Occasionally I have a need to retry an operation several times before giving up. My code is like:

int retries = 3;
while(true) {
  try {
    DoSomething();
    break; // success!
  } catch {
    if(--retries == 0) throw;
    else Thread.Sleep(1000);
  }
}

I would like to rewrite this in a general retry function like:

TryThreeTimes(DoSomething);

Is it possible in C#? What would be the code for the TryThreeTimes() method?

  • 1
    A simple cycle is not enough? Why just not to iterate over and execute logic for several times? – Restuta Oct 13 '09 at 22:08
  • 13
    Personally, I would be extremely wary of any such helper method. It's certainly possible to implement using lambdas, but the pattern itself is extremely smelly, so introducing a helper for it (which implies that it is frequently repeated) is in and of itself highly suspicious, and strongly hints at bad overall design. – Pavel Minaev Oct 13 '09 at 22:53
  • 10
    In my case, my DoSomething()s are doing stuff on remote machines such as deleting files, or trying to hit a network port. In both cases, there are major timing issues for when DoSomething will succeed and because of the remoteness, there is no event I can listen on. So yeah, its smelly. Suggestions welcome. – noctonura Oct 13 '09 at 22:58
  • 9
    @PavelMinaev why would using retries hint at bad overall design? If you write a lot of code that connects integration points then using retries is definitely a pattern you should seriously consider using. – bytedev Aug 23 '16 at 16:32

25 Answers 25

up vote 495 down vote accepted

Blanket catch statements that simply retry the same call can be dangerous if used as a general exception handling mechanism. Having said that, here's a lambda-based retry wrapper that you can use with any method. I chose to factor the number of retries and the retry timeout out as parameters for a bit more flexibility:

public static class Retry
{
    public static void Do(
        Action action,
        TimeSpan retryInterval,
        int maxAttemptCount = 3)
    {
        Do<object>(() =>
        {
            action();
            return null;
        }, retryInterval, maxAttemptCount);
    }

    public static T Do<T>(
        Func<T> action,
        TimeSpan retryInterval,
        int maxAttemptCount = 3)
    {
        var exceptions = new List<Exception>();

        for (int attempted = 0; attempted < maxAttemptCount; attempted++)
        {
            try
            {
                if (attempted > 0)
                {
                    Thread.Sleep(retryInterval);
                }
                return action();
            }
            catch (Exception ex)
            {
                exceptions.Add(ex);
            }
        }
        throw new AggregateException(exceptions);
    }
}

You can now use this utility method to perform retry logic:

Retry.Do(() => SomeFunctionThatCanFail(), TimeSpan.FromSeconds(1));

or:

Retry.Do(SomeFunctionThatCanFail, TimeSpan.FromSeconds(1));

or:

int result = Retry.Do(SomeFunctionWhichReturnsInt, TimeSpan.FromSeconds(1), 4);

Or you could even make an async overload.

  • 7
    +1, especially for the warning and error-checking. I'd be more comfortable if this passed in the type of the exception to catch as a generic parameter (where T: Exception), though. – TrueWill Oct 13 '09 at 22:55
  • 1
    It was my intent that "retries" actually meant retries. But it's not too hard to change it to mean "tries". As long as the name is kept meaningful. There are other opportunities to improve the code, like checking for negative retries, or negative timeouts - for example. I omitted these mostly to keep the example simple ... but again, in practice these would probably be good enhancements to the implementation. – LBushkin Oct 14 '09 at 0:05
  • 29
    We use a similar pattern for our DB access in a high volume Biztalk App, but with two improvements: We have blacklists for exceptions that shouldn't be retried and we store the first exception that occurs and throw that when the retry ultimately fails. Reason being that the second and following exceptions often are different from the first one. In that case you hide the initial problem when rethrowing only the last exception. – TToni Mar 22 '12 at 11:21
  • 2
    @Dexters We throw a new exception with the original exception as inner exception. The original stack trace is available as attribute from the inner exceptions. – TToni Mar 31 '13 at 21:31
  • 5
    You could also try using an open source library such as Polly to handle this. There is much more flexibility for waiting between retries and it has been validated by many others that have used the project. Example: Policy.Handle<DivideByZeroException>().WaitAndRetry(new[] { TimeSpan.FromSeconds(1), TimeSpan.FromSeconds(2), TimeSpan.FromSeconds(3) }); – Todd Meinershagen Aug 25 '15 at 2:28

You should try Polly. It's a .NET library written by me that allows developers to express transient exception handling policies such as Retry, Retry Forever, Wait and Retry or Circuit Breaker in a fluent manner.

