# Can anyone define the Windows PE Checksum Algorithm?

I would like to implement this in C#

I have looked here: http://www.codeproject.com/KB/cpp/PEChecksum.aspx

And am aware of the ImageHlp.dll MapFileAndCheckSum function.

However, for various reasons, I would like to implement this myself.

The best I have found is here: http://forum.sysinternals.com/optional-header-checksum-calculation_topic24214.html

But, I don't understand the explanation. Can anyone clarify how the checksum is calculated?

Thanks!

Update

I from the code example, I do not understand what this means, and how to translate it into C#

``````sum -= sum < low 16 bits of CheckSum in file // 16-bit borrow
sum -= low 16 bits of CheckSum in file
sum -= sum < high 16 bits of CheckSum in file
sum -= high 16 bits of CheckSum in file
``````

Update #2

Thanks, came across some Python code that does similar too here

``````    def generate_checksum(self):

# This will make sure that the data representing the PE image
# is updated with any changes that might have been made by
# assigning values to header fields as those are not automatically
# updated upon assignment.
#
self.__data__ = self.write()

# Get the offset to the CheckSum field in the OptionalHeader
#
checksum_offset = self.OPTIONAL_HEADER.__file_offset__ + 0x40 # 64

checksum = 0

#
remainder = len(self.__data__) % 4
data = self.__data__ + ( '\0' * ((4-remainder) * ( remainder != 0 )) )

for i in range( len( data ) / 4 ):

# Skip the checksum field
#
if i == checksum_offset / 4:
continue

dword = struct.unpack('I', data[ i*4 : i*4+4 ])
checksum = (checksum & 0xffffffff) + dword + (checksum>>32)
if checksum > 2**32:
checksum = (checksum & 0xffffffff) + (checksum >> 32)

checksum = (checksum & 0xffff) + (checksum >> 16)
checksum = (checksum) + (checksum >> 16)
checksum = checksum & 0xffff

# The length is the one of the original data, not the padded one
#
return checksum + len(self.__data__)
``````

However, it's still not working for me - here is my conversion of this code:

``````using System;
using System.IO;

namespace CheckSumTest
{
class Program
{
static void Main(string[] args)
{

var PEStart = BitConverter.ToInt32(data, 0x3c);
var PECoffStart = PEStart + 4;
var PEOptionalStart = PECoffStart + 20;
var PECheckSum = PEOptionalStart + 64;
var checkSumInFile = BitConverter.ToInt32(data, PECheckSum);
Console.WriteLine(string.Format("{0:x}", checkSumInFile));

long checksum = 0;

var remainder = data.Length % 4;
if (remainder > 0)
{
Array.Resize(ref data, data.Length + (4 - remainder));
}

var top = Math.Pow(2, 32);

for (int i = 0; i < data.Length / 4; i++)
{
if (i == PECheckSum / 4)
{
continue;
}
var dword = BitConverter.ToInt32(data, i * 4);
checksum = (checksum & 0xffffffff) + dword + (checksum >> 32);
if (checksum > top)
{
checksum = (checksum & 0xffffffff) + (checksum >> 32);
}
}

checksum = (checksum & 0xffff) + (checksum >> 16);
checksum = (checksum) + (checksum >> 16);
checksum = checksum & 0xffff;

checksum += (uint)data.Length;
Console.WriteLine(string.Format("{0:x}", checksum));

}
}
}
``````

Can anyone tell me where I'm being stupid?

