-3

Please bear with me for this long question.

Scenario: I have a FileSystemWatcher on the root-directory which is watching for LastWrite change on control-file each inside a control-directory. Looks something like this:-

root-directory (FileSystemWatcher instance is watching this root directory)

|

|-----control-directory_0 \ control-file

                      \ data-file

|-----control-directory_1 \ control-file

                      \ data-file

|-----control-directory_2 \ control-file

                      \ data-file

|-----control-directory_3 \ control-file

                      \ data-file

.........more similar structure (but only one root-directory)

Sorry for my creative drawing.

The problem I was facing, there can be many control-directories inside the root-directory (approx 200-500) and along with control-directory's control-file, I have a data-file in it (in each of them) where continuous writes are happening.

I was watching for NotifyFilter.LastWrite and Filter = control-file. InternalBufferSize is set to 4KB (please don't ask to increase this, I am not allowed to modify it and event to make it 8KB (default one) due to requirements and I can't use FileSystemWatcher for each control-file as it will take lot of precious non-paged memory).

My EventHandler looks like this

  private void OnChange(Object sender, FileSystemEventArgs eventArgs)
  {
     //result = CPU bound work here
     //evaluating result
  }

Currently, I am handling 300 control-files. Due to lots of writes happening on data-file and lots of requests coming to control-file my buffer is overflowing quite regularly.

Then I thought of an idea. (async and await to the rescue with Task battle tank)

  async private void OnChange(Object sender, FileSystemEventArgs eventArgs)
  {
     var result = await Task.Run(() => Work.CPUboundWork());
     //evaluating result
  }

It was working fine and I was able to handle lots of requests (even tested with 1000 events with only 4KB buffer).

Now comes the interesting part. How am I testing it?

There are two entities involved, one, writing to the control or data-file and second, handling the events generated by the writes to the control-file. So I went up and created a console app, which does both of the things.

static void Main(string[] args)
{
  int controlFileCount = Convert.ToInt32(args[0]);
  string basePath = args[1];
  //CreateFolderStructure(basePath, controlFileCount); for first run.
  FileSystemWatcher baseDirectoryWatcher = new FileSystemWatcher();
  SetupFileSystemWatcher(baseDirectoryWatcher, basePath);
  WriteToControlFilesParallely(basePath, controlFileCount);
  Console.Read();
}

public void SetupFileSystemWatcher(FileSystemWatcher baseDirectoryWatcher, string path)
{
  //setting properties of the watcher.
  baseDirectoryWatcher.NotifyFilter = NotifyFilter.LastWrite;
  baseDirectoryWatcher.Filter = "control-file";
  baseDirectoryWatcher.InternalBufferSize = 4096;
  baseDirectoryWatcher.Path = path;
  baseDirectoryWatcher.IncludeSubdirectories = true;
  baseDirectoryWatcher.EnableRaisingEvents = true;
}

public void WriteToControlFilesParallely(string basePath, int controlFileCount)
{
  Parallel.For(0, controlFileCount, (i) =>
  {
    string filePath = Helper.GetFilePath(basePath, i);
    Helper.WriteData(filePath, "data");
  });
}

Next, I tested with two console applications:-

First, Responsible of writing data to various control files parallelly - (Writer_App).

Second, Responsible for handling events - (Event_Handling_App).

NOTE: There's no code change in the core but instead of writing and handling the events in the same console app now I am writing from one and handling form other.

So I separated the two entities from my old console app (starting a simulation to the actual environment). Now I started testing by running first Event_Handling_App and then write to the control-file by running Writer_App and now the things have become strange and my application is facing InternalBufferOverflow exception for the same number of control-files and same number of writes when I didn't have the async and await as in my first implementation.

I again tested with one console app (which is having both the responsibilities) and it was working fine.

So, why two console applications make the magic of async and await (along with Task) disappear while one console application is working great?

Is it something related to Inter Process Communication?

I am wondering if it will work in production because I will be using handler code in a Web application and some other process can write these files over the network.

4
  • Does the console application that works set up a Form at some point? async/await relies on a SynchronizationContext that handles synchronization. Is there a proper one in a bare-bones console application? Aug 14, 2017 at 16:41
  • @LasseV.Karlsen there's nothing like that its simple console app. No "UI Context" involved.
    – OldSchool
    Aug 14, 2017 at 16:43
  • Please check out my answer here - the way async/await works in a console application is very different than how it works in, for example, a UI application. Aug 14, 2017 at 16:51
  • @EJoshuaS But the thing is why it worked in case of one console app and not in case of two ?
    – OldSchool
    Aug 14, 2017 at 16:59

1 Answer 1

1

Finally, I was able to figure out this, when I was using single console app I was running its exe (through cmd) but when I was trying with two console app I was running the app inside visual studio (in release mode) so due to this (with load of visual studio) I was getting the exception and I was blaming async and await.

So, Always run your application from exe if you are dealing with code which is tight.

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