Example

Policy
    .Handle<SqlException>(ex => ex.Number == 1205)
    .Or<ArgumentException>(ex => ex.ParamName == "example")
    .WaitAndRetry(3, retryAttempt => TimeSpan.FromSeconds(3))
    .Execute(() => DoSomething());
  • 9
    Do you have an example of this on real code? – Doug Nov 25 '15 at 0:00
  • 9
    Polly Samples can be found here: github.com/App-vNext/Polly-Samples – Flynn Dec 29 '15 at 11:51
  • 8
    Plus one for making this wonderful must-have package. – AgentFire Dec 21 '16 at 22:02
  • 1
    What is actually the OnRetry delegate? I assume it is what we need to perform when exception is occurred. So when exception is occurred OnRetry delegate will call and afterwards Execute delegate. Is it so? – user6395764 May 9 at 9:44

This is possibly a bad idea. First, it is emblematic of the maxim "the definition of insanity is doing the same thing twice and expecting different results each time". Second, this coding pattern does not compose well with itself. For example:

Suppose your network hardware layer resends a packet three times on failure, waiting, say, a second between failures.

Now suppose the software layer resends an notification about a failure three times on packet failure.

Now suppose the notification layer reactivates the notification three times on an notification delivery failure.

Now suppose the error reporting layer reactivates the notification layer three times on a notification failure.

And now suppose the web server reactivates the error reporting three times on error failure.

And now suppose the web client resends the request three times upon getting an error from the server.

Now suppose the line on the network switch that is supposed to route the notification to the administrator is unplugged. When does the user of the web client finally get their error message? I make it at about twelve minutes later.

Lest you think this is just a silly example: we have seen this bug in customer code, though far, far worse than I've described here. In the particular customer code, the gap between the error condition happening and it finally being reported to the user was several weeks because so many layers were automatically retrying with waits. Just imagine what would happen if there were ten retries instead of three.

Usually the right thing to do with an error condition is report it immediately and let the user decide what to do. If the user wants to create a policy of automatic retries, let them create that policy at the appropriate level in the software abstraction.

  • 18
    +1. Raymond shares a real life example here, blogs.msdn.com/oldnewthing/archive/2005/11/07/489807.aspx – SolutionYogi Oct 14 '09 at 13:57
  • 194
    -1 This advice is useless for transient network failures encountered by automated batch processing systems. – nohat Sep 24 '10 at 21:22
  • 14
    Not sure if this is saying "Don't do it" followed by "do it". Most of the people asking this question are probably the people working in the software abstraction. – Jim L Apr 12 '12 at 16:30
  • 35
    When you have long running batch jobs that use network resources, such as web services, you can't expect the network to be 100% reliable. There are going to be occasional timeouts, socket disconnects, possibly even spurious routing glitches or server outages that occur while you are using it. One option is to fail, but that may mean restarting a lengthy job later. Another option is to retry a few times with suitable delay to see if it's a temporary problem, then fail. I agree about composition, which you have to be aware of.. but it's sometimes the best choice. – Erik Funkenbusch Feb 4 '13 at 22:13
  • 11
    I think that the quote you used at the beginning of your answer is interesting. "Expecting different results" is only insanity if prior experience regularly gives you the same results. While software is built on a promise of consistency, there are definitely circumstances where we are required to interact with unreliable forces outside of our control. – Michael Richardson May 21 '14 at 13:50
public void TryThreeTimes(Action action)
{
    var tries = 3;
    while (true) {
        try {
            action();
            break; // success!
        } catch {
            if (--tries == 0)
                throw;
            Thread.Sleep(1000);
        }
    }
}

Then you would call:

TryThreeTimes(DoSomething);

...or alternatively...

TryThreeTimes(() => DoSomethingElse(withLocalVariable));

A more flexible option:

public void DoWithRetry(Action action, TimeSpan sleepPeriod, int tryCount = 3)
{
    if (tryCount <= 0)
        throw new ArgumentOutOfRangeException(nameof(tryCount));

    while (true) {
        try {
            action();
            break; // success!
        } catch {
            if (--tryCount == 0)
                throw;
            Thread.Sleep(sleepPeriod);
        }
   }
}

To be used as:

DoWithRetry(DoSomething, TimeSpan.FromSeconds(2), tryCount: 10);

A more modern version with support for async/await:

public async Task DoWithRetryAsync(Func<Task> action, TimeSpan sleepPeriod, int tryCount = 3)
{
    if (tryCount <= 0)
        throw new ArgumentOutOfRangeException(nameof(tryCount));

    while (true) {
        try {
            await action();
            return; // success!
        } catch {
            if (--tryCount == 0)
                throw;
            await Task.Delay(sleepPeriod);
        }
   }
}

To be used as:

await DoWithRetryAsync(DoSomethingAsync, TimeSpan.FromSeconds(2), tryCount: 10);
  • 1
    preferably change the if to: --retryCount <= 0 because this will go on forever if you want to disable retries by setting it to 0. Technically the term retryCount isn't a really good name, because it won't retry if you set it to 1. either rename it to tryCount or put the -- behind. – Stefanvds May 31 '16 at 6:47
  • Such a waste of threads! – saille Oct 3 '17 at 22:16
  • 1
    @saille I agree. However the OP (and all other answers) are using Thread.Sleep. Alternatives are to use timers, or more likely nowadays to use async to retry, with Task.Delay. – Drew Noakes Oct 4 '17 at 10:22
  • 2
    I've added an async version. – Drew Noakes Oct 4 '17 at 10:26
  • Only break if action returns true ? Func<bool> – Kiquenet Apr 18 at 14:08

The Transient Fault Handling Application Block provides an extensible collection of retry strategies including:

  • Incremental
  • Fixed interval
  • Exponential back-off

It also includes a collection of error detection strategies for cloud-based services.

