Check last modified date of file in C#
System.IO.File.GetLastWriteTime is what you need.
You simply want the File.GetLastWriteTime
static method.
Example:
var lastModified = System.IO.File.GetLastWriteTime("C:\foo.bar");
Console.WriteLine(lastModified.ToString("dd/MM/yy HH:mm:ss"));
Note however that in the rare case the last-modified time is not updated by the system when writing to the file (this can happen intentionally as an optimisation for high-frequency writing, e.g. logging, or as a bug), then this approach will fail, and you will instead need to subscribe to file write notifications from the system, constantly listening.
Be aware that the function File.GetLastWriteTime does not always work as expected, the values are sometimes not instantaneously updated by the OS. You may get an old Timestamp, even if the file has been modified right before.
The behaviour may vary between OS versions. For example, this unit test worked well every time on my developer machine, but it always fails on our build server.
[TestMethod]
public void TestLastModifiedTimeStamps()
{
var tempFile = Path.GetTempFileName();
var lastModified = File.GetLastWriteTime(tempFile);
using (new FileStream(tempFile, FileMode.Create, FileAccess.Write, FileShare.None))
{
}
Assert.AreNotEqual(lastModified, File.GetLastWriteTime(tempFile));
}
See File.GetLastWriteTime seems to be returning 'out of date' value
Your options:
a) live with the occasional omissions.
b) Build up an active component realising the observer pattern (eg. a tcp server client structure), communicating the changes directly instead of writing / reading files. Fast and flexible, but another dependency and a possible point of failure (and some work, of course).
c) Ensure the signalling process by replacing the content of a dedicated signal file that other processes regularly read. It´s not that smart as it´s a polling procedure and has a greater overhead than calling File.GetLastWriteTime, but if not checking the content from too many places too often, it will do the work.
/// <summary>
/// type to set signals or check for them using a central file
/// </summary>
public class FileSignal
{
/// <summary>
/// path to the central file for signal control
/// </summary>
public string FilePath { get; private set; }
/// <summary>
/// numbers of retries when not able to retrieve (exclusive) file access
/// </summary>
public int MaxCollisions { get; private set; }
/// <summary>
/// timespan to wait until next try
/// </summary>
public TimeSpan SleepOnCollisionInterval { get; private set; }
/// <summary>
/// Timestamp of the last signal
/// </summary>
public DateTime LastSignal { get; private set; }
/// <summary>
/// constructor
/// </summary>
/// <param name="filePath">path to the central file for signal control</param>
/// <param name="maxCollisions">numbers of retries when not able to retrieve (exclusive) file access</param>
/// <param name="sleepOnCollisionInterval">timespan to wait until next try </param>
public FileSignal(string filePath, int maxCollisions, TimeSpan sleepOnCollisionInterval)
{
FilePath = filePath;
MaxCollisions = maxCollisions;
SleepOnCollisionInterval = sleepOnCollisionInterval;
LastSignal = GetSignalTimeStamp();
}
/// <summary>
/// constructor using a default value of 50 ms for sleepOnCollisionInterval
/// </summary>
/// <param name="filePath">path to the central file for signal control</param>
/// <param name="maxCollisions">numbers of retries when not able to retrieve (exclusive) file access</param>
public FileSignal(string filePath, int maxCollisions): this (filePath, maxCollisions, TimeSpan.FromMilliseconds(50))
{
}
/// <summary>
/// constructor using a default value of 50 ms for sleepOnCollisionInterval and a default value of 10 for maxCollisions
/// </summary>
/// <param name="filePath">path to the central file for signal control</param>
public FileSignal(string filePath) : this(filePath, 10)
{
}
private Stream GetFileStream(FileAccess fileAccess)
{
var i = 0;
while (true)
{
try
{
return new FileStream(FilePath, FileMode.Create, fileAccess, FileShare.None);
}
catch (Exception e)
{
i++;
if (i >= MaxCollisions)
{
throw e;
}
Thread.Sleep(SleepOnCollisionInterval);
};
};
}
private DateTime GetSignalTimeStamp()
{
if (!File.Exists(FilePath))
{
return DateTime.MinValue;
}
using (var stream = new FileStream(FilePath, FileMode.Open, FileAccess.Read, FileShare.None))
{
if(stream.Length == 0)
{
return DateTime.MinValue;
}
using (var reader = new BinaryReader(stream))
{
return DateTime.FromBinary(reader.ReadInt64());
};
}
}
/// <summary>
/// overwrites the existing central file and writes the current time into it.
/// </summary>
public void Signal()
{
LastSignal = DateTime.Now;
using (var stream = new FileStream(FilePath, FileMode.Create, FileAccess.Write, FileShare.None))
{
using (var writer = new BinaryWriter(stream))
{
writer.Write(LastSignal.ToBinary());
}
}
}
/// <summary>
/// returns true if the file signal has changed, otherwise false.
/// </summary>
public bool CheckIfSignalled()
{
var signal = GetSignalTimeStamp();
var signalTimestampChanged = LastSignal != signal;
LastSignal = signal;
return signalTimestampChanged;
}
}
Some tests for it:
[TestMethod]
public void TestSignal()
{
var fileSignal = new FileSignal(Path.GetTempFileName());
var fileSignal2 = new FileSignal(fileSignal.FilePath);
Assert.IsFalse(fileSignal.CheckIfSignalled());
Assert.IsFalse(fileSignal2.CheckIfSignalled());
Assert.AreEqual(fileSignal.LastSignal, fileSignal2.LastSignal);
fileSignal.Signal();
Assert.IsFalse(fileSignal.CheckIfSignalled());
Assert.AreNotEqual(fileSignal.LastSignal, fileSignal2.LastSignal);
Assert.IsTrue(fileSignal2.CheckIfSignalled());
Assert.AreEqual(fileSignal.LastSignal, fileSignal2.LastSignal);
Assert.IsFalse(fileSignal2.CheckIfSignalled());
}