Wednesday, December 12, 2012

Finding Simple AV Signatures with PowerShell

As a penetration tester, one of the best methods of dealing with antivirus products is to avoid them all together.  Most AV products work by analyzing binaries that have been written to the disk. If you don't write a PE (i.e. exe, dll, etc...) to the hard drive, you don't have to worry about the majority of AV products. This is typically accomplished by utilizing memory-resident tools such as Meterpreter executed with the Inject-Shellcode PowerShell script.

There could be situations when avoiding a specific AV product is impractical or unnecessary. If the product is strictly signature-based, there are many ways in which a binary can be modified to avoid the signature. There are plenty of tutorials which utilize "crypters" or "binders" to obfuscate a PE from AV, but there can sometimes be an easier way. Several years ago, the tool "DSplit" was released by class101 which was used to demonstrate how some AV signatures could be bypassed by finding and modifying one byte within the binary. Unfortunately, the original file (and source code?) is no longer available for download by the author. Since the method still works, we decided to create a similar PowerShell script with a few improvements:  

Find-AVSignature Function

To demonstrate how to use the function, we will take the Netcat for Windows binary and avoid the signature in Symantec's AV. Obviously, an easier way to avoid AV is to modify the source code and recompile, but its a good example nonetheless. To utilize the function, copy and paste it into PowerShell. Next create a folder exemption within the AV product so that you can write it safely to the disk and create a custom scan folder in order to output the split binaries to (or allow the script to do it for you).

The next step is to run the function against the binary and output several binary files starting from the first byte (0) and ending with progressively larger file sizes. For this example, we are specifying the parameters for StartByte (0), EndByte (max) and Interval (10000).  The verbose output illustrates how the file is being created when written to disk:  

After the AV product has cleaned the output folder of every file that contains the signature, we are left with a binary containing the bytes from 0 to 10000. We can now assume that the signature exists somewhere between byte 10000 and 20000 since our interval was 10000 bytes and the first binary to be deleted was the one containing bytes up to 20000.

Now we can continue the process with a smaller interval (1000) and focus on the StartByte (10000) and EndByte (20000) that we discovered in the previous step:

Again, we let the AV product detect and delete the offending binaries and see what we are left with. The interval should progressively get smaller and in this case is down to 100:

The next interval is 10:

Finally, we can use a byte interval of 1 to see if the signature is flagging on a single byte in the binary:

It appears that we have found the offending byte by allowing Symantec to delete everything containing it.

The last byte that was deleted is what needs to be changed in order for the signature to not match. We can now use your favorite hex editor (or PowerShell) to modify the byte to something that won't disrupt the application. It is typical for AV vendors to flag on error messages, copyright notices or other strings which don't affect the executable if modified.  Other times, you may need to reverse engineer the binary or use trial-and-error to find a character that will work.

The final step is to test the new binary to ensure that it doesn't flag AV and operates as intended. If it does flag, then it could be possible to repeat the entire process. Some signatures may flag on bytes that would cause the application to not function, in which case you would have to utilize a different method. However, in our example Netcat functions perfectly and doesn't flag AV:

Signature-based products will always struggle with this and similar problems and shouldn't be completely relied upon for security. It should be obvious that this entire process could be automated, but I leave that as an exercise to the reader. As always, utilize this information responsibly and ethically. If you have any questions please let me know. Find-AVSignature has been added to the PowerSploit project!