I monitor files that are dropped on a ftp via filesystem watcher then move to another dir. Now I trigger the copy off the create event of the filesystem watcher but obviously i
Have the source upload a stub file directly after the data file completes, and have your FileSystemWatcher watch for the stub file. For example, if the data file name is mydata_01234 then the stub woulb be mydata_01234_stub. The FileSystemWatcher should then have a mask of "*_stub". You then know the data file name by stripping off the "_stub" suffix. And the stub file cannot be uploaded until after the data file completes, so the data file will be free.
If the stub files are just one byte each you should be able to remove them after whatever operation you're performing with the data file without issue. If your operations are particularly fast, add a 100 ms sleep before deleting the stub.
4 years later....
the stub file is a good idea, but, probably a slightly more robust way to do it is to have your source create a stub file first, upload your "real" file, then delete the stub.
this is a very naive implementation but it suits my purposes, i have seen enough people with this problem on the web so decided to contribute. The implementation is fairly specific to my needs I almost completely unconcerned with changed events given the nature of my problem but people can throw their own code in there if they need to do something different, it really the created which cause the most issues. I havent fully tested this but at first write it looks good
using System;
using System.Collections.Generic;
using System.IO;
using System.Timers;
namespace FolderSyncing
{
public class FTPFileSystemWatcher
{
private readonly string _path;
public event FileSystemEventHandler FTPFileCreated;
public event FileSystemEventHandler FTPFileDeleted;
public event FileSystemEventHandler FTPFileChanged;
private Dictionary<string, LastWriteTime> _createdFilesToCheck;
private readonly object _lockObject = new object();
private const int _milliSecondsSinceLastWrite = 5000;
private const int _createdCheckTimerInterval = 2000;
private readonly FileSystemWatcher _baseWatcher;
public FTPFileSystemWatcher(string path, string Filter)
{
_path = path;
_baseWatcher = new FileSystemWatcher(path,Filter);
SetUpEventHandling();
}
public FTPFileSystemWatcher(string path)
{
_path = path;
_baseWatcher = new FileSystemWatcher(path);
SetUpEventHandling();
}
private void SetUpEventHandling()
{
_createdFilesToCheck = new Dictionary<string, LastWriteTime>();
Timer copyTimer = new Timer(_createdCheckTimerInterval);
copyTimer.Elapsed += copyTimer_Elapsed;
copyTimer.Enabled = true;
copyTimer.Start();
_baseWatcher.EnableRaisingEvents = true;
_baseWatcher.Created += _baseWatcher_Created;
_baseWatcher.Deleted += _baseWatcher_Deleted;
_baseWatcher.Changed += _baseWatcher_Changed;
}
void copyTimer_Elapsed(object sender, ElapsedEventArgs e)
{
lock (_lockObject)
{
Console.WriteLine("Checking : " + DateTime.Now);
DateTime dateToCheck = DateTime.Now;
List<string> toRemove = new List<string>();
foreach (KeyValuePair<string, LastWriteTime> fileToCopy in _createdFilesToCheck)
{
FileInfo fileToCheck = new FileInfo(_path + fileToCopy.Key);
TimeSpan difference = fileToCheck.LastWriteTime - fileToCopy.Value.Date;
fileToCopy.Value.Update(fileToCopy.Value.Date.AddMilliseconds(difference.TotalMilliseconds));
if (fileToCopy.Value.Date.AddMilliseconds(_milliSecondsSinceLastWrite) < dateToCheck)
{
FileSystemEventArgs args = new FileSystemEventArgs(WatcherChangeTypes.Created, _path, fileToCopy.Key);
toRemove.Add(fileToCopy.Key);
InvokeFTPFileCreated(args);
}
}
foreach (string removal in toRemove)
{
_createdFilesToCheck.Remove(removal);
}
}
}
void _baseWatcher_Changed(object sender, FileSystemEventArgs e)
{
InvokeFTPFileChanged(e);
}
void _baseWatcher_Deleted(object sender, FileSystemEventArgs e)
{
InvokeFTPFileDeleted(e);
}
void _baseWatcher_Created(object sender, FileSystemEventArgs e)
{
if (!_createdFilesToCheck.ContainsKey(e.Name))
{
FileInfo fileToCopy = new FileInfo(e.FullPath);
_createdFilesToCheck.Add(e.Name,new LastWriteTime(fileToCopy.LastWriteTime));
}
}
private void InvokeFTPFileChanged(FileSystemEventArgs e)
{
FileSystemEventHandler Handler = FTPFileChanged;
if (Handler != null)
{
Handler(this, e);
}
}
private void InvokeFTPFileDeleted(FileSystemEventArgs e)
{
FileSystemEventHandler Handler = FTPFileDeleted;
if (Handler != null)
{
Handler(this, e);
}
}
private void InvokeFTPFileCreated(FileSystemEventArgs e)
{
FileSystemEventHandler Handler = FTPFileCreated;
if (Handler != null)
{
Handler(this, e);
}
}
}
public class LastWriteTime
{
private DateTime _date;
public DateTime Date
{
get { return _date; }
}
public LastWriteTime(DateTime date)
{
_date = date;
}
public void Update(DateTime dateTime)
{
_date = dateTime;
}
}
}
Wait until you can exclusively open the file- I wouldn't go as far to say that it is a nice solution, but probably the safest strategy in the circumstances.
