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I need to know if two files are identical. At first I compared file sizes and creation timestamps, but that's not reliable enough. I have come up with the following code, that seems to work, but I'm hoping that someone has a better, easier or faster way of doing it.

Basically what I am doing, is streaming the file contents to byte arrays, and comparing thier MD5 hashes via System.Security.Cryptography.

Before that I do some simple checks though, since there is no reason to read through the files, if both file paths are identical, or one of the files does not exist.

Public Function CompareFiles(ByVal file1FullPath As String, ByVal file2FullPath As String) As Boolean

    If Not File.Exists(file1FullPath) Or Not File.Exists(file2FullPath) Then
        'One or both of the files does not exist.
        Return False
    End If

    If String.Compare(file1FullPath, file2FullPath, True) = 0 Then
        ' fileFullPath1 and fileFullPath2 points to the same file...
        Return True
    End If

    Dim MD5Crypto As New MD5CryptoServiceProvider()
    Dim textEncoding As New System.Text.ASCIIEncoding()

    Dim fileBytes1() As Byte, fileBytes2() As Byte
    Dim fileContents1, fileContents2 As String
    Dim streamReader As StreamReader = Nothing
    Dim fileStream As FileStream = Nothing
    Dim isIdentical As Boolean = False

    Try

        ' Read file 1 to byte array.
        fileStream = New FileStream(file1FullPath, FileMode.Open)
        streamReader = New StreamReader(fileStream)
        fileBytes1 = textEncoding.GetBytes(streamReader.ReadToEnd)
        fileContents1 = textEncoding.GetString(MD5Crypto.ComputeHash(fileBytes1))
        streamReader.Close()
        fileStream.Close()

        ' Read file 2 to byte array.
        fileStream = New FileStream(file2FullPath, FileMode.Open)
        streamReader = New StreamReader(fileStream)
        fileBytes2 = textEncoding.GetBytes(streamReader.ReadToEnd)
        fileContents2 = textEncoding.GetString(MD5Crypto.ComputeHash(fileBytes2))
        streamReader.Close()
        fileStream.Close()

        ' Compare byte array and return result.
        isIdentical = fileContents1 = fileContents2

    Catch ex As Exception

        isIdentical = False

    Finally

        If Not streamReader Is Nothing Then streamReader.Close()
        If Not fileStream Is Nothing Then fileStream.Close()
        fileBytes1 = Nothing
        fileBytes2 = Nothing

    End Try

    Return isIdentical
End Function
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  • When posting any non html/javascript/css code in a question, do not use the icon of the page with <> symbols in it, please use the {} button. Mar 3, 2015 at 14:38
  • This seems like a good way of doing things. I would split your methods into smaller ones with specific functions, like GetFileMD5(). Are you looking for an opinion or do you have a specific problem?
    – the_lotus
    Mar 3, 2015 at 14:41
  • Now that I've actually looked at the code, you could shorten the code up a bit but utilizing the Using statement on the StreamReader objects. Also if you are just wanting to know if the files are duplicates based on the data contents, you can skip the text encoding and just compare the MD5 of the streams. Another thing, StreamReaders are usually used to read in text files, if there is any chance of these files being other file types, you should look into using a FileStream object Mar 3, 2015 at 14:52
  • Sorry about the <> instead of {}, rookie mistake :-) But thanks for the comments, very helpful!
    – Gertsen
    Mar 3, 2015 at 15:09

2 Answers 2

7

I would say hashing the file is the way to go, It's how I have done it in the past.

Use Using statements when working with Streams and such, as they clean themselves up. Here is an example.