• What about the code do you not understand? Example code would be helpful. Jun 21, 2011 at 17:59
• Sorry - editing to make clearer
– Kram
Jun 21, 2011 at 18:03

Ok, finally got it working ok... my problem was that I was using ints not uints!!! So, this code works (assuming data is 4-byte aligned, otherwise you'll have to pad it out a little) - and PECheckSum is the position of the CheckSum value within the PE (which is clearly not used when calculating the checksum!!!!)

``````static uint CalcCheckSum(byte[] data, int PECheckSum)
{
long checksum = 0;
var top = Math.Pow(2, 32);

for (var i = 0; i < data.Length / 4; i++)
{
if (i == PECheckSum / 4)
{
continue;
}
var dword = BitConverter.ToUInt32(data, i * 4);
checksum = (checksum & 0xffffffff) + dword + (checksum >> 32);
if (checksum > top)
{
checksum = (checksum & 0xffffffff) + (checksum >> 32);
}
}

checksum = (checksum & 0xffff) + (checksum >> 16);
checksum = (checksum) + (checksum >> 16);
checksum = checksum & 0xffff;

checksum += (uint)data.Length;
return (uint)checksum;

}
``````
• This isn't correct. It doesn't match the ImageHlp.dll `MapFileAndCheckSum` output. Check out the output using the PE Checksum Executable provided in codeproject.com/Articles/19326/…
– Elmo
May 16, 2014 at 18:26

The code in the forum post is not strictly the same as what was noted during the actual disassembly of the Windows PE code. The CodeProject article you reference gives the "fold 32-bit value into 16 bits" as:

``````mov edx,eax    ; EDX = EAX
shr edx,10h    ; EDX = EDX >> 16    EDX is high order
and eax,0FFFFh ; EAX = EAX & 0xFFFF EAX is low order
add eax,edx    ; EAX = EAX + EDX    High Order Folded into Low Order
mov edx,eax    ; EDX = EAX
shr edx,10h    ; EDX = EDX >> 16    EDX is high order
add eax,edx    ; EAX = EAX + EDX    High Order Folded into Low Order
and eax,0FFFFh ; EAX = EAX & 0xFFFF EAX is low order 16 bits
``````

Which you could translate into C# as:

``````// given: uint sum = ...;
uint high = sum >> 16; // take high order from sum
sum &= 0xFFFF;         // clear out high order from sum
sum += high;           // fold high order into low order

high = sum >> 16;      // take the new high order of sum
sum += high;           // fold the new high order into sum
sum &= 0xFFFF;         // mask to 16 bits
``````
• Thanks again - have bumped your reply, but marked mine as the answer, as I think it represents the complete algorithm.
– Kram
Jun 27, 2011 at 13:33
• @Mark: certainly, I only intended to illustrate the relevant parts of the article. Jun 27, 2011 at 15:03

Java code below from emmanuel may not work. In my case it hangs and does not complete. I believe this is due to the heavy use of IO in the code: in particular the data.read()'s. This can be swapped with an array as solution. Where the RandomAccessFile fully or incrementally reads the file into a byte array(s).

I attempted this but the calculation was too slow due to the conditional for the checksum offset to skip the checksum header bytes. I would imagine that the OP's C# solution would have a similar problem.

The below code removes this also.

public static long computeChecksum(RandomAccessFile data, int checksumOffset) throws IOException {

``````    ...
byte[] barray = new byte[(int) length];

long i = 0;
long ch1, ch2, ch3, ch4, dword;

while (i < checksumOffset) {

ch1 = ((int) barray[(int) i++]) & 0xff;
...

checksum += dword = ch1 | (ch2 << 8) | (ch3 << 16) | (ch4 << 24);

if (checksum > top) {
checksum = (checksum & 0xffffffffL) + (checksum >> 32);
}
}
i += 4;

while (i < length) {

ch1 = ((int) barray[(int) i++]) & 0xff;
...

checksum += dword = ch1 | (ch2 << 8) | (ch3 << 16) | (ch4 << 24);

if (checksum > top) {
checksum = (checksum & 0xffffffffL) + (checksum >> 32);
}
}

checksum = (checksum & 0xffff) + (checksum >> 16);
checksum = checksum + (checksum >> 16);
checksum = checksum & 0xffff;
checksum += length;

return checksum;
}
``````

