Related
Given the well known dilemma's and issues of using HttpClient - namely socket exhaustion and not respecting DNS updates, its considered best practice to use IHttpClientFactory and let the container decide when and how to utilise http pool connections efficiency. Which is all good, but now I cannot instantiate a custom DelegatingHandler with custom data on each request.
Sample below on how I did it before using the factory method:
public class HttpClientInterceptor : DelegatingHandler
{
private readonly int _id;
public HttpClientInterceptor(int id)
{
_id = id;
}
protected override async Task<HttpResponseMessage> SendAsync(HttpRequestMessage request, CancellationToken cancellationToken)
{
// associate the id with this request
Database.InsertEnquiry(_id, request);
return await base.SendAsync(request, cancellationToken);
}
}
For every time I instantiate a HttpClient a Id can be passed along:
public void DoEnquiry()
{
// Insert a new enquiry hypothetically
int id = Database.InsertNewEnquiry();
using (var http = new HttpClient(new HttpClientInterceptor(id)))
{
// and do some operations on the http client
// which will be logged in the database associated with id
http.GetStringAsync("http://url.com");
}
}
But now I cannot instantiate the HttpClient nor the Handlers.
public void DoEnquiry(IHttpClientFactory factory)
{
int id = Database.InsertNewEnquiry();
var http = factory.CreateClient();
// and now??
http.GetStringAsync("http://url.com");
}
How would I be able to achieve similar using the factory?
I cannot instantiate a custom DelegatingHandler with custom data on each request.
This is correct. But you can use a custom DelegatingHandler that is reusable (and stateless), and pass the data as part of the request. This is what HttpRequestMessage.Properties is for. When doing these kinds of "custom context" operations, I prefer to define my context "property" as an extension method:
public static class HttpRequestExtensions
{
public static HttpRequestMessage WithId(this HttpRequestMessage request, int id)
{
request.Properties[IdKey] = id;
return request;
}
public static int? TryGetId(this HttpRequestMessage request)
{
if (request.Properties.TryGetValue(IdKey, out var value))
return value as int?;
return null;
}
private static readonly string IdKey = Guid.NewGuid().ToString("N");
}
Then you can use it as such in a (reusable) DelegatingHandler:
public class HttpClientInterceptor : DelegatingHandler
{
protected override async Task<HttpResponseMessage> SendAsync(HttpRequestMessage request, CancellationToken cancellationToken)
{
var id = request.TryGetId();
if (id == null)
throw new InvalidOperationException("This request must have an id set.");
// associate the id with this request
Database.InsertEnquiry(id.Value, request);
return await base.SendAsync(request, cancellationToken);
}
}
The disadvantage to this approach is that each callsite then has to specify the id. This means you can't use the built-in convenience methods like GetStringAsync; if you do, the exception above will be thrown. Instead, your code will have to use the lower-level SendAsync method:
var request = new HttpRequestMessage(HttpMethod.Get, "http://url.com");
request.SetId(id);
var response = await client.SendAsync(request);
The calling boilerplate is rather ugly. You can wrap this up into your own GetStringAsync convenience method; something like this should work:
public static class HttpClientExtensions
{
public static async Task<string> GetStringAsync(int id, string url)
{
var request = new HttpRequestMessage(HttpMethod.Get, url);
request.SetId(id);
var response = await client.SendAsync(request);
return await response.Content.ReadAsStringAsync();
}
}
and now your call sites end up looking cleaner again:
public async Task DoEnquiry(IHttpClientFactory factory)
{
int id = Database.InsertNewEnquiry();
var http = factory.CreateClient();
var result = await http.GetStringAsync(id, "http://url.com");
}
I am looking to intercept the returning model from my web.api and run the returning data through a translation service, i.e. Google or Azure for languages other than English. Is there way to add an attribute or additional config to intercept the model, perform the translation, and then return back to the controller?
try this code also add this code
//add this line global.asax file
GlobalConfiguration.Configuration.MessageHandlers.Add(new CustomLogHandler());
public class CustomLogHandler : DelegatingHandler
{
protected override async Task<HttpResponseMessage> SendAsync(HttpRequestMessage request, CancellationToken cancellationToken)
{
var logMetadata = await BuildRequestMetadata(request);
var response = await base.SendAsync(request, cancellationToken);
logMetadata = await BuildResponseMetadata(logMetadata, response);
await SendToLog(logMetadata);
return response;
}
private async Task<LogMetadata> BuildRequestMetadata(HttpRequestMessage request)
{
LogMetadata log = new LogMetadata
{
RequestMethod = request.Method.Method,
RequestTimestamp = DateTime.Now,
RequestUri = request.RequestUri.ToString(),
RequestContent = await request.Content.ReadAsStringAsync(),
};
return log;
}
private async Task<LogMetadata> BuildResponseMetadata(LogMetadata logMetadata, HttpResponseMessage response)
{
logMetadata.ResponseStatusCode = response.StatusCode;
logMetadata.ResponseTimestamp = DateTime.Now;
logMetadata.ResponseContentType = response.Content == null ? string.Empty : response.Content.Headers.ContentType.MediaType;
logMetadata.Response = await response.Content.ReadAsStringAsync();
return logMetadata;
}
private async Task<bool> SendToLog(LogMetadata logMetadata)
{
try
{
//write this code
}
catch
{
return false;
}
return true;
}
}
I have a delegating handler that throws specific exceptions based on fault messages received from the server.
This allows the client to retry (using polly, but as you'll see the mechanism doesn't matter)
After two failed attempts the third attempt simply hangs. No data hits the server, and nothing further happens. This seems to be because the HttpClient has a max of two connections, which suggests these connections are not being closed properly.