For more information see this chapter of the Developer's Guide.

Available via NuGet (search for 'topaz').

Allowing for functions and retry messages

public static T RetryMethod<T>(Func<T> method, int numRetries, int retryTimeout, Action onFailureAction)
{
 Guard.IsNotNull(method, "method");            
 T retval = default(T);
 do
 {
   try
   {
     retval = method();
     return retval;
   }
   catch
   {
     onFailureAction();
      if (numRetries <= 0) throw; // improved to avoid silent failure
      Thread.Sleep(retryTimeout);
   }
} while (numRetries-- > 0);
  return retval;
}
  • RetryMethod to retval are True , or max retries ? – Kiquenet Sep 27 at 15:47

You might also consider adding the exception type you want to retry for. For instance is this a timeout exception you want to retry? A database exception?

RetryForExcpetionType(DoSomething, typeof(TimeoutException), 5, 1000);

public static void RetryForExcpetionType(Action action, Type retryOnExceptionType, int numRetries, int retryTimeout)
{
    if (action == null)
        throw new ArgumentNullException("action");
    if (retryOnExceptionType == null)
        throw new ArgumentNullException("retryOnExceptionType");
    while (true)
    {
        try
        {
            action();
            return;
        }
        catch(Exception e)
        {
            if (--numRetries <= 0 || !retryOnExceptionType.IsAssignableFrom(e.GetType()))
                throw;

            if (retryTimeout > 0)
                System.Threading.Thread.Sleep(retryTimeout);
        }
    }
}

You might also note that all of the other examples have a similar issue with testing for retries == 0 and either retry infinity or fail to raise exceptions when given a negative value. Also Sleep(-1000) will fail in the catch blocks above. Depends on how 'silly' you expect people to be but defensive programming never hurts.

  • 9
    +1, but why not do RetryForException<T>(...) where T: Exception, then catch(T e)? Just tried it and it works perfectly. – TrueWill Oct 14 '09 at 1:23
  • Either or here since I don't need to do anything with the Type provided I figured a plain old parameter would do the trick. – csharptest.net Oct 14 '09 at 1:49
  • @TrueWill apparently catch(T ex) has some bugs according to this post stackoverflow.com/questions/1577760/… – csharptest.net Oct 16 '09 at 14:15
  • 3
    Update: Actually a better implementation I've been using takes a Predicate<Exception> delegate that returns true if a retry is appropriate. This allows you to use native error codes or other properties of the exception to determine if a retry is applicable. For instance HTTP 503 codes. – csharptest.net Apr 16 '12 at 18:44
  • 1
    "Also Sleep(-1000) will fail in the catch blocks above" ... use a TimeSpan and you won't get this problem. Plus TimeSpan is much more flexible and self descriptive. From your signature of "int retryTimeout" how do i know if retryTimeout is MS, seconds, minutes, years?? ;-) – bytedev Aug 24 '16 at 10:23

I'm a fan of recursion and extension methods, so here are my two cents:

public static void InvokeWithRetries(this Action @this, ushort numberOfRetries)
{
    try
    {
        @this();
    }
    catch
    {
        if (numberOfRetries == 0)
            throw;

        InvokeWithRetries(@this, --numberOfRetries);
    }
}

Building on the previous work, I thought about enhancing the retry logic in three ways:

  1. Specifying what exception type to catch/retry. This is the primary enhacement as retrying for any exception is just plain wrong.
  2. Not nesting the last try in a try/catch, achieving slightly better performance
  3. Making it an Action extension method

    static class ActionExtensions
    {
      public static void InvokeAndRetryOnException<T> (this Action action, int retries, TimeSpan retryDelay) where T : Exception
      {
        if (action == null)
          throw new ArgumentNullException("action");
    
        while( retries-- > 0 )
        {
          try
          {
            action( );
            return;
          }
          catch (T)
          {
            Thread.Sleep( retryDelay );
          }
        }
    
        action( );
      }
    }
    

The method can then be invoked like so (anonymous methods can be used as well, of course):

new Action( AMethodThatMightThrowIntermittentException )
  .InvokeAndRetryOnException<IntermittentException>( 2, TimeSpan.FromSeconds( 1 ) );
  • 1
    This is excellent. But personally I wouldn't call it 'retryTimeout' as it's not really a Timeout. 'RetryDelay', perhaps? – Holf Jun 10 '15 at 11:17

