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EDIT: After a long discussion in the comments, it seems that my original question didn't really capture what was going on. Here's a summary of where I am now:

  • When using HTTPS, there's what I would consider a dramatic jump in the virtual memory space of my application (typically from under 50mb to over 200mb) when the first HTTPS request (web service call, WebClient.DownloadFile(), etc.) is made
  • At the same time, a CPU core also moves to nearly 100% usage. This typically only lasts a few seconds, but I have seen it last longer
  • It may very well be the case that this is just the cost of using HTTPS, but I was surprised by it since I had never noticed it before in other apps (and other developers on my team never noticed it in this app, which has been using HTTPS since long before I came on board).
  • The kicker: this doesn't appear to happen on all machines, but does on most. If it happened consistently on every machine, I'd be more willing to accept it as a "cost of doing business." But since there does seem to be a difference between some machines running the same code and OS, I would like to understand why that is since it will either a) allow us to mitigate the behavior, or b) explain it in a way that satisfies non-technical higher-ups that it's not actually a "problem", as explaining that Windows Task Manager shows virtual memory and not necessarily actively-in-use physical memory hasn't been satisfactory so far :/

I've left the original post intact below in case anyone is interested, but it focuses more on web services, which aren't really at the root of the problem.

Thanks in advance for any further insight!

We're seeing memory usage increase dramatically whenever our application first makes a call to our web service using https. The specifics vary by machine, but as an example we may see our application jump from ~50mb to over 250mb when the first web service call is made, and the usage never climbs back down. Subsequent calls do not result in another such jump. I can reproduce the behavior with the code below (not specific to our application) and a public web service that we do not own - so it seems to be independent of both our client- and server-side code.

Interestingly, in my test app I don't observe this jump on Windows XP (our application is currently deployed only on Windows 7). We also don't see it on every dev/test machine in the office (but we do on most), and we don't currently have a way to retrieve this info from machines out in the "real world."

I haven't been able to pin down what's being allocated, but several profilers have made it clear that it resides in native (not managed) memory. Analysis of some WinDbg dumps using DebugDiag leaves me to believe that there is a lot of memory getting allocated in crypt32.dll that isn't being released. This makes sense to some extent (https implies certificates, security, etc., and it's likely that whatever is being loaded is getting cached, hence why subsequent calls don't result in additional jumps), but I have a hard time believing this is really just the cost of using https for a web service.

I know there will be some responses from the "if higher memory usage isn't causing problems, why worry?" camp. In general I agree - the memory usage numbers in Task Manager often aren't indicative of whether the app is working as intended. If the app was used strictly in-house, I could live with this as long as it wasn't a symptom of other problems. But our app is deployed with consumer machines, so we have to worry about the perception of a problem just as much as the actual problem. So if there's any way to fix this, I would greatly appreciate it!

Finally, the web service that I use in the test code below is available here: http://ws.cdyne.com/emailverify/Emailvernotestemail.asmx?wsdl. The code for EmailVerNoTestEmail was generated using the wsdl.exe tool, with the slight modification of passing the URL as a parameter to the constructor rather than hard-coding it (so that http/https can be specified on the fly).

public static void Main(string[] args)
    const string urlSuffix = "://ws.cdyne.com/emailverify/Emailvernotestemail.asmx";
    string protocol = null;
    while(protocol == null)
        Console.Write("Enter protocol (http, https): ");
        var line = Console.ReadLine();
        if (line != null) line = line.ToLower();
        if (line == "http" || line == "https")
            protocol = line.Trim();
    var url = protocol + urlSuffix;
    Console.WriteLine("Using URL: " + url);

    var service = new EmailVerNoTestEmail(url);

    Console.WriteLine("Press any key to make the web service call...");

    Console.WriteLine("Calling web service...");
    var resp = service.VerifyEmail("test@gmail.com", "test");
    Console.WriteLine("Response: " + resp);

    Console.WriteLine("Press any key to exit.");
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Why is this a problem? Are you running out of memory? – John Saunders Jan 9 '12 at 23:09
Also, changed the title, as this is not a "spike". A spike goes up sharply, then goes down sharply. – John Saunders Jan 9 '12 at 23:12
@JohnSaunders: Thanks for the wording fix, I knew "spike" wasn't quite right but couldn't figure out how to word it. – atkretsch Jan 10 '12 at 0:03
@JohnSaunders: As I explained in the post, there's no direct evidence of any specific problems, but the memory numbers have caught the eye of higher-ups, and for better or worse there has thus been organizational pressure to get those numbers down. It may ultimately be the case that this is something we just have to accept, but I'd like to know that definitively before I dismiss it, since it's generally quite repeatable and just seems out of whack - in my opinion, anything that suddenly quadruples your footprint is worth looking into even if it's not causing immediate problems. – atkretsch Jan 10 '12 at 0:07
It actually seems precisely the normal pattern for a change in memory usage after a feature is used for the first time. I can't imagine what your higher-ups want to hear. Are you sure they wouldn't be satisfied with a load test that shows that the memory usage doesn't increase substantially over time? – John Saunders Jan 10 '12 at 0:17

Unless a system is stressed, it is natural for it to remain at a certain memory level. The OS has heuristics which determine how much memory is needed and allocates to that high point greater than what is needed. Why? It is expensive for allocation and deallocation of memory and if a program can run in its own sandbox which was given, why decrease it if the system is not stressed.

As you mentioned it is not the amount of memory allocated which is a concern, but it is the leaking of memory. I suggest you run perfmon and monitor for leaks; read up on the things to look out for in this MSDN CLR article Investigating Memory Issues.

EDIT: (This is advice I have given before but may be relevant/ sorry for topic duplication)

To see the telltale sign of memory leaks one fires up perfmon and looks at Private Bytes in perfmon for that those signs. See Identify And Prevent Memory Leaks In Managed Code to begin that process.

One other process to use is on the Processes tab of the Windows Task Manager. ( View + Select Columns,) check Handles, GDI Objects and USER Objects. Observe these values for your program. If there is t a handle leak, you'll see one of these steadily climbing if you do. GDI in all likelihood under those scenarios.

In general when the OS runs an application it tries to determine how much memory is being used. It will allocate more memory for the application that what the application currently needs. The reason for that is, to allocate/deallocate memory is a cpu intensive operation. Why parallel what the app needs when it can reside in a pool of memory which will allow it, the app, to expand and contract with no interference from the operating system. Saves on cycles.

What the developer sees is a high water mark for memory. If the system is not stressed, the system will not reclaim any memory and keep the high water mark. There are many posts in this forum where the users say, processing done, memory cleaned up but the OS still shows my app at memory point X, when it should be memory point M (lower). Winform users report the same but if one minimizes the app, suddenly the mem usage reported drops to that M level. That is done by design. Minimizing suggests that an app doesn't need the memory for it will not be interacting with the user and the OS will reclaim the point. If its not a winform and the OS is not stressed, the app stays at the high water mark of X.

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