Is there something I can do to close the connection or should I change the design so that the delegating handlers do not throw exceptions?
See simple example below to reproduce
private class Test : DelegatingHandler
{
protected override async Task<HttpResponseMessage> SendAsync(HttpRequestMessage request, CancellationToken cancellationToken)
{
var response = await base.SendAsync(request, cancellationToken);
throw new Exception("afesaf");
}
}
[HttpGet]
[Route("B")]
public async Task B()
{
var handler = new HttpClientHandler();
var pipeline = HttpClientFactory.CreatePipeline(handler, new[] { new Test() });
var http = new HttpClient(pipeline);
http.BaseAddress = new Uri("http://google.com");
var count = 0;
while (count++ < 5)
try
{
Log.Info("A");
var request = new HttpRequestMessage(HttpMethod.Get, "");
await http.SendAsync(request, HttpCompletionOption.ResponseContentRead, CancellationToken.None).ConfigureAwait(false);
}
catch
{
}
}
Dispose of the response object.
I've gone with the following in the delegating handler as I have multiple points where the exception could be thrown in the real code
protected override async Task<HttpResponseMessage> SendAsync(HttpRequestMessage request, CancellationToken cancellationToken)
{
HttpResponseMessage response = null;
try
{
response = await base.SendAsync(request, cancellationToken);
throw new Exception("afesaf");
}
catch
{
response?.Dispose();
throw
}
}
I am building a function that given an HttpContent Object, will issues request and retry on failure. However I get exceptions saying that HttpContent Object is disposed after issuing the request. Is there anyway to copy or duplicate the HttpContent Object so that I can issue multiple requests.
public HttpResponseMessage ExecuteWithRetry(string url, HttpContent content)
{
HttpResponseMessage result = null;
bool success = false;
do
{
using (var client = new HttpClient())
{
result = client.PostAsync(url, content).Result;
success = result.IsSuccessStatusCode;
}
}
while (!success);
return result;
}
// Works with no exception if first request is successful
ExecuteWithRetry("http://www.requestb.in/xfxcva" /*valid url*/, new StringContent("Hello World"));
// Throws if request has to be retried ...
ExecuteWithRetry("http://www.requestb.in/badurl" /*invalid url*/, new StringContent("Hello World"));
(Obviously I don't try indefinitely but the code above is essentially what i want).
It yields this exception
System.AggregateException: One or more errors occurred. ---> System.ObjectDisposedException: Cannot access a disposed object.
Object name: 'System.Net.Http.StringContent'.
at System.Net.Http.HttpContent.CheckDisposed()
at System.Net.Http.HttpContent.CopyToAsync(Stream stream, TransportContext context)
at System.Net.Http.HttpClientHandler.GetRequestStreamCallback(IAsyncResult ar)
--- End of inner exception stack trace ---
at System.Threading.Tasks.Task.ThrowIfExceptional(Boolean includeTaskCanceledExceptions)
at System.Threading.Tasks.Task`1.GetResultCore(Boolean waitCompletionNotification)
at System.Threading.Tasks.Task`1.get_Result()
at Submission#8.ExecuteWithRetry(String url, HttpContent content)
Is there anyway to duplicate an HttpContent Object or reuse it?
Instead of implementing retry functionality that wraps the HttpClient, consider constructing the HttpClient with a HttpMessageHandler that performs the retry logic internally. For example:
public class RetryHandler : DelegatingHandler
{
// Strongly consider limiting the number of retries - "retry forever" is
// probably not the most user friendly way you could respond to "the
// network cable got pulled out."
private const int MaxRetries = 3;
public RetryHandler(HttpMessageHandler innerHandler)
: base(innerHandler)
{ }
protected override async Task<HttpResponseMessage> SendAsync(
HttpRequestMessage request,
CancellationToken cancellationToken)
{
HttpResponseMessage response = null;
for (int i = 0; i < MaxRetries; i++)
{
response = await base.SendAsync(request, cancellationToken);
if (response.IsSuccessStatusCode) {
return response;
}
}
return response;
}
}
public class BusinessLogic
{
public void FetchSomeThingsSynchronously()
{
// ...
// Consider abstracting this construction to a factory or IoC container
using (var client = new HttpClient(new RetryHandler(new HttpClientHandler())))
{
myResult = client.PostAsync(yourUri, yourHttpContent).Result;
}
// ...
}
}
ASP.NET Core 2.1 Answer
ASP.NET Core 2.1 added support for Polly directly. Here UnreliableEndpointCallerService is a class which accepts a HttpClient in its constructor. Failed requests will retry with an exponential back-off so that the next retry takes place in an exponentially longer time after the previous one:
services
.AddHttpClient<UnreliableEndpointCallerService>()
.AddTransientHttpErrorPolicy(
x => x.WaitAndRetryAsync(3, retryAttempt => TimeSpan.FromSeconds(Math.Pow(3, retryAttempt)));
Also, consider reading my blog post "Optimally Configuring HttpClientFactory".