Use Polly

https://github.com/App-vNext/Polly-Samples

Here is a retry-generic I use with Polly

public T Retry<T>(Func<T> action, int retryCount = 0)
{
    PolicyResult<T> policyResult = Policy
     .Handle<Exception>()
     .Retry(retryCount)
     .ExecuteAndCapture<T>(action);

    if (policyResult.Outcome == OutcomeType.Failure)
    {
        throw policyResult.FinalException;
    }

    return policyResult.Result;
}

Use it like this

var result = Retry(() => MyFunction()), 3);

I'd implement this:

public static bool Retry(int maxRetries, Func<bool, bool> method)
{
    while (maxRetries > 0)
    {
        if (method(maxRetries == 1))
        {
            return true;
        }
        maxRetries--;
    }
    return false;        
}

I wouldn't use exceptions the way they're used in the other examples. It seems to me that if we're expecting the possibility that a method won't succeed, its failure isn't an exception. So the method I'm calling should return true if it succeeded, and false if it failed.

Why is it a Func<bool, bool> and not just a Func<bool>? So that if I want a method to be able to throw an exception on failure, I have a way of informing it that this is the last try.

So I might use it with code like:

Retry(5, delegate(bool lastIteration)
   {
       // do stuff
       if (!succeeded && lastIteration)
       {
          throw new InvalidOperationException(...)
       }
       return succeeded;
   });

or

if (!Retry(5, delegate(bool lastIteration)
   {
       // do stuff
       return succeeded;
   }))
{
   Console.WriteLine("Well, that didn't work.");
}

If passing a parameter that the method doesn't use proves to be awkward, it's trivial to implement an overload of Retry that just takes a Func<bool> as well.

  • 1
    +1 for avoiding the exception. Though I'd do a void Retry(...) and throw something? Boolean returns and/or return codes are too often overlooked. – csharptest.net Oct 13 '09 at 23:22
  • 1
    "if we're expecting the possibility that a method won't succeed, its failure isn't an exception" - while that's true in some cases, exception need not imply exceptional. It's for error handling. There is no guarantee that the caller will check a Boolean result. There is a guarantee that an exception will be handled (by the runtime shutting down the application if nothing else does). – TrueWill Oct 14 '09 at 1:17
  • I can't find the reference but I believe .NET defines an Exception as "a method didn't do what it said it will do". 1 purpose is to use exceptions to indicate a problem rather than the Win32 pattern of requiring the caller to check the return value if the function succeeded or not. – noctonura Oct 14 '09 at 4:03
  • But exceptions don't merely "indicate a problem." They also include a mass of diagnostic information that costs time and memory to compile. There are clearly situations in which that doesn't matter the least little bit. But there are a lot where it does. .NET doesn't use exceptions for control flow (compare, say, with Python's use of the StopIteration exception), and there's a reason. – Robert Rossney Oct 14 '09 at 8:56

Keep it simple with C# 6.0

public async Task<T> Retry<T>(Func<T> action, TimeSpan retryInterval, int retryCount)
{
    try
    {
        return action();
    }
    catch when (retryCount != 0)
    {
        await Task.Delay(retryInterval);
        return await Retry(action, retryInterval, --retryCount);
    }
}
  • 1
    I am kind of curious, would this spawn an insane amount of threads with a high retry count and interval because of returning the same awaitable method? – HuntK24 Jun 15 '17 at 22:37

Implemented LBushkin's answer in the latest fashion:

    public static async Task Do(Func<Task> task, TimeSpan retryInterval, int maxAttemptCount = 3)
    {
        var exceptions = new List<Exception>();
        for (int attempted = 0; attempted < maxAttemptCount; attempted++)
        {
            try
            {
                if (attempted > 0)
                {
                    await Task.Delay(retryInterval);
                }

                await task();
                return;
            }
            catch (Exception ex)
            {
                exceptions.Add(ex);
            }
        }
        throw new AggregateException(exceptions);
    }

    public static async Task<T> Do<T>(Func<Task<T>> task, TimeSpan retryInterval, int maxAttemptCount = 3)
    {
        var exceptions = new List<Exception>();
        for (int attempted = 0; attempted < maxAttemptCount; attempted++)
        {
            try
            {
                if (attempted > 0)
                {
                    await Task.Delay(retryInterval);
                }
                return await task();
            }
            catch (Exception ex)
            {
                exceptions.Add(ex);
            }
        }
        throw new AggregateException(exceptions);
    }  

and to use it:

await Retry.Do([TaskFunction], retryInterval, retryAttempts);

whereas the function [TaskFunction] can either be Task<T> or just Task.