I still however think that code was too verbose and clunky so I swapped out the raf with a channel and rewrote the culprit bytes to zero's to eliminate the conditional. This code could still probably do with a cache style buffered read.

``````public static long computeChecksum2(FileChannel ch, int checksumOffset)
throws IOException {

ch.position(0);
long sum = 0;
long top = (long) Math.pow(2, 32);
long length = ch.size();

ByteBuffer buffer = ByteBuffer.wrap(new byte[(int) length]);
buffer.order(ByteOrder.LITTLE_ENDIAN);

buffer.putInt(checksumOffset, 0x0000);

buffer.position(0);
while (buffer.hasRemaining()) {
sum += buffer.getInt() & 0xffffffffL;
if (sum > top) {
sum = (sum & 0xffffffffL) + (sum >> 32);
}
}
sum = (sum & 0xffff) + (sum >> 16);
sum = sum + (sum >> 16);
sum = sum & 0xffff;
sum += length;

return sum;
}
``````

No one really answered the original question of "Can anyone define the Windows PE Checksum Algorithm?" so I'm going to define it as simply as possible. A lot of the examples given so far are optimizing for unsigned 32-bit integers (aka DWORDs), but if you just want to understand the algorithm itself at its most fundamental, it is simply this:

1. Using an unsigned 16-bit integer (aka a WORD) to store the checksum, add up all of the WORDs of the data except for the 4 bytes of the PE optional header checksum. If the file is not WORD-aligned, then the last byte is a 0x00.

2. Convert the checksum from a WORD to a DWORD and add the size of the file.

The PE checksum algorithm above is effectively the same as the original MS-DOS checksum algorithm. The only differences are the location to skip and replacing the XOR 0xFFFF at the end and adding the size of the file instead.

From my WinPEFile class for PHP, the above algorithm looks like:

``````    \$x = 0;
\$y = strlen(\$data);
\$val = 0;
while (\$x < \$y)
{
// Skip the checksum field location.
if (\$x === \$this->pe_opt_header["checksum_pos"])  \$x += 4;
else
{
\$val += self::GetUInt16(\$data, \$x, \$y);

// In PHP, integers are either signed 32-bit or 64-bit integers.
if (\$val > 0xFFFF)  \$val = (\$val & 0xFFFF) + 1;
}
}

\$val += \$y;
``````

I was trying to solve the same issue in Java. Here is Mark's solution translated into Java, using a RandomAccessFile instead of a byte array as input:

``````static long computeChecksum(RandomAccessFile data, long checksumOffset) throws IOException {
long checksum = 0;
long top = (long) Math.pow(2, 32);
long length = data.length();

for (long i = 0; i < length / 4; i++) {
if (i == checksumOffset / 4) {
data.skipBytes(4);
continue;
}

long dword = ch1 + (ch2 << 8) + (ch3 << 16) + (ch4 << 24);

checksum = (checksum & 0xffffffffL) + dword + (checksum >> 32);

if (checksum > top) {
checksum = (checksum & 0xffffffffL) + (checksum >> 32);
}
}

checksum = (checksum & 0xffff) + (checksum >> 16);
checksum = checksum + (checksum >> 16);
checksum = checksum & 0xffff;
checksum += length;

return checksum;
}
``````
``````private unsafe static int GetSetPEChecksum(byte[] Array) {
var Value = 0;
var Count = Array.Length;
if(Count >= 64)
fixed (byte* array = Array) {
var Index = 0;
var Coff = *(int*)(array + 60);
if(Coff >= 64 && Count >= Coff + 92) {
*(int*)(array + Coff + 88) = 0;
var Bound = Count >> 1;
if((Count & 1) != 0) Value = array[Count & ~1];
var Short = (ushort*)array;
while(Index < Bound) {
Value += Short[Index++];
Value = (Value & 0xffff) + (Value >> 16);
Value = (Value + (Value >> 16)) & 0xffff;
}
*(int*)(array + Coff + 88) = Value += Count;
}
}
return Value;
}
``````

If you need short unsafe... (Not need use Double and Long integers and not need Array aligning inside algorithm)

The Java example is not entirely correct. Following Java implementation corresponds with the result of Microsoft's original implementation from `Imagehlp.MapFileAndCheckSumA`.

