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My initial understanding on this topic is that I need to prevent some junk characters available in request to avoid these attacks.

I have decided to solve this by Pattern matching for every request parameter before using it. Most of the posts available on internet talks about Null Byte and the example given shows how file IOs are the main victims of this attack. So following are my questions

  1. Is File IOs are the only thing that null byte can affect or other operations are also victims of this attack?
  2. What are the char/strings/patterns I need to take care if I want to filter my request parameter to be safe for null bye attacks? I have a list and I am sure it is not complete one. %00, \0, 0x00 in hex

The articles that I am referring to are:

http://projects.webappsec.org/w/page/13246949/Null%20Byte%20Injection

http://www.perlmonks.org/index.pl?node_id=38548

http://hakipedia.com/index.php/Poison_Null_Byte

Thanks in advance


So to make it more clear:

First post points out the vulnerability in java that I am talking about. String serverlogs.txt%00.db is allowed in java but when it comes to C/C++ this is serverlogs.txt as in C %00 would be replace by null byte causing the string to terminate after serverlogs.txt. So we should avoid such characters. This is what I am trying to figure out which such characters I should not allow.

String fn = request.getParameter("fn");
if (fn.endsWith(".db"))
{
File f = new File(fn);
//read the contents of “f” file
…
}
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1  
(1) Why is this tagged for iOS? (2) Are you talking about null-terminated strings? Java doesn't use null termination and isn't vulnerable to trivial buffer overflow attacks like C is. –  chrylis Sep 25 '13 at 3:09
2  
@chrylis: I may be wrong but as I understood from posts mentioned above that java uses C/C++ to do File IO operations, so ignoring these junk characters may lead to security vulnerability. –  Rupesh Sep 25 '13 at 3:14
    
@chrylis: are you implying that we don't need to take care of null byte attacks in java. Of course if by any other way in java this null byte can be used as security threat I would be interested to know. –  Rupesh Sep 25 '13 at 3:18
1  
It would be more fruitful if person downvoting this post can also let me know the reason why they did that so that I can be sure that I am making sense or I am digging in wrong direction –  Rupesh Sep 25 '13 at 3:25
3  
@EJP It's a real type of vulnerability. Has been used to attack jroller.com. –  Tom Hawtin - tackline Sep 25 '13 at 23:04

4 Answers 4

Have you tried it? I wrote this quick unit test:

@Test
public void test() throws Exception {
    FileOutputStream out = new FileOutputStream("test.txt");
    out.write("hello!".getBytes("utf-8"));
    out.close();
    String badPath = "test.txt\0foo";
    File file = new File(badPath);
    FileInputStream in = new FileInputStream(file);
    System.out.println(StreamUtils.copyToString(in, Charset.forName("utf-8")));
}

Now, if the null character broke the string, I would expect to have the contents of my file printed to the console. Instead, I get a FileNotFoundException. For the record, this was using Java 1.7.0_40 on Ubuntu 13.04.

Update

Further investigation reveals this code in File#isInvalid:

final boolean isInvalid() {
    if (status == null) {
        status = (this.path.indexOf('\u0000') < 0) ? PathStatus.CHECKED
                                                   : PathStatus.INVALID;
    }
    return status == PathStatus.INVALID;
}
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2  
The code in the update hasn't always been there and is not required to be present. –  Tom Hawtin - tackline Sep 25 '13 at 23:03
2  
@TomHawtin-tackline Indeed. If anything, it validates the feasibility of the attack since an implementation of the JVM felt the need to explicitly guard against it. –  Aurand Sep 26 '13 at 0:31
    
I have tried searching for this issue on different versions of java and found this working as suggested by @Aurand. But I am sure this issue was there and it could be some with some old versions of java. I'm using Java 1.6.0_27 on Win 7 x64. Every post on internet for null byte attack mentioned above example as I highlighted in original question. –  Rupesh Sep 26 '13 at 2:49
1  
@Rupesh Note that HotSpot (the Oracle implementation) is by no means the only JVM out there. There are several dozen others (though only a few see regular use). There are no guarantees about how any of the others behave. –  Aurand Sep 26 '13 at 3:03
2  
This validation has been added recently (e.g. JRE 7 u 45) cr.openjdk.java.net/~dxu/8003992/webrev.01/src/share/classes/… –  Pierre Ernst Nov 1 '13 at 14:19

Not a bad question. I'm doubtful that this is a valid vulnerability on all platforms (for example, I believe Windows uses Pascal-style strings, not null-terminated strings, in its kernel), but I would not at all be surprised if some platforms and JVMs were in fact vulnerable to this kind of attack.

The key point to consider is where your strings are coming from, and what you're doing to those bytes before you interact with them as strings. Any bytes coming from a remote machine should always be assumed to be malicious until proven otherwise. And you should never take strings that come from over the Internet and try to turn them into paths on your local machine. Yes webservers like Apache do this, but that's also the most vulnerable code they have. The correct solution is: don't try to blacklist bad data (like null bytes), only whitelist good data.

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1  
+1 for whitelisting. In fact NUL byte injection has been used against Java in the past. Notably jroller.com by uploading a .jsp\0.html file. Underlying OS APIs tend to be C based. –  Tom Hawtin - tackline Sep 25 '13 at 23:02
    
@Daniel: +1 for recognizing the problem. Now questions arises how do I validate incoming data. I should be having some filter to work with so that I can compare incoming request parameter against it. –  Rupesh Sep 26 '13 at 2:54
1  
@Rupesh Your best bet is not allow untrusted data anywhere near filenames. –  Tom Hawtin - tackline Sep 26 '13 at 22:55

If I'm reading your question correctly, you want to prevent executable code from being injected into memory after the terminating null byte of a string.

Java ain't C.

Java doesn't use terminating null byes for its strings so you don't need to protect against this.

share|improve this answer
    
Java libraries may be implemented by calling C functions, which may well be subject to this attack. –  Tom Hawtin - tackline Sep 26 '13 at 22:56
    
@TomHawtin-tackline a java String isn't passed to C libraries as C string, but rather a jstring, which is not null terminated. If a C library converts a jstring to a char* and carelessly ignores the possibility of there being a null in the content, isnt that outside the scope of control of the java code? The question is about nulls in java strings. I consider it drawing a long bow to worry about the possibility that it might make its way to a c library that has a possibility of having a bug. –  Bohemian Sep 27 '13 at 0:41
    
It's the behaviour of a Java library, which just happens to derive from the underlying implementation. It happens. This weakness causes real vulnerabilities. –  Tom Hawtin - tackline Sep 27 '13 at 10:24

You might also fight the issue of Null byte from the other angle!

in May 1013 Oracle fixed the problem: http://bugs.java.com/bugdatabase/view_bug.do?bug_id=8014846

So, upgrade to Java 8 or Java 7u40 and you are protected. (Yes, i tested it!), it works!

If a link to my personal blog is not considered a spam, I'l drop it here: http://crocode.blogspot.ru/2015/03/java-null-byte-injections.html

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