  • 1
    Thank you, Fabian! This should be upvoted all the way to the top! – JamesHoux Jul 31 at 20:56
  • Is Task.Delay() better/preferred over Thread.Sleep() ? – Mark Lauter Sep 28 at 23:13
  • 1
    @MarkLauter the short answer is yes. ;-) – Fabian Bigler Sep 29 at 14:17

For those who want to have both the option to retry on any exception or explicitly set the exception type, use this:

public class RetryManager 
{
    public void Do(Action action, 
                    TimeSpan interval, 
                    int retries = 3)
    {
        Try<object, Exception>(() => {
            action();
            return null;
        }, interval, retries);
    }

    public T Do<T>(Func<T> action, 
                    TimeSpan interval, 
                    int retries = 3)
    {
        return Try<T, Exception>(
              action
            , interval
            , retries);
    }

    public T Do<E, T>(Func<T> action, 
                       TimeSpan interval, 
                       int retries = 3) where E : Exception
    {
        return Try<T, E>(
              action
            , interval
            , retries);
    }

    public void Do<E>(Action action, 
                       TimeSpan interval, 
                       int retries = 3) where E : Exception
    {
        Try<object, E>(() => {
            action();
            return null;
        }, interval, retries);
    }

    private T Try<T, E>(Func<T> action, 
                       TimeSpan interval, 
                       int retries = 3) where E : Exception
    {
        var exceptions = new List<E>();

        for (int retry = 0; retry < retries; retry++)
        {
            try
            {
                if (retry > 0)
                    Thread.Sleep(interval);
                return action();
            }
            catch (E ex)
            {
                exceptions.Add(ex);
            }
        }

        throw new AggregateException(exceptions);
    }
}

My async implementation of the retry method:

public static async Task<T> DoAsync<T>(Func<dynamic> action, TimeSpan retryInterval, int retryCount = 3)
    {
        var exceptions = new List<Exception>();

        for (int retry = 0; retry < retryCount; retry++)
        {
            try
            {
                return await action().ConfigureAwait(false);
            }
            catch (Exception ex)
            {
                exceptions.Add(ex);
            }

            await Task.Delay(retryInterval).ConfigureAwait(false);
        }
        throw new AggregateException(exceptions);
    }

Key points: I used .ConfigureAwait(false); and Func<dynamic> instead Func<T>

  • This does not provide an answer to the question. Please consider posting your answer as a new question, using the "Ask Question" button at the top of the page, then posting your own answer to the question to share what you learned with the community. – Ed Cottrell Mar 7 '14 at 5:47
  • Much simpler with C# 5.0 than codereview.stackexchange.com/q/55983/54000 but maybe CansellactionToken should be injected. – SerG Dec 11 '14 at 10:32

Exponential backoff is a good retry strategy than simply trying x number of times. You can use a library like Polly to implement it.

I needed a method that supports cancellation, while I was at it, I added support for returning intermediate failures.

public static class ThreadUtils
{
    public static RetryResult Retry(
        Action target,
        CancellationToken cancellationToken,
        int timeout = 5000,
        int retries = 0)
    {
        CheckRetryParameters(timeout, retries)
        var failures = new List<Exception>();
        while(!cancellationToken.IsCancellationRequested)
        {
            try
            {
                target();
                return new RetryResult(failures);
            }
            catch (Exception ex)
            {
                failures.Add(ex);
            }

            if (retries > 0)
            {
                retries--;
                if (retries == 0)
                {
                    throw new AggregateException(
                     "Retry limit reached, see InnerExceptions for details.",
                     failures);
                }
            }

            if (cancellationToken.WaitHandle.WaitOne(timeout))
            {
                break;
            }
        }

        failures.Add(new OperationCancelledException(
            "The Retry Operation was cancelled."));
        throw new AggregateException("Retry was cancelled.", failures);
    }

    private static void CheckRetryParameters(int timeout, int retries)
    {
        if (timeout < 1)
        {
            throw new ArgumentOutOfRangeException(...
        }

        if (retries < 0)
        {
            throw new ArgumentOutOfRangeException(...

        }
    }

    public class RetryResult : IEnumerable<Exception>
    {
        private readonly IEnumerable<Exception> failureExceptions;
        private readonly int failureCount;

         protected internal RetryResult(
             ICollection<Exception> failureExceptions)
         {
             this.failureExceptions = failureExceptions;
             this.failureCount = failureExceptions.Count;
         }
    }

    public int FailureCount
    {
        get { return this.failureCount; }
    }

    public IEnumerator<Exception> GetEnumerator()
    {
        return this.failureExceptions.GetEnumerator();
    }

    System.Collections.IEnumerator 
        System.Collections.IEnumerable.GetEnumerator()
    {
        return this.GetEnumerator();
    }
}

You can use the Retry function like this, retry 3 times with a 10 second delay but without cancellation.

try
{
    var result = ThreadUtils.Retry(
        SomeAction, 
        CancellationToken.None,
        10000,
        3);

    // it worked
    result.FailureCount // but failed this many times first.
}
catch (AggregationException ex)
{
   // oops, 3 retries wasn't enough.
}

Or, retry eternally every five seconds, unless cancelled.

try
{
    var result = ThreadUtils.Retry(
        SomeAction, 
        someTokenSource.Token);

    // it worked
    result.FailureCount // but failed this many times first.
}
catch (AggregationException ex)
{
   // operation was cancelled before success.
}

As you can guess, In my source code I've overloaded the Retry function to support the differing delgate types I desire to use.