Other Platforms Answer
This implementation uses Polly to retry with an exponential back-off so that the next retry takes place in an exponentially longer time after the previous one. It also retries if a HttpRequestException or TaskCanceledException is thrown due to a timeout. Polly is much easier to use than Topaz.
public class HttpRetryMessageHandler : DelegatingHandler
{
public HttpRetryMessageHandler(HttpClientHandler handler) : base(handler) {}
protected override Task<HttpResponseMessage> SendAsync(
HttpRequestMessage request,
CancellationToken cancellationToken) =>
Policy
.Handle<HttpRequestException>()
.Or<TaskCanceledException>()
.OrResult<HttpResponseMessage>(x => !x.IsSuccessStatusCode)
.WaitAndRetryAsync(3, retryAttempt => TimeSpan.FromSeconds(Math.Pow(3, retryAttempt)))
.ExecuteAsync(() => base.SendAsync(request, cancellationToken));
}
using (var client = new HttpClient(new HttpRetryMessageHandler(new HttpClientHandler())))
{
var result = await client.GetAsync("http://example.com");
}
The current answers won't work as expected in all cases, specifically in the very common case of request timeout (see my comments there).
In addition, they implement a very naive retry strategy - many times you'd want something a bit more sophosticated, such as exponential backoff (which is the default in the Azure Storage Client API).
I stumbled upon TOPAZ while reading a related blog post (also offering the misguided internal retry approach). Here's what I came up with:
// sample usage: var response = await RequestAsync(() => httpClient.GetAsync(url));
Task<HttpResponseMessage> RequestAsync(Func<Task<HttpResponseMessage>> requester)
{
var retryPolicy = new RetryPolicy(transientErrorDetectionStrategy, retryStrategy);
//you can subscribe to the RetryPolicy.Retrying event here to be notified
//of retry attempts (e.g. for logging purposes)
return retryPolicy.ExecuteAsync(async () =>
{
HttpResponseMessage response;
try
{
response = await requester().ConfigureAwait(false);
}
catch (TaskCanceledException e) //HttpClient throws this on timeout
{
//we need to convert it to a different exception
//otherwise ExecuteAsync will think we requested cancellation
throw new HttpRequestException("Request timed out", e);
}
//assuming you treat an unsuccessful status code as an error
//otherwise just return the respone here
return response.EnsureSuccessStatusCode();
});
}
Note the requester delegate parameter. It should not be an HttpRequestMessage since you can't send the same request multiple times. As for the strategies, that depends on your use case. For example, a transient error detection strategy could be as simple as:
private sealed class TransientErrorCatchAllStrategy : ITransientErrorDetectionStrategy
{
public bool IsTransient(Exception ex)
{
return true;
}
}
As for the retry strategy, TOPAZ offers three options:
FixedInterval
Incremental
ExponentialBackoff
For example, here's the TOPAZ equivalent of what the Azure Client Storage Library uses for default:
int retries = 3;
var minBackoff = TimeSpan.FromSeconds(3.0);
var maxBackoff = TimeSpan.FromSeconds(120.0);
var deltaBackoff= TimeSpan.FromSeconds(4.0);
var strategy = new ExponentialBackoff(retries, minBackoff, maxBackoff, deltaBackoff);
For more information see http://msdn.microsoft.com/en-us/library/hh680901(v=pandp.50).aspx
EDIT Note that if your request contains an HttpContent object, you'll have to regenerate it every time as that will be disposed by HttpClient as well (thanks for catching that Alexandre Pepin). For example () => httpClient.PostAsync(url, new StringContent("foo"))).
Duplicating the StringContent isn't probably the best idea. But simple modification could fix the problem. Just modify the function and create the StringContent object inside of the loop, something like:
public HttpResponseMessage ExecuteWithRetry(string url, string contentString)
{
HttpResponseMessage result = null;
bool success = false;
using (var client = new HttpClient())
{
do
{
result = client.PostAsync(url, new StringContent(contentString)).Result;
success = result.IsSuccessStatusCode;
}
while (!success);
}
return result;
}
and then call it
ExecuteWithRetry("http://www.requestb.in/xfxcva" /*valid url*/, "Hello World");
This is what I achieved using polly.
nuget
https://www.nuget.org/packages/Microsoft.Extensions.Http.Polly
https://www.nuget.org/packages/Polly
using Polly;
using Polly.Extensions.Http;
//// inside configure service
services.AddHttpClient("RetryHttpClient", c =>
{
c.BaseAddress = new Uri($"{configuration["ExternalApis:MyApi"]}/");
c.DefaultRequestHeaders.Add("Accept", "application/json");
c.Timeout = TimeSpan.FromMinutes(5);
c.DefaultRequestHeaders.ConnectionClose = true;
}).AddPolicyHandler(GetRetryPolicy());
//// add this method to give retry policy
private static IAsyncPolicy<HttpResponseMessage> GetRetryPolicy()
{
return HttpPolicyExtensions
//// 408,5xx
.HandleTransientHttpError()
//// 404
.OrResult(msg => msg.StatusCode == HttpStatusCode.NotFound)
//// 401
.OrResult(msg => msg.StatusCode == HttpStatusCode.Unauthorized)
//// Retry 3 times, with wait 1,2 and 4 seconds.
.WaitAndRetryAsync(3, retryAttempt => TimeSpan.FromSeconds(Math.Pow(2, retryAttempt)));
}
This builds off the accepted answer but adds the ability to pass in the amount of retries, plus the ability to add non-blocking delays / wait time to each request. It also uses a try catch to ensure the retry continues to happen after an exception has occurred. And last, I added code to break out of the loop in the case of BadRequests, you don't want to resend the same bad request multiple times.
public class HttpRetryHandler : DelegatingHandler
{
private int MaxRetries;
private int WaitTime;
public HttpRetryHandler(HttpMessageHandler innerHandler, int maxRetries = 3, int waitSeconds = 0)
: base(innerHandler)
{
MaxRetries = maxRetries;
WaitTime = waitSeconds * 1000;
}
protected override async Task<HttpResponseMessage> SendAsync(HttpRequestMessage request, CancellationToken cancellationToken)
{
HttpResponseMessage response = null;
for (int i = 0; i < MaxRetries; i++)
{
try
{
response = await base.SendAsync(request, cancellationToken);
if (response.IsSuccessStatusCode)
{
return response;
}
else if(response.StatusCode == HttpStatusCode.BadRequest)
{
// Don't reattempt a bad request
break;
}
}
catch
{
// Ignore Error As We Will Attempt Again
}
finally
{
response.Dispose();
}
if(WaitTime > 0)
{
await Task.Delay(WaitTime);
}
}
return response;
}
}
With RestEase And Task, on retry with httpClient reused in many call (singleton) it frezze and throw TaskCanceledException.
