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Is there a library I can use in Linux that will return the properties of a Windows EXE file that are listed in Explorer's Version tab? These are fields like Product Name, Product Version, Description, etc.

For my project, the EXE file can be only read from memory, not from a file. I would like to avoid writing the EXE file to disk.

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I am not sure that I understand the restriction of the EXE file can be only read from memory. Nor do I understand the comment that you would like to avoid writing the EXE file to disk. The various EXE properties you describe are resources, strings, stored in the resource section of an EXE or DLL. So the basic mechanics are to read the EXE or DLL file looking for the resource section and then parse through the resource section looking for the specific version, etc. resources that you want and display them. – Richard Chambers Sep 18 '12 at 12:38
Are you poking a running executable on another machine (from Linux to Windows), maybe through a firewire DMA access ? – ixe013 Sep 18 '12 at 18:05
up vote 19 down vote accepted

The version of the file is in the VS_FIXEDFILEINFO struct, but you have to find it into the executable data. There are two ways of doing what you want:

  1. Search for the VERSION_INFO signature in the file and read the VS_FIXEDFILEINFO struct directly.
  2. Find the .rsrc section, parse the resource tree, find the RT_VERSION resource, parse it and extract the VS_FIXEDFILEINFO data.

The first one is easier, but susceptible to find the signature by chance in the wrong place. Moreover, the other data you ask for (product name, description, etc.) are not in this structure, so I'll try to explain how to obtain the data the hard way.

The PE format is a bit convoluted so I'm pasting the code piece by piece, with comments, and with minimum error checking. I'll write a simple function that dumps the data to the standard output. Writing it as a proper function is left as an exercise to the reader :)

Note that I will be using offsets in the buffer instead of mapping the structs directly to avoid portability problems related to the alignment or padding of the struct fields. Anyway, I've annotated the type of the structs used (see include file winnt.h for details).

First a few useful declarations, they should be self-explanatory:

typedef uint32_t DWORD;
typedef uint16_t WORD;
typedef uint8_t BYTE;

#define READ_BYTE(p) (((unsigned char*)(p))[0])
#define READ_WORD(p) ((((unsigned char*)(p))[0]) | ((((unsigned char*)(p))[1]) << 8))
#define READ_DWORD(p) ((((unsigned char*)(p))[0]) | ((((unsigned char*)(p))[1]) << 8) | \
    ((((unsigned char*)(p))[2]) << 16) | ((((unsigned char*)(p))[3]) << 24))

#define PAD(x) (((x) + 3) & 0xFFFFFFFC)

Then a function that finds the Version resource in the executable image (no size checks).

const char *FindVersion(const char *buf)

The first structure in the EXE is the MZ header (for compatibility with MS-DOS).

    //buf is a IMAGE_DOS_HEADER
    if (READ_WORD(buf) != 0x5A4D) //MZ signature
        return NULL;

The only field interesting in the MZ header is the offset of the PE header. The PE header is the real thing.

    //pe is a IMAGE_NT_HEADERS32
    const char *pe = buf + READ_DWORD(buf + 0x3C);
    if (READ_WORD(pe) != 0x4550) //PE signature
        return NULL;

Actually, the PE header is quite boring, we want the COFF header, that have all the symbolic data.

    //coff is a IMAGE_FILE_HEADER
    const char *coff = pe + 4;

We just need the following fields from this one.

    WORD numSections = READ_WORD(coff + 2);
    WORD optHeaderSize = READ_WORD(coff + 16);
    if (numSections == 0 || optHeaderSize == 0)
        return NULL;

The optional header is actually mandatory in an EXE and it is just after the COFF. The magic is different for 32 and 64 bits Windows. I'm assuming 32 bits from here on.

    //optHeader is a IMAGE_OPTIONAL_HEADER32
    const char *optHeader = coff + 20;
    if (READ_WORD(optHeader) != 0x10b) //Optional header magic (32 bits)
        return NULL;

Here comes the interesting part: we want to find the resources section. It has two parts: 1. the section data, 2. the section metadata.

The data location is in a table at the end of the optional header, and each section has a well known index in this table. Resource section is in index 2, so we obtain the virtual address (VA) of the resource section with:

    //dataDir is an array of IMAGE_DATA_DIRECTORY
    const char *dataDir = optHeader + 96;
    DWORD vaRes = READ_DWORD(dataDir + 8*2);

    //secTable is an array of IMAGE_SECTION_HEADER
    const char *secTable = optHeader + optHeaderSize;

To get the section metadata we need to iterate the section table looking for a section named .rsrc.

    int i;
    for (i = 0; i < numSections; ++i)
        //sec is a IMAGE_SECTION_HEADER*
        const char *sec = secTable + 40*i;
        char secName[9];
        memcpy(secName, sec, 8);
        secName[8] = 0;

        if (strcmp(secName, ".rsrc") != 0)

The section struct has two relevant members: the VA of the section and the offset of the section into the file (also the size of the section, but I'm not checking it!):

        DWORD vaSec = READ_DWORD(sec + 12);
        const char *raw = buf + READ_DWORD(sec + 20);

Now the offset in the file that correspond to the vaRes VA we got before is easy.

        const char *resSec = raw + (vaRes - vaSec);

This is a pointer to the resource data. All the individual resources are set up in the form of a tree, with 3 levels: 1) type of resource, 2) identifier of resource, 3) language of resource. For the version we will get the very first one of the correct type.