Or how about doing it a bit neater....

int retries = 3;
while (retries > 0)
{
  if (DoSomething())
  {
    retries = 0;
  }
  else
  {
    retries--;
  }
}

I believe throwing exceptions should generally be avoided as a mechanism unless your a passing them between boundaries (such as building a library other people can use). Why not just have the DoSomething() command return true if it was successful and false otherwise?

EDIT: And this can be encapsulated inside a function like others have suggested as well. Only problem is if you are not writing the DoSomething() function yourself

  • 7
    "I believe throwing exceptions should generally be avoided as a mechanism unless your a passing them between boundaries" - I completely disagree. How do you know the caller checked your false (or worse, null) return? WHY did the code fail? False tells you nothing else. What if the caller has to pass the failure up the stack? Read msdn.microsoft.com/en-us/library/ms229014.aspx - these are for libraries, but they make just as much sense for internal code. And on a team, other people are likely to call your code. – TrueWill Oct 14 '09 at 1:28

I had the need to pass some parameter to my method to retry, and have a result value; so i need an expression.. I build up this class that does the work (it is inspired to the the LBushkin's one) you can use it like this:

static void Main(string[] args)
{
    // one shot
    var res = Retry<string>.Do(() => retryThis("try"), 4, TimeSpan.FromSeconds(2), fix);

    // delayed execute
    var retry = new Retry<string>(() => retryThis("try"), 4, TimeSpan.FromSeconds(2), fix);
    var res2 = retry.Execute();
}

static void fix()
{
    Console.WriteLine("oh, no! Fix and retry!!!");
}

static string retryThis(string tryThis)
{
    Console.WriteLine("Let's try!!!");
    throw new Exception(tryThis);
}

public class Retry<TResult>
{
    Expression<Func<TResult>> _Method;
    int _NumRetries;
    TimeSpan _RetryTimeout;
    Action _OnFailureAction;

    public Retry(Expression<Func<TResult>> method, int numRetries, TimeSpan retryTimeout, Action onFailureAction)
    {
        _Method = method;
        _NumRetries = numRetries;
        _OnFailureAction = onFailureAction;
        _RetryTimeout = retryTimeout;
    }

    public TResult Execute()
    {
        TResult result = default(TResult);
        while (_NumRetries > 0)
        {
            try
            {
                result = _Method.Compile()();
                break;
            }
            catch
            {
                _OnFailureAction();
                _NumRetries--;
                if (_NumRetries <= 0) throw; // improved to avoid silent failure
                Thread.Sleep(_RetryTimeout);
            }
        }
        return result;
    }

    public static TResult Do(Expression<Func<TResult>> method, int numRetries, TimeSpan retryTimeout, Action onFailureAction)
    {
        var retry = new Retry<TResult>(method, numRetries, retryTimeout, onFailureAction);
        return retry.Execute();
    }
}

ps. the LBushkin's solution does one more retry =D

I would add the following code to the accepted answer

public static class Retry<TException> where TException : Exception //ability to pass the exception type
    {
        //same code as the accepted answer ....

        public static T Do<T>(Func<T> action, TimeSpan retryInterval, int retryCount = 3)
        {
            var exceptions = new List<Exception>();

            for (int retry = 0; retry < retryCount; retry++)
            {
                try
                {
                    return action();
                }
                catch (TException ex) //Usage of the exception type
                {
                    exceptions.Add(ex);
                    Thread.Sleep(retryInterval);
                }
            }

            throw new AggregateException(String.Format("Failed to excecute after {0} attempt(s)", retryCount), exceptions);
        }
    }

Basically the above code is making the Retry class generic so you can pass the type of the exception you want to catch for retry.

Now use it almost in the same way but specifying the exception type

Retry<EndpointNotFoundException>.Do(() => SomeFunctionThatCanFail(), TimeSpan.FromSeconds(1));
  • The for loop will always execute a couple of times (based on your retryCount) even if the code in TRY CATCH loop was executed without exceptions. I would suggest to set retryCount equal to the retry var in the try loop, so the for loop wil stop going over it. – scre_www Sep 8 '17 at 8:32

I know this answer is very old but I just wanted to comment on this because I have run into issues using these while, do, whatever statement with counters.

Over the years I have settled on a better approach I think. That is to use some sort of event aggregation like a reactive extensions "Subject" or the like. When a try fails, you simply publish an event saying the try failed, and have the aggregator function re-schedule the event. This allows you much more control over the retry without polluting the call itself with a bunch of retry loops and what not. Nor are you tying up a single thread with a bunch of thread sleeps.