To fix this whe need to Dispose() the failed response before retry
public class RetryHandler : DelegatingHandler
{
// Strongly consider limiting the number of retries - "retry forever" is
// probably not the most user friendly way you could respond to "the
// network cable got pulled out."
private const int MaxRetries = 3;
public RetryHandler(HttpMessageHandler innerHandler)
: base(innerHandler)
{ }
protected override async Task<HttpResponseMessage> SendAsync(
HttpRequestMessage request,
CancellationToken cancellationToken)
{
HttpResponseMessage response = null;
for (int i = 0; i < MaxRetries; i++)
{
response = await base.SendAsync(request, cancellationToken).ConfigureAwait(false);
if (response.IsSuccessStatusCode) {
return response;
}
response.Dispose();
}
return response;
}
}
I tried it and worked while using unit and integration tests. However, it stuck when I actually called from REST URL. I found this interesting post which explains why it gets stuck at this line.
response = await base.SendAsync(request, cancellationToken);
The fix to this is that you have .ConfigureAwait(false) added at the end.
response = await base.SendAsync(request, token).ConfigureAwait(false);
I also added create linked token part there like this.
var linkedToken = cancellationToken.CreateLinkedSource();
linkedToken.CancelAfter(new TimeSpan(0, 0, 5, 0));
var token = linkedToken.Token;
HttpResponseMessage response = null;
for (int i = 0; i < MaxRetries; i++)
{
response = await base.SendAsync(request, token).ConfigureAwait(false);
if (response.IsSuccessStatusCode)
{
return response;
}
}
return response;
You also refer to Building a Transient Retry Handler for the .NET HttpClient.
Visit refer to KARTHIKEYAN VIJAYAKUMAR post.
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
using System.Data.SqlClient;
using System.Net.Http;
using System.Threading;
using System.Diagnostics;
using System.Net;
using Microsoft.Practices.EnterpriseLibrary.TransientFaultHandling;
namespace HttpClientRetyDemo
{
class Program
{
static void Main(string[] args)
{
var url = "http://RestfulUrl";
var httpRequestMessage = new HttpRequestMessage(HttpMethod.Get, url);
var handler = new RetryDelegatingHandler
{
UseDefaultCredentials = true,
PreAuthenticate = true,
Proxy = null
};
HttpClient client = new HttpClient(handler);
var result = client.SendAsync(httpRequestMessage).Result.Content
.ReadAsStringAsync().Result;
Console.WriteLine(result.ToString());
Console.ReadKey();
}
}
/// <summary>
/// Retry Policy = Error Detection Strategy + Retry Strategy
/// </summary>
public static class CustomRetryPolicy
{
public static RetryPolicy MakeHttpRetryPolicy()
{
// The transient fault application block provides three retry policies
// that you can use. These are:
return new RetryPolicy(strategy, exponentialBackoff);
}
}
/// <summary>
/// This class is responsible for deciding whether the response was an intermittent
/// transient error or not.
/// </summary>
public class HttpTransientErrorDetectionStrategy : ITransientErrorDetectionStrategy
{
public bool IsTransient(Exception ex)
{
if (ex != null)
{
HttpRequestExceptionWithStatus httpException;
if ((httpException = ex as HttpRequestExceptionWithStatus) != null)
{
if (httpException.StatusCode == HttpStatusCode.ServiceUnavailable)
{
return true;
}
else if (httpException.StatusCode == HttpStatusCode.MethodNotAllowed)
{
return true;
}
return false;
}
}
return false;
}
}
/// <summary>
/// The retry handler logic is implementing within a Delegating Handler. This has a
/// number of advantages.
/// An instance of the HttpClient can be initialized with a delegating handler making
/// it super easy to add into the request pipeline.
/// It also allows you to apply your own custom logic before the HttpClient sends the
/// request, and after it receives the response.
/// Therefore it provides a perfect mechanism to wrap requests made by the HttpClient
/// with our own custom retry logic.
