This is actually quite a pervasive issue in MVC (and probably other web frameworks), so I'm going to explain it a bit and then offer a solution.
The Problem
Suppose you're on a webpage with a form. You click submit. The server's taking a while to respond, so you click it again. And again. At this point you've fired off three separate requests, all of which the server is going to handle simultaneously. But only one response will be executed in the browser - the first one.
This situation can be represented by the following line chart.
┌────────────────────┐
Request 1 │ │ Response 1: completes, browser executes response
└────────────────────┘
┌────────────────┐
Request 2 │ │ Response 2: also completes!
└────────────────┘
┌───────────────────┐
Request 3 │ │ Response 3: also completes!
└───────────────────┘
The horizontal axis represents time (not to scale). In other words, the three requests are fired off in order, but only the first response is returned to the browser; the others are discarded.
This is a problem. Not always, but often enough to be annoying, such requests have side-effects. These side-effects could vary from a counter incrementing, duplicate records being created, or even a credit card payment being processed multiple times.
The Solution
Now, in MVC, most POST requests (especially ones with side effects) should be using the built-in AntiForgeryToken logic to generate and validate a random token for each form. The following solution takes advantage of this.
The plan: we discard all duplicate requests. The logic here goes: cache the token from each request. If it's already in the cache, then return some dummy redirect response, perhaps with an error message.
In terms of our line chart, this looks like...
┌────────────────────┐
Request 1 │ │ Response 1: completes, browser executes the response [*]
└────────────────────┘
┌───┐
Request 2 │ x │ Response 2: rejected by overwriting the response with a redirect
└───┘
┌───┐
Request 3 │ x │ Response 3: rejected by overwriting the response with a redirect
└───┘
[*] the browser executes the wrong response, because it's already been replaced by requests 2 and 3.
Notice a few things here: because we're not handling duplicate requests at all, they execute their result quickly. Too quickly - they actually replace the response of the first request by getting in first.
Because we didn't actually process these duplicate requests, we don't know where to redirect the browser. If we use a dummy redirect (like /SameController/Index
) then when the first response returns to the browser, it'll execute that redirect instead of whatever it was supposed to do. This leaves the user oblivious as to whether or not their request actually completed successfully, since the result of the first request is lost.
Clearly this is less than ideal.
So, our modified plan: cache not only the tokens for each request, but the response too. That way, instead of assigning an arbitrary redirect to the duplicate requests, we can assign the response that's actually supposed to be returned to the browser.
Here's how that looks in code, using a filter attribute.
/// <summary>
/// When applied to a controller or action method, this attribute checks if a POST request with a matching
/// AntiForgeryToken has already been submitted recently (in the last minute), and redirects the request if so.
/// If no AntiForgeryToken was included in the request, this filter does nothing.
/// </summary>
[AttributeUsage(AttributeTargets.Class | AttributeTargets.Method, AllowMultiple = false, Inherited = true)]
public class PreventDuplicateRequestsAttribute : ActionFilterAttribute {
/// <summary>
/// The number of minutes that the results of POST requests will be kept in cache.
/// </summary>
private const int MinutesInCache = 1;
/// <summary>
/// Checks the cache for an existing __RequestVerificationToken, and updates the result object for duplicate requests.
/// Executes for every request.
/// </summary>
public override void OnActionExecuting(ActionExecutingContext filterContext) {
base.OnActionExecuting(filterContext);
// Check if this request has already been performed recently
string token = filterContext?.HttpContext?.Request?.Form["__RequestVerificationToken"];
if (!string.IsNullOrEmpty(token)) {
var cache = filterContext.HttpContext.Cache[token];
if (cache != null) {
// Optionally, assign an error message to discourage users from clicking submit multiple times (retrieve in the view using TempData["ErrorMessage"])
filterContext.Controller.TempData["ErrorMessage"] =
"Duplicate request detected. Please don't mash the submit buttons, they're fragile.";
if (cache is ActionResult actionResult) {
filterContext.Result = actionResult;
} else {
// Provide a fallback in case the actual result is unavailable (redirects to controller index, assuming default routing behaviour)
string controller = filterContext.ActionDescriptor.ControllerDescriptor.ControllerName;
filterContext.Result = new RedirectResult("~/" + controller);
}
} else {
// Put the token in the cache, along with an arbitrary value (here, a timestamp)
filterContext.HttpContext.Cache.Add(token, DateTime.UtcNow.ToString("s"),
null, Cache.NoAbsoluteExpiration, new TimeSpan(0, MinutesInCache, 0), CacheItemPriority.Default, null);
}
}
}
/// <summary>
/// Adds the result of a completed request to the cache.
/// Executes only for the first completed request.
/// </summary>
public override void OnActionExecuted(ActionExecutedContext filterContext) {
base.OnActionExecuted(filterContext);
string token = filterContext?.HttpContext?.Request?.Form["__RequestVerificationToken"];
if (!string.IsNullOrEmpty(token)) {
// Cache the result of this request - this is the one we want!
filterContext.HttpContext.Cache.Insert(token, filterContext.Result,
null, Cache.NoAbsoluteExpiration, new TimeSpan(0, MinutesInCache, 0), CacheItemPriority.Default, null);
}
}
}
To use this attribute, simply stick it on a method alongside [HttpPost]
and [ValidateAntiForgeryToken]
:
[HttpPost]
[ValidateAntiForgeryToken]
[PreventDuplicateRequests]
public ActionResult MySubmitMethod() {
// Do stuff here
return RedirectToAction("MySuccessPage");
}
...and spam those submit buttons all you like. I've been using this on several action methods and had no issues so far - and no more duplicate records, no matter how much I spam the submit button.
If anyone has any more accurate descriptions of how MVC actually processes requests (as this was written purely from observation and stack traces), be my guest, and I'll update this answer accordingly.
Finally, thanks to @CShark, whose suggestions I used as the basis for my solution.