Introduction
You’ve just written your nice shiny new application to monitor a folder for new files arriving and added the code to send that file off somewhere else and delete it. Perhaps you even spent some time packaging it in a nice Windows Service. It probably behaved well during debugging. You move it into a test environment and let the manual testers loose. They copy a file, your eager file watcher spots the new file as soon as it starts writing and does the funky stuff and BANG!… an IOException
:
The process cannot access the file X because it is being used by another process.
The copying had not finished before the event fired. It doesn’t even have to be a large file as your super awesome watcher is just so efficient.
A Solution
- When a file system event occurs, store its details in Memory Cache for X amount of time
- Setup a callback, which will execute when the event expires from Memory Cache
- In the callback, check the file is available for write operations
- If it is, then get on with the intended file operation
- Else, put it back in Memory Cache for X time and repeat the above steps
It would make sense to track and limit the number of retry attempts to get a lock on the file.
Code Snippets
I’ve built this on top of the code discussed in a previous post on dealing with multiple FileSystemWatcher events.
The complete code for this example solution can be found here.
When a file system event is handled, store the file details and the retry count, using a simple POCO, in MemoryCache
with a timer of, something like 60 seconds:
private void OnCreated(object source, FileSystemEventArgs e)
{
_cacheItemPolicy.AbsoluteExpiration = DateTimeOffset.Now.AddSeconds(CacheTimeSeconds);
var fileData = new CacheItemValue()
{
FilePath = e.FullPath,
RetryCount = 0,
FileName = e.Name
};
_memCache.AddOrGetExisting(e.Name, fileData, _cacheItemPolicy);
}
A simple POCO:
class CacheItemValue
{
public string FileName { get; set; }
public string FilePath { get; set; }
public int RetryCount { get; set; }
}
In the constructor, I initialised my cache item policy with a callback to execute when these cached POCOs expire:
_cacheItemPolicy = new CacheItemPolicy
{
RemovedCallback = OnRemovedFromCache
};
The callback itself…
- Increments the number retries
- Tries and gets a lock on the file
- If still locked, put it back into the cache for another 60 seconds (repeat this
MaxRetries
times) - Else, get on with the intended file operation
private void OnRemovedFromCache(CacheEntryRemovedArguments args)
{
if (args.RemovedReason != CacheEntryRemovedReason.Expired) return;
var cacheItemValue = (CacheItemValue)args.CacheItem.Value;
if (cacheItemValue.RetryCount > MaxRetries) return;
if (IsFileLocked(cacheItemValue.FilePath))
{
cacheItemValue.RetryCount++;
_cacheItemPolicy.AbsoluteExpiration = DateTimeOffset.Now.AddSeconds(CacheTimeSeconds);
_memCache.Add(cacheItemValue.FileName, cacheItemValue, _cacheItemPolicy);
}
}
Other Ideas / To Do….
- Could also store the actual event object
- Could explore options for non-volatile persistence
- Might find sliding expiration more appropriate in some scenario
CodeProject