/// </summary>
class RetryDelegatingHandler : HttpClientHandler
{
public RetryPolicy retryPolicy { get; set; }
public RetryDelegatingHandler()
: base()
{
retryPolicy = CustomRetryPolicy.MakeHttpRetryPolicy();
}
protected async override Task<HttpResponseMessage> SendAsync(
HttpRequestMessage request,
CancellationToken cancellationToken)
{
HttpResponseMessage responseMessage = null;
var currentRetryCount = 0;
//On Retry => increments the retry count
retryPolicy.Retrying += (sender, args) =>
{
currentRetryCount = args.CurrentRetryCount;
};
try
{
await retryPolicy.ExecuteAsync(async () =>
{
responseMessage = await base.SendAsync(request, cancellationToken)
.ConfigureAwait(false);
if ((int)responseMessage.StatusCode > 500)
{
// When it fails after the retries, it would throw the exception
throw new HttpRequestExceptionWithStatus(
string.Format("Response status code {0} indicates server error",
(int)responseMessage.StatusCode))
{
StatusCode = responseMessage.StatusCode,
CurrentRetryCount = currentRetryCount
};
}// returns the response to the main method(from the anonymous method)
return responseMessage;
}, cancellationToken).ConfigureAwait(false);
return responseMessage;// returns from the main method => SendAsync
}
catch (HttpRequestExceptionWithStatus exception)
{
if (exception.CurrentRetryCount >= 3)
{
//write to log
}
if (responseMessage != null)
{
return responseMessage;
}
throw;
}
catch (Exception)
{
if (responseMessage != null)
{
return responseMessage;
}
throw;
}
}
}
/// <summary>
/// Custom HttpRequestException to allow include additional properties on my exception,
/// which can be used to help determine whether the exception is a transient
/// error or not.
/// </summary>
public class HttpRequestExceptionWithStatus : HttpRequestException
{
public HttpStatusCode StatusCode { get; set; }
public int CurrentRetryCount { get; set; }
public HttpRequestExceptionWithStatus()
: base() { }
public HttpRequestExceptionWithStatus(string message)
: base(message) { }
public HttpRequestExceptionWithStatus(string message, Exception inner)
: base(message, inner) { }
}
}
i have almost the same issue.
HttpWebRequest queueing library, which guarantees request delivery
I just updated (see EDIT3) my approach to avoid crashes, but i still need general mechanism to guarantee message delivery (or re-delivery in case message was not delivered).
I have the same problem and solved . it's about the "StringContent" / "HttpContent"
Please check Amogh Natu's Blog which help me to solve this problem
The problem with this code is, when the first call to PostAsync is
made and it fails, the httpContent object is disposed. This is as
designed in the HttpClient class. Refer the comment in this method.
Although this seems odd, they intent to do this so that the user
doesn’t have to do this explicitly and also to avoid the same request
being Posted more than once.
So what happens is, when the first call fails, httpContent is
disposed, then as we have retry mechanism, it tries to make the post
call again, now with a disposed object and hence this time, the call
fails with an ObjectDisposedException.
An easy way to resolve this is to NOT use a variable to store
httpContent and instead, create http content directly while making the
call. Something like this.
http://amoghnatu.net/2017/01/12/cannot-access-a-disposed-object-system-net-http-stringcontent-while-having-retry-logic/
Adding an answer that uses both Polly + Retry policy + per-retry Timeout policy, as top answer does not address that:
Policy
.Handle<HttpRequestException>()
.Or<TaskCanceledException>()
.Or<TimeoutRejectedException>()
.OrResult<HttpResponseMessage>(x => !x.IsSuccessStatusCode)
.WaitAndRetryAsync(3, retryAttempt => TimeSpan.FromSeconds(Math.Pow(3, retryAttempt)))
.WrapAsync(
Policy.TimeoutAsync(TimeSpan.FromSeconds(1), delegate (Context ctx, TimeSpan timeSpan, Task task)
{
// Do some on-timeout action
return Task.CompletedTask;
})
)
.ExecuteAsync(() =>
{
return httpclient.PostAsync(url, httpRequest);
});
//Could retry say 5 times
HttpResponseMessage response;
int numberOfRetry = 0;
using (var httpClient = new HttpClient())
{
do
{
response = await httpClient.PostAsync(uri, content);
numberOfRetry++;
} while (response.IsSuccessStatusCode == false | numberOfRetry < 5);
}
return response;
.........
I am building a function that given an HttpContent Object, will issues request and retry on failure. However I get exceptions saying that HttpContent Object is disposed after issuing the request. Is there anyway to copy or duplicate the HttpContent Object so that I can issue multiple requests.
public HttpResponseMessage ExecuteWithRetry(string url, HttpContent content)
{
HttpResponseMessage result = null;
bool success = false;
do
{
using (var client = new HttpClient())
{
result = client.PostAsync(url, content).Result;
success = result.IsSuccessStatusCode;
}
}
while (!success);
return result;
}
// Works with no exception if first request is successful
ExecuteWithRetry("http://www.requestb.in/xfxcva" /*valid url*/, new StringContent("Hello World"));
// Throws if request has to be retried ...
ExecuteWithRetry("http://www.requestb.in/badurl" /*invalid url*/, new StringContent("Hello World"));
(Obviously I don't try indefinitely but the code above is essentially what i want).
It yields this exception
System.AggregateException: One or more errors occurred. ---> System.ObjectDisposedException: Cannot access a disposed object.
Object name: 'System.Net.Http.StringContent'.
at System.Net.Http.HttpContent.CheckDisposed()
at System.Net.Http.HttpContent.CopyToAsync(Stream stream, TransportContext context)
at System.Net.Http.HttpClientHandler.GetRequestStreamCallback(IAsyncResult ar)
--- End of inner exception stack trace ---
at System.Threading.Tasks.Task.ThrowIfExceptional(Boolean includeTaskCanceledExceptions)
at System.Threading.Tasks.Task`1.GetResultCore(Boolean waitCompletionNotification)
at System.Threading.Tasks.Task`1.get_Result()
at Submission#8.ExecuteWithRetry(String url, HttpContent content)
Is there anyway to duplicate an HttpContent Object or reuse it?