Do it simple in C#, Java or other languages:

  internal class ShouldRetryHandler {
    private static int RETRIES_MAX_NUMBER = 3;
    private static int numberTryes;

    public static bool shouldRetry() {
        var statusRetry = false;

        if (numberTryes< RETRIES_MAX_NUMBER) {
            numberTryes++;
            statusRetry = true;
            //log msg -> 'retry number' + numberTryes

        }

        else {
            statusRetry = false;
            //log msg -> 'reached retry number limit' 
        }

        return statusRetry;
    }
}

and use it in your code very simple:

 void simpleMethod(){
    //some code

    if(ShouldRetryHandler.shouldRetry()){
    //do some repetitive work
     }

    //some code    
    }

or you can use it in recursive methods:

void recursiveMethod(){
    //some code

    if(ShouldRetryHandler.shouldRetry()){
    recursiveMethod();
     }

    //some code    
    }
int retries = 3;
while (true)
{
    try
    {
        //Do Somthing
        break;
    }
    catch (Exception ex)
    {
        if (--retries == 0)
            return Request.BadRequest(ApiUtil.GenerateRequestResponse(false, "3 Times tried it failed do to : " + ex.Message, new JObject()));
        else
            System.Threading.Thread.Sleep(100);
    }
  • What do you do with Request.BadRequest? – Danh Dec 20 '16 at 8:59
public delegate void ThingToTryDeletage();

public static void TryNTimes(ThingToTryDelegate, int N, int sleepTime)
{
   while(true)
   {
      try
      {
        ThingToTryDelegate();
      } catch {

            if( --N == 0) throw;
          else Thread.Sleep(time);          
      }
}
  • Because the throw; is the only way the infinite loop is terminated, this method is actually implementing "try until it fails N times" and not the desired "try up to N times until it succeeds". You need a break; or return; after the call to ThingToTryDelegate(); otherwise it'll be called continuously if it never fails. Also, this won't compile because the first parameter of TryNTimes has no name. -1. – BACON Sep 7 '17 at 7:16

I've written a small class based on answers posted here. Hopefully it will help someone: https://github.com/natenho/resiliency

using System;
using System.Threading;

/// <summary>
/// Classe utilitária para suporte a resiliência
/// </summary>
public sealed class Resiliency
{
    /// <summary>
    /// Define o valor padrão de número de tentativas
    /// </summary>
    public static int DefaultRetryCount { get; set; }

    /// <summary>
    /// Define o valor padrão (em segundos) de tempo de espera entre tentativas
    /// </summary>
    public static int DefaultRetryTimeout { get; set; }

    /// <summary>
    /// Inicia a parte estática da resiliência, com os valores padrões
    /// </summary>
    static Resiliency()
    {
        DefaultRetryCount = 3;
        DefaultRetryTimeout = 0;
    }

    /// <summary>
    /// Executa uma <see cref="Action"/> e tenta novamente DefaultRetryCount vezes  quando for disparada qualquer <see cref="Exception"/> 
    /// </summary>
    /// <param name="action">Ação a ser realizada</param>
    /// <remarks>Executa uma vez e realiza outras DefaultRetryCount tentativas em caso de exceção. Não aguarda para realizar novas tentativa.</remarks>
    public static void Try(Action action)
    {
        Try<Exception>(action, DefaultRetryCount, TimeSpan.FromMilliseconds(DefaultRetryTimeout), null);
    }

    /// <summary>
    /// Executa uma <see cref="Action"/> e tenta novamente determinado número de vezes quando for disparada qualquer <see cref="Exception"/> 
    /// </summary>
    /// <param name="action">Ação a ser realizada</param>
    /// <param name="retryCount">Número de novas tentativas a serem realizadas</param>
    /// <param name="retryTimeout">Tempo de espera antes de cada nova tentativa</param>
    public static void Try(Action action, int retryCount, TimeSpan retryTimeout)
    {
        Try<Exception>(action, retryCount, retryTimeout, null);
    }

    /// <summary>
    /// Executa uma <see cref="Action"/> e tenta novamente determinado número de vezes quando for disparada qualquer <see cref="Exception"/> 
    /// </summary>
    /// <param name="action">Ação a ser realizada</param>
    /// <param name="retryCount">Número de novas tentativas a serem realizadas</param>
    /// <param name="retryTimeout">Tempo de espera antes de cada nova tentativa</param>
    /// <param name="tryHandler">Permitindo manipular os critérios para realizar as tentativas</param>
    public static void Try(Action action, int retryCount, TimeSpan retryTimeout, Action<ResiliencyTryHandler<Exception>> tryHandler)
    {
        Try<Exception>(action, retryCount, retryTimeout, tryHandler);
    }

    /// <summary>
    /// Executa uma <see cref="Action"/> e tenta novamente por até DefaultRetryCount vezes quando for disparada qualquer <see cref="Exception"/> 
    /// </summary>
    /// <param name="action">Ação a ser realizada</param>
    /// <param name="tryHandler">Permitindo manipular os critérios para realizar as tentativas</param>
    /// <remarks>Executa uma vez e realiza outras DefaultRetryCount tentativas em caso de exceção. Aguarda DefaultRetryTimeout segundos antes de realizar nova tentativa.</remarks>
    public static void Try(Action action, Action<ResiliencyTryHandler<Exception>> tryHandler)
    {
        Try<Exception>(action, DefaultRetryCount, TimeSpan.FromSeconds(DefaultRetryTimeout), null);
    }

