PDFs are widely used business file format, which makes them a common target for malware attacks. Because PDFs have so many “features,” hackers have learned how to hide attacks deep under the surface. By using a number of utilities, we are able to reverse engineer the techniques in malicious PDFs, providing insight that we can ultimately use to better protect our systems. We’ll take you through the process that a hacker uses to insert a piece of malware into a sample PDF.
This second image shows how the stream is decoded, but additional analysis is required to make sense of it. Again, we will open this code with a text editor to understand its purpose.
This is a closer view of the shellcode. Shellcode is typically used to exploit vulnerabilities while avoiding detection. Shellcode has earned its name for launching a command shell for the attacker to control.
Again, we run a utility, this time to convert the shellcode into an Executable file, which we save, so that we can take an even closer look at its function.
Here, we run yet another utility, IDA, which enables us to disassemble and debug the commands of the Executable file. As we have highlighted, this file contains multiple Nop slide functions, which are used in Shellcode attacks since the location of the Shellcode is not precisely known. This raises another red flag. From here, we should see if there are any interesting binary strings.
Here we have circled multiple binary strings that should raise concern. One of the circled items, URLDownloadToFileA, is a Windows API function to download a file from a remote server and to save it on the user’s PC. In this infected PDF, the shellcode uses it to point the PC to an infection point, which is the IP address we have circled (by the way, don’t visit that IP address). Once the infected file is downloaded, the shellcode will execute it, infecting the computer.
source: Tomer Bitton, security researcher, Imperva