Instead of implementing retry functionality that wraps the HttpClient, consider constructing the HttpClient with a HttpMessageHandler that performs the retry logic internally. For example:
public class RetryHandler : DelegatingHandler
{
// Strongly consider limiting the number of retries - "retry forever" is
// probably not the most user friendly way you could respond to "the
// network cable got pulled out."
private const int MaxRetries = 3;
public RetryHandler(HttpMessageHandler innerHandler)
: base(innerHandler)
{ }
protected override async Task<HttpResponseMessage> SendAsync(
HttpRequestMessage request,
CancellationToken cancellationToken)
{
HttpResponseMessage response = null;
for (int i = 0; i < MaxRetries; i++)
{
response = await base.SendAsync(request, cancellationToken);
if (response.IsSuccessStatusCode) {
return response;
}
}
return response;
}
}
public class BusinessLogic
{
public void FetchSomeThingsSynchronously()
{
// ...
// Consider abstracting this construction to a factory or IoC container
using (var client = new HttpClient(new RetryHandler(new HttpClientHandler())))
{
myResult = client.PostAsync(yourUri, yourHttpContent).Result;
}
// ...
}
}
ASP.NET Core 2.1 Answer
ASP.NET Core 2.1 added support for Polly directly. Here UnreliableEndpointCallerService is a class which accepts a HttpClient in its constructor. Failed requests will retry with an exponential back-off so that the next retry takes place in an exponentially longer time after the previous one:
services
.AddHttpClient<UnreliableEndpointCallerService>()
.AddTransientHttpErrorPolicy(
x => x.WaitAndRetryAsync(3, retryAttempt => TimeSpan.FromSeconds(Math.Pow(3, retryAttempt)));
Also, consider reading my blog post "Optimally Configuring HttpClientFactory".
Other Platforms Answer
This implementation uses Polly to retry with an exponential back-off so that the next retry takes place in an exponentially longer time after the previous one. It also retries if a HttpRequestException or TaskCanceledException is thrown due to a timeout. Polly is much easier to use than Topaz.
public class HttpRetryMessageHandler : DelegatingHandler
{
public HttpRetryMessageHandler(HttpClientHandler handler) : base(handler) {}
protected override Task<HttpResponseMessage> SendAsync(
HttpRequestMessage request,
CancellationToken cancellationToken) =>
Policy
.Handle<HttpRequestException>()
.Or<TaskCanceledException>()
.OrResult<HttpResponseMessage>(x => !x.IsSuccessStatusCode)
.WaitAndRetryAsync(3, retryAttempt => TimeSpan.FromSeconds(Math.Pow(3, retryAttempt)))
.ExecuteAsync(() => base.SendAsync(request, cancellationToken));
}
using (var client = new HttpClient(new HttpRetryMessageHandler(new HttpClientHandler())))
{
var result = await client.GetAsync("http://example.com");
}
The current answers won't work as expected in all cases, specifically in the very common case of request timeout (see my comments there).
In addition, they implement a very naive retry strategy - many times you'd want something a bit more sophosticated, such as exponential backoff (which is the default in the Azure Storage Client API).
I stumbled upon TOPAZ while reading a related blog post (also offering the misguided internal retry approach). Here's what I came up with:
// sample usage: var response = await RequestAsync(() => httpClient.GetAsync(url));
Task<HttpResponseMessage> RequestAsync(Func<Task<HttpResponseMessage>> requester)
{
var retryPolicy = new RetryPolicy(transientErrorDetectionStrategy, retryStrategy);
//you can subscribe to the RetryPolicy.Retrying event here to be notified
//of retry attempts (e.g. for logging purposes)
return retryPolicy.ExecuteAsync(async () =>
{
HttpResponseMessage response;
try
{
response = await requester().ConfigureAwait(false);
}
catch (TaskCanceledException e) //HttpClient throws this on timeout
{
//we need to convert it to a different exception
//otherwise ExecuteAsync will think we requested cancellation
throw new HttpRequestException("Request timed out", e);
}
//assuming you treat an unsuccessful status code as an error
//otherwise just return the respone here
return response.EnsureSuccessStatusCode();
});
}
Note the requester delegate parameter. It should not be an HttpRequestMessage since you can't send the same request multiple times. As for the strategies, that depends on your use case. For example, a transient error detection strategy could be as simple as:
private sealed class TransientErrorCatchAllStrategy : ITransientErrorDetectionStrategy
{
public bool IsTransient(Exception ex)
{
return true;
}
}
As for the retry strategy, TOPAZ offers three options:
FixedInterval
Incremental
ExponentialBackoff
For example, here's the TOPAZ equivalent of what the Azure Client Storage Library uses for default:
int retries = 3;
var minBackoff = TimeSpan.FromSeconds(3.0);
var maxBackoff = TimeSpan.FromSeconds(120.0);
var deltaBackoff= TimeSpan.FromSeconds(4.0);
var strategy = new ExponentialBackoff(retries, minBackoff, maxBackoff, deltaBackoff);
For more information see http://msdn.microsoft.com/en-us/library/hh680901(v=pandp.50).aspx
EDIT Note that if your request contains an HttpContent object, you'll have to regenerate it every time as that will be disposed by HttpClient as well (thanks for catching that Alexandre Pepin). For example () => httpClient.PostAsync(url, new StringContent("foo"))).
