
JToken |
AsRawJson() |
JObject |
AsRawJsonObject() |
JArray |
AsRawJsonArray() |
The AsRawJson method can also return dynamic to avoid needing a model class:
dynamic item = await client
.GetAsync("items/14")
.AsRawJsonObject();
string author = item.Author.Name;If you don't need the content, you can just await the request:
await client.PostAsync("items", new Item(…));By default the client will throw ApiException if the server returns an error code:
try
{
await client.Get("items");
}
catch(ApiException ex)
{
string responseText = await ex.Response.AsString();
throw new Exception($"The API responded with HTTP {ex.Response.Status}: {responseText}");
}If you don't want that, you can...
-
disable it for one request:
IResponse response = await client .GetAsync("items") .WithOptions(ignoreHttpErrors: true);
-
disable it for all requests:
client.SetOptions(ignoreHttpErrors: true);
The previous examples parse the response directly, but sometimes you want to peek at the HTTP metadata:
IResponse response = await client.GetAsync("messages/latest");
if (response.IsSuccessStatusCode || response.Status == HttpStatusCode.Found)
return response.AsArray<T>();The client won't retry failed requests by default, but that's easy to configure:
client
.SetRequestCoordinator(
maxRetries: 3,
shouldRetry: request => request.StatusCode != HttpStatusCode.OK,
getDelay: (attempt, response) => TimeSpan.FromSeconds(attempt * 5) // wait 5, 10, and 15 seconds
);The client fully supports .NET cancellation tokens if you need to abort requests:
var tokenSource = new CancellationTokenSource();
await client
.PostAsync(…)
.WithCancellationToken(tokenSource.Token);
tokenSource.Cancel();You can make changes directly to the HTTP request before it's sent:
client
.GetAsync("items")
.WithCustom(request =>
{
request.Method = HttpMethod.Post;
request.Headers.CacheControl = new CacheControlHeaderValue { MaxAge = TimeSpan.FromMinutes(30) };
});The client is built around the async and await keywords, but you can use the client
synchronously. That's not recommended — it complicates error-handling (e.g. errors get wrapped
into AggregateException), and it's very easy to cause thread deadlocks when you do this (see
Parallel Programming with .NET: Await, and UI, and deadlocks! Oh my! and
Don't Block on Async Code).
If you really need to use it synchronously, you can just call the Result property:
Item item = client.GetAsync("items/14").Result;Or if you don't need the response:
client.PostAsync("items", new Item(…)).AsResponse().Wait();The client supports JSON and XML out of the box. If you need more, you can...
-
Add any of the existing media type formatters:
client.Formatters.Add(new YamlFormatter());
-
Create your own by subclassing
MediaTypeFormatter(optionally using the includedMediaTypeFormatterBaseclass).
You can read and change the underlying HTTP requests and responses by creating IHttpFilter
implementations. They can be useful for automating custom authentication or error-handling.
For example, the default error-handling is just a filter:
/// <summary>Method invoked just after the HTTP response is received. This method can modify the incoming HTTP response.</summary>
/// <param name="response">The HTTP response.</param>
/// <param name="httpErrorAsException">Whether HTTP error responses (e.g. HTTP 404) should be raised as exceptions.</param>
public void OnResponse(IResponse response, bool httpErrorAsException)
{
if (httpErrorAsException && !response.Message.IsSuccessStatusCode)
throw new ApiException(response, $"The API query failed with status code {response.Message.StatusCode}: {response.Message.ReasonPhrase}");
}...which you can replace with your own:
client.Filters.Remove<DefaultErrorFilter>();
client.Filters.Add(new YourErrorFilter());You can do much more with HTTP filters by editing the requests before they're sent or the responses before they're parsed:
/// <summary>Method invoked just before the HTTP request is submitted. This method can modify the outgoing HTTP request.</summary>
/// <param name="request">The HTTP request.</param>
public void OnRequest(IRequest request)
{
// example only — you'd normally use a method like client.SetAuthentication(…) instead.
request.Message.Headers.Authorization = new AuthenticationHeaderValue("token", "…");
}You can implement IRequestCoordinator to control how requests are dispatched. For example, here's
a retry coordinator using Polly:
/// <summary>A request coordinator which retries failed requests with a delay between each attempt.</summary>
public class RetryCoordinator : IRequestCoordinator
{
/// <summary>Dispatch an HTTP request.</summary>
/// <param name="request">The response message to validate.</param>
/// <param name="send">Dispatcher that executes the request.</param>
/// <returns>The final HTTP response.</returns>
public Task<HttpResponseMessage> ExecuteAsync(IRequest request, Func<IRequest, Task<HttpResponseMessage>> send)
{
HttpStatusCode[] retryCodes = { HttpStatusCode.GatewayTimeout, HttpStatusCode.RequestTimeout };
return Policy
.HandleResult<HttpResponseMessage>(request => retryCodes.Contains(request.StatusCode)) // should we retry?
.WaitAndRetryAsync(3, attempt => TimeSpan.FromSeconds(attempt)) // up to 3 retries with increasing delay
.ExecuteAsync(() => send(request)); // begin handling request
}
}...and here's how you'd set it:
client.SetRequestCoordinator(new RetryCoordinator());(You can only have one request coordinator on the client; you should use HTTP filters instead for most overrides.)
For advanced scenarios, you can customise the underlying HttpClient and HttpClientHandler. See the next section for an example.
Here's how to create mock requests for unit testing using RichardSzalay.MockHttp:
// create mock
var mockHandler = new MockHttpMessageHandler();
mockHandler.When(HttpMethod.Get, "https://example.org/api/items").Respond(HttpStatusCode.OK, testRequest => new StringContent("[]"));
// create client
var client = new FluentClient("https://example.org/api", new HttpClient(mockHandler));