Refit based web api client management, but resilient (retry, connectivity, cache, auth, log, priority, etc...)
The Apizr project was motivated by this 2015 famous blog post about resilient networking.
Its main focus was to address at least everything explained into this article, meanning:
- Easy access to restful services
- Work offline with cache management
- Handle errors with retry pattern and global catching
- Handle request priority
- Check connectivity
- Fast development time
- Easy maintenance
- Reuse existing libraries
But also, some more core features like:
- Trace http traffic
- Handle authentication
And more integration/extension independent optional features like:
- Choose cache, log and connectivity providers
- Register it as an MS DI extension
- Map model with DTO
- Use Mediator pattern
- Manage file transfers
The list is not exhaustive, there’s more, but what we wanted was playing with all of it with as less code as we could, not worrying about plumbing things and being sure everything is wired and handled by design or almost.
Inspired by Refit.Insane.PowerPack, we wanted to make it simple to use, mixing attribute decorations and fluent configuration.
An api definition with some attributes:
// (Polly) Define a resilience pipeline key
// OR use Microsoft Resilience instead
[assembly:ResiliencePipeline("TransientHttpError")]
namespace Apizr.Sample
{
// (Apizr) Define your web api base url and ask for cache and logs
[BaseAddress("https://reqres.in/"),
Cache(CacheMode.FetchOrGet, "01:00:00"),
Log(HttpMessageParts.AllButBodies)]
public interface IReqResService
{
// (Refit) Define your web api interface methods
[Get("/api/users")]
Task<UserList> GetUsersAsync([RequestOptions] IApizrRequestOptions options);
[Get("/api/users/{userId}")]
Task<UserDetails> GetUserAsync([CacheKey] int userId, [RequestOptions] IApizrRequestOptions options);
[Post("/api/users")]
Task<User> CreateUser(User user, [RequestOptions] IApizrRequestOptions options);
}
}
Some resilience strategies:
// (Polly) Create a resilience pipeline (if not using Microsoft Resilience)
var resiliencePipelineBuilder = new ResiliencePipelineBuilder<HttpResponseMessage>()
.AddRetry(
new RetryStrategyOptions<HttpResponseMessage>
{
ShouldHandle = new PredicateBuilder<HttpResponseMessage>()
.Handle<HttpRequestException>()
.HandleResult(response =>
response.StatusCode is >= HttpStatusCode.InternalServerError
or HttpStatusCode.RequestTimeout),
Delay = TimeSpan.FromSeconds(1),
MaxRetryAttempts = 3,
UseJitter = true,
BackoffType = DelayBackoffType.Exponential
});
An instance of this managed api:
Relies on IServiceCollection
extension methods approach.
// (Logger) Configure logging the way you want, like
services.AddLogging(loggingBuilder => loggingBuilder.AddDebug());
// (Apizr) Add an Apizr manager for the defined api to your container
services.AddApizrManagerFor<IReqResService>(
options => options
// With a cache handler
.WithAkavacheCacheHandler()
// If using Microsoft Resilience
.ConfigureHttpClientBuilder(builder => builder
.AddStandardResilienceHandler()));
// (Polly) Add the resilience pipeline (if not using Microsoft Resilience)
services.AddResiliencePipeline<string, HttpResponseMessage>("TransientHttpError",
builder => builder.AddPipeline(resiliencePipelineBuilder.Build()));
...
// (Apizr) Get your manager instance the way you want, like
var reqResManager = serviceProvider.GetRequiredService<IApizrManager<IReqResService>>();
Relies on static builder instantiation approach.
// (Polly) Add the resilience pipeline with its key to a registry
var resiliencePipelineRegistry = new ResiliencePipelineRegistry<string>();
resiliencePipelineRegistry.TryAddBuilder<HttpResponseMessage>("TransientHttpError",
(builder, _) => builder.AddPipeline(resiliencePipelineBuilder.Build()));
// (Apizr) Get your manager instance
var reqResManager = ApizrBuilder.Current.CreateManagerFor<IReqResService>(
options => options
// With a logger
.WithLoggerFactory(LoggerFactory.Create(loggingBuilder =>
loggingBuilder.Debug()))
// With the defined resilience pipeline registry
.WithResiliencePipelineRegistry(resiliencePipelineRegistry)
// And with a cache handler
.WithAkavacheCacheHandler());
And then you're good to go:
var userList = await reqResManager.ExecuteAsync((api, opt) => api.GetUsersAsync(opt));
This request will be managed with the defined resilience strategies, data cached and all logged.