When file gets copied from another server using FTP, before complete file copy , file name gets renamed with extra extension like .TMP as shown in path example below.
C:\InterfaceServer\OilAndGas\XMLForTest\TestStbFile.xml.TMP
To overcome this situation follow two steps
You need to just call the below method to remove the extra extension and add wait for 2 seconds in the code so that the complete file gets created and you can use it for further processing.
public static string VerifyIfStubFile(string filePath, string extension)
{
if (filePath.Length - (filePath.IndexOf(extension) + extension.Length) != 0)
{
/*LogMsg("Info : VerifyIfStubFile : Stub file found. Lets fix it!!"); */
return filePath = filePath.Substring(0, (filePath.IndexOf(extension) + extension.Length));
}
return filePath;
}
here's an implementation to keep in sync
using System;
using System.Configuration;
using System.IO;
using System.Threading;
namespace FolderSyncing
{
public class FolderSync
{
private readonly string masterDirectoryPath;
private readonly string slaveDirectoryPath;
public FolderSync()
{
masterDirectoryPath = ConfigurationManager.AppSettings.Get("MasterDirectory");
slaveDirectoryPath = ConfigurationManager.AppSettings.Get("SlaveDirectory");
if (Directory.Exists(masterDirectoryPath) && Directory.Exists(slaveDirectoryPath))
{
FTPFileSystemWatcher watcher = new FTPFileSystemWatcher(masterDirectoryPath);
watcher.FTPFileChanged += watcher_FTPFileChanged;
watcher.FTPFileCreated += watcher_FTPFileCreated;
watcher.FTPFileDeleted += watcher_FTPFileDeleted;
}
else
{
Console.WriteLine("Directories were not located check config paths");
}
}
void watcher_FTPFileDeleted(object sender, FileSystemEventArgs e)
{
DeleteFile(slaveDirectoryPath + e.Name, 5, 1);
}
void watcher_FTPFileCreated(object sender, FileSystemEventArgs e)
{
CopyFile(e.Name,5,1);
}
void watcher_FTPFileChanged(object sender, FileSystemEventArgs e)
{
}
private void DeleteFile(string fullPath, int attempts, int attemptNo)
{
if (File.Exists(fullPath))
{
try
{
File.Delete(fullPath);
Console.WriteLine("Deleted " + fullPath);
}
catch (Exception)
{
if (attempts > attemptNo)
{
Console.WriteLine("Failed deleting " + fullPath + "trying again "+ attemptNo.ToString()+ " of "+attempts);
Thread.Sleep(500);
DeleteFile(fullPath, attempts, attemptNo + 1);
}
else
{
Console.WriteLine("Critically Failed deleting " + fullPath);
}
}
}
}
private void CopyFile(string fileName,int attempts, int attemptNo)
{
string masterFile = masterDirectoryPath + fileName;
string slaveFile = slaveDirectoryPath + fileName;
if (File.Exists(masterFile))
{
try
{
File.Copy(masterFile,slaveFile);
Console.WriteLine("Copied " + masterFile);
}
catch (Exception)
{
if (attempts > attemptNo)
{
Console.WriteLine("Failed copying " + masterFile + "trying again " + attemptNo.ToString() + " of " + attempts);
Thread.Sleep(500);
CopyFile(fileName, attempts, attemptNo + 1);
}
else
{
Console.WriteLine("Critically Failed copying " + masterFile);
}
}
}
}
}
}