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This question already has an answer here:

I'd like to write a test script or program that asserts that all dlls in a given directory are of a particular build type.

I would use this as a sanity check at the end of a build process on an sdk to make sure that the 64bit version hasn't somehow got some 32bit dlls in it and vice versa.

Is there an easy way to look at a dll file and determine its type?

The solution should work on both xp32 and xp64.

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marked as duplicate by nawfal, DocMax, Konrad Viltersten, Daij-Djan, JaredMcAteer Feb 25 '13 at 23:22

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

I appreciate that once you know the answer this question and share a solution. However the questions asked were different. One asked explicitly about dlls and one asked explicitly about exes. This question receives a fair few upvotes so I think it maps well to the problem people are trying to find an answer to. Similar thoughts on duplication discussed here – morechilli Jan 15 at 10:45
up vote 76 down vote accepted

Gory details

A DLL uses the PE executable format, and it's not too tricky to read that information out of the file.

See this MSDN article on the PE File Format for an overview. You need to read the MS-DOS header, then read the IMAGE_NT_HEADERS structure. This contains the IMAGE_FILE_HEADER structure which contains the info you need in the Machine member which contains one of the following values

  • IMAGE_FILE_MACHINE_I386 (0x014c)
  • IMAGE_FILE_MACHINE_IA64 (0x0200)

This information should be at a fixed offset in the file, but I'd still recommend traversing the file and checking the signature of the MS-DOS header and the IMAGE_NT_HEADERS to be sure you cope with any future changes.

Use ImageHelp to read the headers...

You can also use the ImageHelp API to do this - load the DLL with LoadImage and you'll get a LOADED_IMAGE structure which will contain a pointer to an IMAGE_NT_HEADERS structure. Deallocate the LOADED_IMAGE with ImageUnload.

...or adapt this rough Perl script

Here's rough Perl script which gets the job done. It checks the file has a DOS header, then reads the PE offset from the IMAGE_DOS_HEADER 60 bytes into the file.

It then seeks to the start of the PE part, reads the signature and checks it, and then extracts the value we're interested in.

# usage: petype <exefile>
$exe = $ARGV[0];

open(EXE, $exe) or die "can't open $exe: $!";
if (read(EXE, $doshdr, 64)) {

   ($magic,$skip,$offset)=unpack('a2a58l', $doshdr);
   die("Not an executable") if ($magic ne 'MZ');

   if (read(EXE, $pehdr, 6)){
       ($sig,$skip,$machine)=unpack('a2a2v', $pehdr);
       die("No a PE Executable") if ($sig ne 'PE');

       if ($machine == 0x014c){
            print "i386\n";
       elsif ($machine == 0x0200){
            print "IA64\n";
       elsif ($machine == 0x8664){
            print "AMD64\n";
            printf("Unknown machine type 0x%lx\n", $machine);

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Thanks for the great answer! But shouldn't you be reading 2+58+4=64 bytes? – Michael Clerx Oct 30 '15 at 11:10
well spotted some 6 years after I posted this...corrected – Paul Dixon Nov 1 '15 at 12:38

A crude way would be to call dumpbin with the headers option from the Visual Studio tools on each DLL and look for the appropriate output:

dumpbin /headers my32bit.dll

PE signature found

File Type: DLL

             14C machine (x86)
               1 number of sections
        45499E0A time date stamp Thu Nov 02 03:28:10 2006
               0 file pointer to symbol table
               0 number of symbols
              E0 size of optional header
            2102 characteristics
                   32 bit word machine

             10B magic # (PE32)

You can see a couple clues in that output that it is a 32 bit DLL, including the 14C value that Paul mentions. Should be easy to look for in a script.