First, we have a resource directory (for the type of resource), we get the number of entries in the directory, both named and unnamed and iterate:

        WORD numNamed = READ_WORD(resSec + 12);
        WORD numId = READ_WORD(resSec + 14);

        int j;
        for (j = 0; j < numNamed + numId; ++j)

For each resource entry we get the type of the resource and discard it if it is not the RT_VERSION constant (16).

            //resSec is a IMAGE_RESOURCE_DIRECTORY followed by an array
            const char *res = resSec + 16 + 8 * j;
            DWORD name = READ_DWORD(res);
            if (name != 16) //RT_VERSION

If it is a RT_VERSION we get to the next resource directory in the tree:

            DWORD offs = READ_DWORD(res + 4);
            if ((offs & 0x80000000) == 0) //is a dir resource?
                return NULL;
            //verDir is another IMAGE_RESOURCE_DIRECTORY and 
            const char *verDir = resSec + (offs & 0x7FFFFFFF);

And go on to the next directory level, we don't care about the id. of this one:

            numNamed = READ_WORD(verDir + 12);
            numId = READ_WORD(verDir + 14);
            if (numNamed == 0 && numId == 0)
                return NULL;
            res = verDir + 16;
            offs = READ_DWORD(res + 4);
            if ((offs & 0x80000000) == 0) //is a dir resource?
                return NULL;

The third level has the language of the resource. We don't care either, so just grab the first one:

            //and yet another IMAGE_RESOURCE_DIRECTORY, etc.
            verDir = resSec + (offs & 0x7FFFFFFF);                    
            numNamed = READ_WORD(verDir + 12);
            numId = READ_WORD(verDir + 14);
            if (numNamed == 0 && numId == 0)
                return NULL;
            res = verDir + 16;
            offs = READ_DWORD(res + 4);
            if ((offs & 0x80000000) != 0) //is a dir resource?
                return NULL;
            verDir = resSec + offs;

And we get to the real resource, well, actually a struct that contains the location and size of the real resource, but we don't care about the size.

            DWORD verVa = READ_DWORD(verDir);

That's the VA of the version resouce, that is converted into a pointer easily.

            const char *verPtr = raw + (verVa - vaSec);
            return verPtr;

And done! If not found return NULL.

        return NULL;
    return NULL;

Now that the version resource is found, we have to parse it. It is actually a tree (what else) of pairs "name" / "value". Some values are well known and that's what you are looking for, just do some test and you will find out which ones.

NOTE: All strings are stored in UNICODE (UTF-16) but my sample code does the dumb conversion into ASCII. Also, no checks for overflow.

The function takes the pointer to the version resource and the offset into this memory (0 for starters) and returns the number of bytes analyzed.

int PrintVersion(const char *version, int offs)

First of all the offset have to be a multiple of 4.

    offs = PAD(offs);

Then we get the properties of the version tree node.

    WORD len    = READ_WORD(version + offs);
    offs += 2;
    WORD valLen = READ_WORD(version + offs);
    offs += 2;
    WORD type   = READ_WORD(version + offs);
    offs += 2;

The name of the node is a Unicode zero-terminated string.

    char info[200];
    int i;
    for (i=0; i < 200; ++i)
        WORD c = READ_WORD(version + offs);
        offs += 2;

        info[i] = c;
        if (!c)

More padding, if neccesary:

    offs = PAD(offs);

If type is not 0, then it is a string version data.

    if (type != 0) //TEXT
        char value[200];
        for (i=0; i < valLen; ++i)
            WORD c = READ_WORD(version + offs);
            offs += 2;
            value[i] = c;
        value[i] = 0;
        printf("info <%s>: <%s>\n", info, value);

Else, if the name is VS_VERSION_INFO then it is a VS_FIXEDFILEINFO struct. Else it is binary data.

        if (strcmp(info, "VS_VERSION_INFO") == 0)

I'm just printing the version of the file and product, but you can find the other fields of this struct easily. Beware of the mixed endian order.