    /// <summary>
    /// Executa uma <see cref="Action"/> e tenta novamente determinado número de vezes quando for disparada qualquer <see cref="TException"/> 
    /// </summary>
    /// <param name="action">Ação a ser realizada</param>
    /// <remarks>Executa uma vez e realiza outras DefaultRetryCount tentativas em caso de exceção. Aguarda DefaultRetryTimeout segundos antes de realizar nova tentativa.</remarks>
    public static void Try<TException>(Action action) where TException : Exception
    {
        Try<TException>(action, DefaultRetryCount, TimeSpan.FromSeconds(DefaultRetryTimeout), null);
    }

    /// <summary>
    /// Executa uma <see cref="Action"/> e tenta novamente determinado número de vezes quando for disparada qualquer <see cref="TException"/> 
    /// </summary>
    /// <param name="action">Ação a ser realizada</param>
    /// <param name="retryCount"></param>
    public static void Try<TException>(Action action, int retryCount) where TException : Exception
    {
        Try<TException>(action, retryCount, TimeSpan.FromSeconds(DefaultRetryTimeout), null);
    }

    /// <summary>
    /// Executa uma <see cref="Action"/> e tenta novamente determinado número de vezes quando for disparada qualquer <see cref="Exception"/> 
    /// </summary>
    /// <param name="action">Ação a ser realizada</param>
    /// <param name="retryCount"></param>
    /// <param name="retryTimeout"></param>
    public static void Try<TException>(Action action, int retryCount, TimeSpan retryTimeout) where TException : Exception
    {
        Try<TException>(action, retryCount, retryTimeout, null);
    }

    /// <summary>
    /// Executa uma <see cref="Action"/> e tenta novamente determinado número de vezes quando for disparada qualquer <see cref="Exception"/> 
    /// </summary>
    /// <param name="action">Ação a ser realizada</param>
    /// <param name="tryHandler">Permitindo manipular os critérios para realizar as tentativas</param>
    /// <remarks>Executa uma vez e realiza outras DefaultRetryCount tentativas em caso de exceção. Aguarda DefaultRetryTimeout segundos antes de realizar nova tentativa.</remarks>
    public static void Try<TException>(Action action, Action<ResiliencyTryHandler<TException>> tryHandler) where TException : Exception
    {
        Try(action, DefaultRetryCount, TimeSpan.FromSeconds(DefaultRetryTimeout), tryHandler);
    }

    /// <summary>
    /// Executa uma <see cref="Action"/> e tenta novamente determinado número de vezes quando for disparada uma <see cref="Exception"/> definida no tipo genérico
    /// </summary>
    /// <param name="action">Ação a ser realizada</param>
    /// <param name="retryCount">Número de novas tentativas a serem realizadas</param>
    /// <param name="retryTimeout">Tempo de espera antes de cada nova tentativa</param>
    /// <param name="tryHandler">Permitindo manipular os critérios para realizar as tentativas</param>
    /// <remarks>Construído a partir de várias ideias no post <seealso cref="http://stackoverflow.com/questions/156DefaultRetryCount191/c-sharp-cleanest-way-to-write-retry-logic"/></remarks>
    public static void Try<TException>(Action action, int retryCount, TimeSpan retryTimeout, Action<ResiliencyTryHandler<TException>> tryHandler) where TException : Exception
    {
        if (action == null)
            throw new ArgumentNullException(nameof(action));

        while (retryCount-- > 0)
        {
            try
            {
                action();
                return;
            }
            catch (TException ex)
            {
                //Executa o manipulador de exception
                if (tryHandler != null)
                {
                    var callback = new ResiliencyTryHandler<TException>(ex, retryCount);
                    tryHandler(callback);
                    //A propriedade que aborta pode ser alterada pelo cliente
                    if (callback.AbortRetry)
                        throw;
                }

                //Aguarda o tempo especificado antes de tentar novamente
                Thread.Sleep(retryTimeout);
            }
        }

        //Na última tentativa, qualquer exception será lançada de volta ao chamador
        action();
    }

}

/// <summary>
/// Permite manipular o evento de cada tentativa da classe de <see cref="Resiliency"/>
/// </summary>
public class ResiliencyTryHandler<TException> where TException : Exception
{
    #region Properties

    /// <summary>
    /// Opção para abortar o ciclo de tentativas
    /// </summary>
    public bool AbortRetry { get; set; }

    /// <summary>
    /// <see cref="Exception"/> a ser tratada
    /// </summary>
    public TException Exception { get; private set; }

    /// <summary>
    /// Identifca o número da tentativa atual
    /// </summary>
    public int CurrentTry { get; private set; }

    #endregion

    #region Constructors

    /// <summary>
    /// Instancia um manipulador de tentativa. É utilizado internamente
    /// por <see cref="Resiliency"/> para permitir que o cliente altere o
    /// comportamento do ciclo de tentativas
    /// </summary>
    public ResiliencyTryHandler(TException exception, int currentTry)
    {
        Exception = exception;
        CurrentTry = currentTry;
    }

    #endregion

}

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