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I have recently watched this video of a Finnish internet security expert. Somewhere around eleventh minute, he talks about a virus which is hidden in an image and executes when the image is about to be displayed.

I am wondering how do they technically do such a thing, I mean how come the virus is executed, when the picture should be displayed and how come the picture is not compromised in some way. I thought the computer first looks at the extension, then opens it with appropriate program and lets the program work itself (and I don't expect regular image viewer to be able to run a virus within itself). Obviously it doesn't work like that, but no one I asked could help me out with this.

So does anyone know how do they do this, the principle? Thank you very much.

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    en.wikipedia.org/wiki/Buffer_overflow, has occurred in numerous image reading libraries. Mar 12, 2012 at 22:54
  • With buffer overrun, it is considered the #1 classical security issue. I recommend reading this book: amazon.com/Deadly-Sins-Software-Security-Programming/dp/… Suppose the image is 10k, and the accepting agent takes only 9k,and the agent takes in only 9k, the remaining now overwrites the adjacent memory addresses. Suppose those are passwords, you are doom. Your password has changed.
    – CppLearner
    Mar 12, 2012 at 22:57
  • @CppLearner Have you got a source for the “#1” claim? I’ve always heard that SQL injections are #1 by a wide margin (but likewise I haven’t got a source handy). EDIT According to OWASP Top 10, SQLI is #1 for web applications. Still no sources for general vulnerabilities. Mar 12, 2012 at 22:58
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    @KonradRudolph Hm.. classical. Not modern. SQL appears in 1974, and first documented buffer overrun occurred in 1972.... besides,buffer overrun is intuitively the most dangerous problem in writing code.
    – CppLearner
    Mar 12, 2012 at 23:05
  • @KonradRudolph Do you have any references to buffer overflows in image reading libraries? This seems like technology that has been around long enough to have been hardened, especially open source libraries like libtiff etc.
    – Travis
    Jun 19, 2015 at 14:16

4 Answers 4

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You're correct that your OS will pick a program and ask it to open the image. The OS will not ask the program to execute the image — that would be nonsense.

However, images are complex formats and often contain meta data (like the date and time when the picture was taken) and other parts that are not directly shown — you can hide stuff in there without affecting the image on the screen. So there might be hostile data lurking inside the image file.

Furthermore, program can have bugs, in particular buffer overflows. Briefly, a virus can exploit this by putting too large data into the meta data sections — larger than the program that decodes the image expects. The internal buffers overflow and with enough skill, a virus writer is able to put executable code into the right place in memory so that the program that decodes the image will end up executing the code. That way an innocent and "dead" file like an image can host an exploit.

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    @EdS., I think Mr. Rudolph implies that Mr. Geisler resembles Mr. Damon. <bad joke>Oh, and I downvoted because I disagree.</bad joke> Mar 13, 2012 at 3:17
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    Okay, I didn't get the joke then... But I'm flattered to be compared to Matt Damon like this :-) Mar 13, 2012 at 7:31
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    @MartinGeisler I think this is a really good illustration for the "meta data" :) stackoverflow.com/a/5509538/230884
    – CppLearner
    Mar 13, 2012 at 8:01
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    @CppLearner: wow, amazing! Also amazing that one of my cores run at 100% when showing that animated GIF... Mar 13, 2012 at 9:15
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    Just want to point out that specializt is making assumptions that effects of buffer overflows are limited (to crashing) which is not in general true.
    – Ben Voigt
    Dec 20, 2014 at 15:47
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A virus can store information in an image, and can exploit a vulnerability in an image-viewing program. It can not "infect" an image, so much as maliciously alter an image such that the program that is likely to open it will be subverted and trigger an exploit in that process.

If a virus puts malformed data in an image to exploit program X, and the image is opened in program Y, it is likely that the image will either not render because it is too malformed, or will render as an innocent or random looking image in that program.

The flaw as with all of these things is not in the image format, but rather in the implementation of the image-decoder.

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    Modifying a file in such a way to cause malicious behavior -- why do you not call that "infection"?
    – Ben Voigt
    Jul 24, 2014 at 19:26
  • @BenVoigt, I don't get what you mean.... why do you call that "infection"? The file is downloaded from the Internet. As long as you don't open it it's effectively quarantined.
    – Pacerier
    Dec 20, 2014 at 15:08
  • @Pacerider: That is what quarantine means. But I don't understand how it is related to my comment. A quarantined infected file is still an infected file. And your quarantine concept is misleading... It is not an explicit user action which opens the file, but the thumbnail generation. To actually quarantine the file you should deny read permission.
    – Ben Voigt
    Dec 20, 2014 at 15:42
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It does not have to be displayed, it has to be read.

The OS might have a thumbnail generating thread that will parse all images it finds. A buffer overflow in that code will allow code execution without user intervention.

This goes for any file that has any form of automatic read feature, to extract properties of a mp3, index a PDF, etc.

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Some image formats have specified actual code sections, supposedly to be executed on error. You might find it interesting to read up on the Windows Metafile image format and the MICE vulnerability.

Wikipedia says: "... the vulnerability is an inherent defect in the design of WMF files, because the underlying architecture of such files is from a previous era, and includes features which allow actual code to be executed whenever a WMF file opens." --- https://en.wikipedia.org/wiki/Windows_Metafile_vulnerability

The same article also quotes Secunia, but does not include a citation: "The vulnerability is caused due to an error in the handling of Windows Metafile files ('.wmf') containing specially crafted SETABORTPROC 'Escape' records. Such records allow arbitrary user-defined function to be executed when the rendering of a WMF file fails."

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