            //fixed is a VS_FIXEDFILEINFO
            const char *fixed = version + offs;
            WORD fileA = READ_WORD(fixed + 10);
            WORD fileB = READ_WORD(fixed + 8);
            WORD fileC = READ_WORD(fixed + 14);
            WORD fileD = READ_WORD(fixed + 12);
            WORD prodA = READ_WORD(fixed + 18);
            WORD prodB = READ_WORD(fixed + 16);
            WORD prodC = READ_WORD(fixed + 22);
            WORD prodD = READ_WORD(fixed + 20);
            printf("\tFile: %d.%d.%d.%d\n", fileA, fileB, fileC, fileD);
            printf("\tProd: %d.%d.%d.%d\n", prodA, prodB, prodC, prodD);
        offs += valLen;

Now do the recursive call to print the full tree.

    while (offs < len)
        offs = PrintVersion(version, offs);

And some more padding before returning.

    return PAD(offs);

Finally, as a bonus, a main function.

int main(int argc, char **argv)
    struct stat st;
    if (stat(argv[1], &st) < 0)
        return 1;

    char *buf = malloc(st.st_size);

    FILE *f = fopen(argv[1], "r");
    if (!f)
        return 2;

    fread(buf, 1, st.st_size, f);

    const char *version = FindVersion(buf);
    if (!version)
        printf("No version\n");
        PrintVersion(version, 0);
    return 0;

I've tested it with a few random EXEs and it seems to work just fine.

share|improve this answer
Awesome answer! This link is going to be my reply when anyone asks "How good stackoverflow is?" – TheCodeArtist Sep 20 '12 at 13:09
Fantastic! Thank you. – craig65535 Sep 21 '12 at 1:10
I created a gist combining all the C listings into a single C source code file. I have verified it compiles and works. You can find it here: – djhaskin987 Jan 27 at 19:09

Install winelib This is port of MS Windows API to others systems, including linux.

Then use MS Windows API. Like GetFileVersionInfo
Or any other functions.

I never did it, but I would start with these findings.

Regarding exe file in memory constraint, can you copy it to RAM disk?

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Does this solution require that WINE be installed on the machine on which the application is being used? Is winelib a static library or has a static library version so that an executable could be ported to other Linux machines without installing WINE on that machine? Is this independent of Linux distro? – Richard Chambers Sep 18 '12 at 12:34
@RichardChambers AFAIK application compiled with winelib requires Wine to run. – PiotrNycz Sep 18 '12 at 13:14

I know pev is a tool on Ubuntu that allows you to see this information, along with a lot of other PE header info. I also know it's written in C. Maybe you'll want to have a look at it. A bit from its history section in the docs:

pev has born in 2010 from a simple need: a program to find out the version (File Version) of a PE32 file and that could be run in Linux. This version number is stored in Resources (.rsrc) section but at the time we've decided to simply search for the string in the whole binary, without any optimization.

Later on we've decided to parse the PE32 file until reach .rsrc section and get the File Version field. In order to do that, we realized we must parse the entire file and we thought if we could print out all the fields and values as well...

Until version 0.40, pev was an unique program for parse the PE headers and sections (now readpe is responsible for this). In version 0.50 we focused on malware analysis and splitted pev into various programs beyond a library, called libpe. Currently all pev programs use libpe.

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If you have to read it from memory, I think you have to implement something yourself. A good start is the wrestool:

wrestool --type=16 -x --raw Paint.NET.3.5.10.Install.exe 

It is available on Ubuntu on icoutils. The version information is just a series of strings on a resource file embedded on the executable. I think you can have a look on the source code of wrestool and check how they find the start of the resource block. Once you find VERSION_INFO resources, you can figure out how to translate them to printable information (using a hex editor, it is readable).

icoutils is GPL... so you can't just grab part of it, not without contaminating your program. But the source code is free, so you can check what they did and write a custom solution.

The PE file format is also available on the internet. You can start here:

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The PE header and resource are different and pretty much unreleated, I'm afraid... – ixe013 Sep 18 '12 at 17:43
Yes, they are two different things. The PE header, of the executable, contains many sections. One of these sections is a resource one. If you find the start of the resource section, than the format of the embedded resource file is important. They already do that on the wrestool to extract icons and strings from Windows executables. The version information you want, is there too. – nmenezes Sep 18 '12 at 18:54

Here is an example in the Tcl language to parse through a .exe file to retrieve the version information.

Reading version information from Win32 executables.

This web page describes the .exe header format. I am not sure of the date of this information or whether it applies to more recent versions of Windows or not. However it is a starting place.

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Here is a patch for code to support PE32+. Tested on some files and seems to work.

//optHeader is a IMAGE_OPTIONAL_HEADER32
const char *optHeader = coff + 20;
WORD magic = READ_WORD(optHeader);
if (magic != 0x10b && magic != 0x20b)
    return NULL;

//dataDir is an array of IMAGE_DATA_DIRECTORY
const char *dataDir = optHeader + (magic==0x10b ? 96: 112);
DWORD vaRes = READ_DWORD(dataDir + 8*2);
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