It's important that the input bytes are getting masked with `inputByte & 0xff` and the resulting `long` masked again when it's used in the addition term with `currentWord & 0xffffffffL` (consider the L):

``````    long checksum = 0;
final long max = 4294967296L; // 2^32

final int remainder = data.length % 4;
final byte[] paddedData = Arrays.copyOf(data, data.length
+ (remainder > 0 ? 4 - remainder : 0));

for (int i = 0; i <= paddedData.length - 4; i += 4)
{
// skip the checksum field
if (i == this.offsetToOriginalCheckSum)
continue;

// take DWORD into account for computation
final long currentWord = (paddedData[i] & 0xff)
+ ((paddedData[i + 1] & 0xff) << 8)
+ ((paddedData[i + 2] & 0xff) << 16)
+ ((paddedData[i + 3] & 0xff) << 24);

checksum = (checksum & 0xffffffffL) + (currentWord & 0xffffffffL);

if (checksum > max)
checksum = (checksum & 0xffffffffL) + (checksum >> 32);
}

checksum = (checksum & 0xffff) + (checksum >> 16);
checksum = checksum + (checksum >> 16);
checksum = checksum & 0xffff;
checksum += data.length; // must be original data length
``````

In this case, Java is a bit inconvenient.

The CheckSum field is 32 bits long and is calculated as follows

#### 1. Add all dwords (32 bit pieces) of the entire file to a sum

Add all dwords of the entire file not including the CheckSum field itself, including all headers and all of the contents, to a dword. If the dword overflows, add the overflowed bit back to the first bit (2^0) of the dword. If the file is not entirely divisible into dwords (4 bit pieces) see 2.

The best way I know to realize this is by using the GNU C Compilers Integer Overflow Builtin function __builtin_uadd_overflow. In the original ChkSum function documented by Jeffrey Walton the sum was calculated by performing an `add (%esi),%eax` where
`esi` contains the base address of the file and `eax` is 0 and adding the rest of the file like this

``````adc 0x4(%esi),%eax
...
``````

The first `add` adds the first dword ignoring any carry flag. The next dwords
are added by the `adc` instruction which does the same thing as `add` but
adds any carry flag that was set before executing the instruction in addition
to the summand. The last `adc \$0x0,%eax` adds only the last carry flag if it
was set and cannot be discarded.

Please keep in mind that the dword of CheckSum field itself should not be added.

#### 2. Add the remainder to the sum if there is one

If the file is not entirely divisible into dwords, add the remainder as a
zero-padded dword. For example: say your file is 15 bytes long and looks like this
`0E 1F BA 0E | 00 B4 09 CD | 21 B8 01 4C | CD 21 54`
You need to add the remainder as `0x005421CD` to the sum. My system is a
little-endian system. I do not know if the checksum would change because of the
this order of the bytes on big-endian systems, or you would just simulate this
behaviour.
I do this by rounding up the `buffer_size` to the next bytecount divisible by 4
without remainder or put differently: the next whole dword count represented
in bytes. Then I allocate with `calloc` because it initializes the memory block
with all zeros.

``````if(buffer_size%4)
{buffer_size+=4-(buffer_size%4);
...
calloc(buffer_size,1)
``````

#### 3. Add the lower word (16 bit piece) and the higher word of the sum together.

`sum=(sum&0xffff)+(sum>>16);`

#### 4. Add the new higher word once again

`sum+=(sum>>16);`

#### 5. Only keep the lower word

`sum&=0xffff;`

#### 6. Add the number of bytes in the file to the sum

`return(sum+size);`

This is how I wrote it. It is not C#, but C. off_t size is the number of bytes in the file. uint32_t *base is a pointer to the file loaded into memory. The block of memory should be padded with zeros at the end to the next bytecount divisible by 4.

``````uint32_t pe_header_checksum(uint32_t *base,off_t size)
{uint32_t sum=0;
off_t i;
for(i=0;i<(size/4);i++)
{if(i==0x36)
{continue;}