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WARNING: This method does not seem to work on anything .NET? Returns 32-bit for all .NET .dll or .exe programs, regardless of whether they are compiled for x32 or x32/x64 ("All CPU"). Appears as if every .NET executable has a 32-bit native header, and it calls the appropriate 32-bit or 64-bit .NET runtime when its invoked. – Contango Mar 2 '11 at 12:16
Interesting. That would seem to be ok by me since an AnyCPU DLL "could" run on a 32-bit machine. What about 64-bit only .NET DLLs? – Jeremy Mar 2 '11 at 20:56
@Contango: That's not entirely true(x64 only DLL's show correct header, even if .NET executable). The "Any CPU" part is true because the "real bitness" will be determined on assembly load, thus that can't be hardcoded in the assembly itself. You can use corflags utility that comes with dumpbin in order to see information about .NET executable. – Erti-Chris Eelmaa Oct 14 '14 at 15:53
Example of using corflags here – Matthew Lock Dec 4 '15 at 0:58

If you have Cygwin installed (which I strongly recommend for a variety of reasons), you could use the 'file' utility on the DLL, which would give an output like this:

icuuc36.dll: MS-DOS executable PE  for MS Windows (DLL) (GUI) Intel 80386 32-bit
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Hi DevSolar, Please let me know how to perform this in Cygwin. Thanks, Magesh. – user317228 Jan 27 '11 at 12:27
Erm... where is the problem? file <filename>. I am not sure if file is part of the core setup, or if you have to select it for installation, but it's certainly available in Cygwin as I have used it in the past. – DevSolar Jan 27 '11 at 22:25
Anybody who uses MingW and doesn't realize it, this is also a Cygwin based thing, and it has this too. – Warren P Mar 16 '11 at 17:58
@BradLaney: Which is funny, because the above output is copy & paste from my box (WinXP / Cygwin). Testing on another box (Win7) gives me: MS-DOS executable, NE for MS Windows 3.x (driver) for "Windows\system\COMMDLG.DLL", PE32 executable for MS Windows (DLL) (GUI) Intel 80386 32-bit for "Program Files\Internet Explorer\iecompat.dll"... at which point I stopped testing and still claim that, if you all you get is "mono", either you only tested Mono assemblies, or your Cygwin installation is borked. – DevSolar May 1 '12 at 11:20
Example output for a 64-bit DLL: boost_math_c99f-vc140-mt-1_58.dll: PE32+ executable (DLL) (console) x86-64, for MS Windows – Nick Jul 1 '15 at 17:29

Dependency Walker tells all(well almost).

It does not "install" -just get it, extract it and run the exec. It works for any x32 or x64 windows module|application.

As I recall it is fairly straightforward to see all dependencies, i.e. the dll modules, and since the appl. is a sum of the dependencies one can ascertain if it is full x64, x32(x86) or a bit of each.

Type of CPU that the module was built for is in the "CPU" column. Most 64-bit aps are still a bit of each but 32-bit ap w/b all x86.

Beautiful program for geeks/programmers and it is free...

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Dependency Walker doesn't seem to work on .NET .dll or .exe files. Did a quick test with 32-bit and 64-bit .NET console applications, and it couldn't tell the difference. – Contango Mar 2 '11 at 12:21
@Gravitas For .Net files you need to use CorFlags.exe – expert Aug 21 '12 at 23:01
The download links on the website are broken. – Jonathan Parker Nov 13 '13 at 0:48
If I do this job, I will simply let the user upload his/her dll file and display information, without download any executables and install it and run it. – user2384994 May 20 '14 at 5:16
If the file is 64-bit, there will be an icon with a little 64 at the right. Be careful to look at the file of interest, not its dependencies because if you are using the x64 version of Depends, it will show 64-bit dependencies for a 32-bit module (with a red icon and an error: Modules with different CPU types were found). – Maxence Dec 18 '15 at 10:31

I have written a very simple tool that does exactly that - it's called PE Deconstructor.

Simply fire it up and load your DLL file:

enter image description here

In the example above, the loaded DLL is 32-bit.

You can download it here (I only have the 64-bit version compiled ATM):

An older 32-bit version is available here:

share|improve this answer
I tried this on the PE Deconstructor amd64 executable and it said it was 32 bit. – chrysanhy Aug 3 '12 at 20:36
@chrysanhy: That's strange - do any other tools report that the executable is 32-bit? – Nathan Osman Aug 3 '12 at 21:34

protected by Community Aug 18 '11 at 10:33

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