Apizr has a lot more to offer, just read the doc!
- Please read the Change Log to get a picture of what's in.
- Please read the Breaking changes to get a picture of what's changed.
Project | Current | Upcoming |
---|---|---|
Apizr | ||
Apizr.Extensions.Microsoft.DependencyInjection |
Project | Current | Upcoming |
---|---|---|
Apizr.Extensions.Microsoft.Caching | ||
Apizr.Integrations.Akavache | ||
Apizr.Integrations.MonkeyCache |
Project | Current | Upcoming |
---|---|---|
Apizr.Integrations.Fusillade | ||
Apizr.Integrations.MediatR |
Project | Current | Upcoming |
---|---|---|
Apizr.Integrations.AutoMapper | ||
Apizr.Integrations.Mapster |
Project | Current | Upcoming |
---|---|---|
Apizr.Integrations.FileTransfer | ||
Apizr.Extensions.Microsoft.FileTransfer | ||
Apizr.Integrations.FileTransfer.MediatR |
Project | Current | Upcoming |
---|---|---|
Refitter | ||
Refitter.SourceGenerator |
Install the NuGet reference package of your choice:
- Apizr package comes with the static builder instantiation approach (which you can register in your DI container then)
- Apizr.Extensions.Microsoft.DependencyInjection package extends your IServiceCollection with AddApizr, AddApizrFor and AddApizrCrudFor registration methods
- Apizr.Extensions.Microsoft.Caching package brings an ICacheHandler method mapping implementation for MS Extensions Caching
- Apizr.Integrations.Akavache package brings an ICacheHandler method mapping implementation for Akavache
- Apizr.Integrations.MonkeyCache package brings an ICacheHandler method mapping implementation for MonkeyCache
- Apizr.Integrations.Fusillade package enables request priority management using Fusillade
- Apizr.Integrations.MediatR package enables request auto handling with mediation using MediatR
- Apizr.Integrations.AutoMapper package enables data mapping using AutoMapper
- Apizr.Integrations.Mapster package enables data mapping using Mapster
- Apizr.Integrations.FileTransfer package enables file transfer management for static registration
- Apizr.Extensions.Microsoft.FileTransfer package enables file transfer management for extended registration
- Apizr.Integrations.FileTransfer.MediatR package enables file transfer management for mediation requests (requires MediatR integration) using MediatR
Choose which generating approach suites to your needs by installing either:
- Refitter .NET CLI Tool distributed via nuget.org that outputs a single C# file on disk
- Refiiter C# Source Generator via the Refitter.SourceGenerator package that generates code on compile time based on a .refitter within the project directory.
Apizr core package make use of well known nuget packages to make the magic appear:
Package | Features |
---|---|
Refit | Auto-implement web api interface and deal with HttpClient |
Polly.Extensions | Apply some policies like Retry, CircuitBreaker, etc... |
Microsoft.Extensions.Logging.Abstractions | Delegate logging layer to MS Extensions Logging |
It also comes with some handling interfaces to let you provide your own services for:
- Caching with ICacheHandler, which comes with its default VoidCacheHandler (no cache), but also with:
- InMemoryCacheHandler & DistributedCacheHandler: MS Extensions Caching methods mapping interface (Integration package referenced above), meaning you can provide any compatible caching engine
- AkavacheCacheHandler: Akavache methods mapping interface (Integration package referenced above)
- MonkeyCacheHandler: MonkeyCache methods mapping interface (Integration package referenced above)
- Logging As Apizr relies on official MS ILogger interface, you may want to provide any compatible logging engine (built-in DebugLogger activated by default)
- Connectivity with IConnectivityHandler, which comes with its default VoidConnectivityHandler (no connectivity check)
- Mapping with IMappingHandler, which comes with its default VoidMappingHandler (no mapping conversion), but also with:
- AutoMapperMappingHandler: AutoMapper mapping methods mapping interface (Integration package referenced above)
- MapsterMappingHandler: Mapster mapping methods mapping interface (Integration package referenced above)