Public Function CompareFiles(ByVal file1FullPath As String, ByVal file2FullPath As String) As Boolean

If Not File.Exists(file1FullPath) Or Not File.Exists(file2FullPath) Then
    'One or both of the files does not exist.
    Return False
End If

If file1FullPath = file2FullPath Then
    ' fileFullPath1 and fileFullPath2 points to the same file...
    Return True
End If

Try
    Dim file1Hash as String = hashFile(file1FullPath)
    Dim file2Hash as String = hashFile(file2FullPath)

    If file1Hash = file2Hash Then
        Return True
    Else
        Return False
    End If

Catch ex As Exception
    Return False
End Try
End Function

Private Function hashFile(ByVal filepath As String) As String
    Using reader As New System.IO.FileStream(filepath, IO.FileMode.Open, IO.FileAccess.Read)
        Using md5 As New System.Security.Cryptography.MD5CryptoServiceProvider
            Dim hash() As Byte = md5.ComputeHash(reader) 
            Return System.Text.Encoding.Unicode.GetString(hash) 
        End Using
    End Using
End Function
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  • 1
    I like that you moved the hashing into a seperate function, since it's done twice. Nice use of "Using" for the cleanup. I wasn't aware that you could use the fileStream directly in the ComputeHash method, a nice improvement!
    – Gertsen
    Mar 3, 2015 at 15:11
  • 1
    hashToString is missing though? I'm guessing it's just converting the byte array to a string, or am I overlooking something?
    – Gertsen
    Mar 3, 2015 at 15:15
  • Well spotted, sorry about that. The code is from an old project. Yes hashtoString is a function which just converts a byte array to a string. I've updated my answer.
    – Nathan
    Mar 3, 2015 at 15:26
  • Note If you look up MD5, you will find: "Newer hash functions, such as the Secure Hash Algorithms SHA-256 and SHA-512, are available. Consider using the SHA256 class or the SHA512 class instead of the MD5 class. Use MD5 only for compatibility with legacy applications and data." This is an elegant routine; perhaps you should update it. Feb 21, 2019 at 17:17
3

This is what md5 is made for. You're doing it the right way. However, if you really want to improve it further, I can recommend some things to explore. The emphasis is on explore, because none of these are slam dunks. They may help, but they may also hurt, or they may be overkill. You'll need to evaluate them for your situation and determine (through testing) what will be the best solution.

The first recommendation is to compute the md5 hash without loading the entire file into RAM. The example is C#, but the VB.Net translation is fairly straightforward. If you're working with small files, then what you already have may be fine. However, for anything large enough to end up on .Net's Large Object Heap (85,000 bytes), you probably want to consider using the stream technique instead.

Additionally, if you're using a recent version of .Net, you might want to explore doing this asynchronously for each file. As a practical matter, I suspect you'll get best performance from what you have, as the disk I/O is likely to be the slowest part of this, and I'd expect traditional disks to perform best if you allow them to read from the files in sequence, rather than making your disk seek back and forth between the files. However, you may still be able to do better with asynchronous methods, especially if you follow the previous suggestion, because you can also await at the Read() call level, in addition to awaiting for the entire file. Also, if you're running this on an SSD, that would minimize the problems with seeks and could make an asynchronous solution a clear winner. One warning, though: this is a deep rabbit hole to chase... one that can be worthwhile, but you can also end up spending a lot of time on a YAGNI situation. This is the kind of thing, though, you might choose to explore once for a situation where you probably won't use it, so that you understand it well enough to know how it can help in the future for those situations when you do need it.

One more point is that, for the asynch recommendation to work, you need to isolate the hashing code into it's own method... but you should probably do this anyway.

My final recommendation is to remove the File.Exists() checks. This is a tempting test, I know, but it's almost always wrong. Especially if you adopt the first recommendation, just open the streams near the top of the method using an option that fails if the file does not exist, and make your check on whether the stream opened or not.

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  • 1
    I had written most of this answer, and was called away before I could finish. When I came back, the other answer here already covered most of the points. I didn't want to lose the work, so I posted it anyway. Also, my comments about asynch and File.Exists() are still valid. That said, the other answer here highlights the most important point already: it uses streams to create the hash, rather than reading the file, and I fully endorse it. Mar 3, 2015 at 15:38

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