Duplicating the StringContent isn't probably the best idea. But simple modification could fix the problem. Just modify the function and create the StringContent object inside of the loop, something like:
public HttpResponseMessage ExecuteWithRetry(string url, string contentString)
{
HttpResponseMessage result = null;
bool success = false;
using (var client = new HttpClient())
{
do
{
result = client.PostAsync(url, new StringContent(contentString)).Result;
success = result.IsSuccessStatusCode;
}
while (!success);
}
return result;
}
and then call it
ExecuteWithRetry("http://www.requestb.in/xfxcva" /*valid url*/, "Hello World");
This is what I achieved using polly.
nuget
https://www.nuget.org/packages/Microsoft.Extensions.Http.Polly
https://www.nuget.org/packages/Polly
using Polly;
using Polly.Extensions.Http;
//// inside configure service
services.AddHttpClient("RetryHttpClient", c =>
{
c.BaseAddress = new Uri($"{configuration["ExternalApis:MyApi"]}/");
c.DefaultRequestHeaders.Add("Accept", "application/json");
c.Timeout = TimeSpan.FromMinutes(5);
c.DefaultRequestHeaders.ConnectionClose = true;
}).AddPolicyHandler(GetRetryPolicy());
//// add this method to give retry policy
private static IAsyncPolicy<HttpResponseMessage> GetRetryPolicy()
{
return HttpPolicyExtensions
//// 408,5xx
.HandleTransientHttpError()
//// 404
.OrResult(msg => msg.StatusCode == HttpStatusCode.NotFound)
//// 401
.OrResult(msg => msg.StatusCode == HttpStatusCode.Unauthorized)
//// Retry 3 times, with wait 1,2 and 4 seconds.
.WaitAndRetryAsync(3, retryAttempt => TimeSpan.FromSeconds(Math.Pow(2, retryAttempt)));
}
This builds off the accepted answer but adds the ability to pass in the amount of retries, plus the ability to add non-blocking delays / wait time to each request. It also uses a try catch to ensure the retry continues to happen after an exception has occurred. And last, I added code to break out of the loop in the case of BadRequests, you don't want to resend the same bad request multiple times.
public class HttpRetryHandler : DelegatingHandler
{
private int MaxRetries;
private int WaitTime;
public HttpRetryHandler(HttpMessageHandler innerHandler, int maxRetries = 3, int waitSeconds = 0)
: base(innerHandler)
{
MaxRetries = maxRetries;
WaitTime = waitSeconds * 1000;
}
protected override async Task<HttpResponseMessage> SendAsync(HttpRequestMessage request, CancellationToken cancellationToken)
{
HttpResponseMessage response = null;
for (int i = 0; i < MaxRetries; i++)
{
try
{
response = await base.SendAsync(request, cancellationToken);
if (response.IsSuccessStatusCode)
{
return response;
}
else if(response.StatusCode == HttpStatusCode.BadRequest)
{
// Don't reattempt a bad request
break;
}
}
catch
{
// Ignore Error As We Will Attempt Again
}
finally
{
response.Dispose();
}
if(WaitTime > 0)
{
await Task.Delay(WaitTime);
}
}
return response;
}
}
With RestEase And Task, on retry with httpClient reused in many call (singleton) it frezze and throw TaskCanceledException.
To fix this whe need to Dispose() the failed response before retry
public class RetryHandler : DelegatingHandler
{
// Strongly consider limiting the number of retries - "retry forever" is
// probably not the most user friendly way you could respond to "the
// network cable got pulled out."
private const int MaxRetries = 3;
public RetryHandler(HttpMessageHandler innerHandler)
: base(innerHandler)
{ }
protected override async Task<HttpResponseMessage> SendAsync(
HttpRequestMessage request,
CancellationToken cancellationToken)
{
HttpResponseMessage response = null;
for (int i = 0; i < MaxRetries; i++)
{
response = await base.SendAsync(request, cancellationToken).ConfigureAwait(false);
if (response.IsSuccessStatusCode) {
return response;
}
response.Dispose();
}
return response;
}
}
I tried it and worked while using unit and integration tests. However, it stuck when I actually called from REST URL. I found this interesting post which explains why it gets stuck at this line.
response = await base.SendAsync(request, cancellationToken);
The fix to this is that you have .ConfigureAwait(false) added at the end.
response = await base.SendAsync(request, token).ConfigureAwait(false);
I also added create linked token part there like this.
var linkedToken = cancellationToken.CreateLinkedSource();
linkedToken.CancelAfter(new TimeSpan(0, 0, 5, 0));
var token = linkedToken.Token;
HttpResponseMessage response = null;
for (int i = 0; i < MaxRetries; i++)
{
response = await base.SendAsync(request, token).ConfigureAwait(false);
if (response.IsSuccessStatusCode)
{
return response;
}
}
return response;
You also refer to Building a Transient Retry Handler for the .NET HttpClient.
Visit refer to KARTHIKEYAN VIJAYAKUMAR post.
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
using System.Data.SqlClient;
using System.Net.Http;
using System.Threading;
using System.Diagnostics;
using System.Net;
using Microsoft.Practices.EnterpriseLibrary.TransientFaultHandling;
namespace HttpClientRetyDemo
{
class Program
{
static void Main(string[] args)
{
var url = "http://RestfulUrl";
var httpRequestMessage = new HttpRequestMessage(HttpMethod.Get, url);
var handler = new RetryDelegatingHandler
{
UseDefaultCredentials = true,
PreAuthenticate = true,
Proxy = null
};
HttpClient client = new HttpClient(handler);
var result = client.SendAsync(httpRequestMessage).Result.Content
.ReadAsStringAsync().Result;
Console.WriteLine(result.ToString());
Console.ReadKey();
}
}
/// <summary>
/// Retry Policy = Error Detection Strategy + Retry Strategy
/// </summary>
public static class CustomRetryPolicy
{
public static RetryPolicy MakeHttpRetryPolicy()
{
// The transient fault application block provides three retry policies
// that you can use. These are:
return new RetryPolicy(strategy, exponentialBackoff);
}
}
/// <summary>
/// This class is responsible for deciding whether the response was an intermittent
/// transient error or not.
/// </summary>
public class HttpTransientErrorDetectionStrategy : ITransientErrorDetectionStrategy
{
public bool IsTransient(Exception ex)
{
if (ex != null)
{
HttpRequestExceptionWithStatus httpException;
if ((httpException = ex as HttpRequestExceptionWithStatus) != null)
{
if (httpException.StatusCode == HttpStatusCode.ServiceUnavailable)
{
return true;
}
else if (httpException.StatusCode == HttpStatusCode.MethodNotAllowed)
{
return true;
}
return false;
}
}
return false;
}
}
/// <summary>
/// The retry handler logic is implementing within a Delegating Handler. This has a
/// number of advantages.
/// An instance of the HttpClient can be initialized with a delegating handler making
/// it super easy to add into the request pipeline.
/// It also allows you to apply your own custom logic before the HttpClient sends the
/// request, and after it receives the response.
/// Therefore it provides a perfect mechanism to wrap requests made by the HttpClient
/// with our own custom retry logic.
/// </summary>
class RetryDelegatingHandler : HttpClientHandler
{
public RetryPolicy retryPolicy { get; set; }
public RetryDelegatingHandler()
: base()
{
retryPolicy = CustomRetryPolicy.MakeHttpRetryPolicy();
}
protected async override Task<HttpResponseMessage> SendAsync(
HttpRequestMessage request,
CancellationToken cancellationToken)
{
HttpResponseMessage responseMessage = null;
var currentRetryCount = 0;
//On Retry => increments the retry count
retryPolicy.Retrying += (sender, args) =>
{
currentRetryCount = args.CurrentRetryCount;
};
try
{
await retryPolicy.ExecuteAsync(async () =>
{
responseMessage = await base.SendAsync(request, cancellationToken)
.ConfigureAwait(false);
if ((int)responseMessage.StatusCode > 500)
{
// When it fails after the retries, it would throw the exception
throw new HttpRequestExceptionWithStatus(
string.Format("Response status code {0} indicates server error",
(int)responseMessage.StatusCode))
{
StatusCode = responseMessage.StatusCode,
CurrentRetryCount = currentRetryCount
};
}// returns the response to the main method(from the anonymous method)
return responseMessage;
}, cancellationToken).ConfigureAwait(false);
return responseMessage;// returns from the main method => SendAsync
}
catch (HttpRequestExceptionWithStatus exception)
{
if (exception.CurrentRetryCount >= 3)
{
//write to log
}
if (responseMessage != null)
{
return responseMessage;
}
throw;
}
catch (Exception)
{
if (responseMessage != null)
{
return responseMessage;
}
throw;
}
}
}
/// <summary>
/// Custom HttpRequestException to allow include additional properties on my exception,
/// which can be used to help determine whether the exception is a transient
/// error or not.
/// </summary>
public class HttpRequestExceptionWithStatus : HttpRequestException
{
public HttpStatusCode StatusCode { get; set; }
public int CurrentRetryCount { get; set; }
public HttpRequestExceptionWithStatus()
: base() { }
public HttpRequestExceptionWithStatus(string message)
: base(message) { }
public HttpRequestExceptionWithStatus(string message, Exception inner)
: base(message, inner) { }
}
}
i have almost the same issue.
HttpWebRequest queueing library, which guarantees request delivery
I just updated (see EDIT3) my approach to avoid crashes, but i still need general mechanism to guarantee message delivery (or re-delivery in case message was not delivered).
I have the same problem and solved . it's about the "StringContent" / "HttpContent"
Please check Amogh Natu's Blog which help me to solve this problem
The problem with this code is, when the first call to PostAsync is
made and it fails, the httpContent object is disposed. This is as
designed in the HttpClient class. Refer the comment in this method.
Although this seems odd, they intent to do this so that the user
doesn’t have to do this explicitly and also to avoid the same request
being Posted more than once.
So what happens is, when the first call fails, httpContent is
disposed, then as we have retry mechanism, it tries to make the post
call again, now with a disposed object and hence this time, the call
fails with an ObjectDisposedException.
An easy way to resolve this is to NOT use a variable to store
httpContent and instead, create http content directly while making the
call. Something like this.
http://amoghnatu.net/2017/01/12/cannot-access-a-disposed-object-system-net-http-stringcontent-while-having-retry-logic/
Adding an answer that uses both Polly + Retry policy + per-retry Timeout policy, as top answer does not address that:
Policy
.Handle<HttpRequestException>()
.Or<TaskCanceledException>()
.Or<TimeoutRejectedException>()
.OrResult<HttpResponseMessage>(x => !x.IsSuccessStatusCode)
.WaitAndRetryAsync(3, retryAttempt => TimeSpan.FromSeconds(Math.Pow(3, retryAttempt)))
.WrapAsync(
Policy.TimeoutAsync(TimeSpan.FromSeconds(1), delegate (Context ctx, TimeSpan timeSpan, Task task)
{
// Do some on-timeout action
return Task.CompletedTask;
})
)
.ExecuteAsync(() =>
{
return httpclient.PostAsync(url, httpRequest);
});
//Could retry say 5 times
HttpResponseMessage response;
int numberOfRetry = 0;
using (var httpClient = new HttpClient())
{
do
{
response = await httpClient.PostAsync(uri, content);
numberOfRetry++;
} while (response.IsSuccessStatusCode == false | numberOfRetry < 5);
}
return response;
.........