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I am looking to find out why strncpy is considered insecure. Does anybody have any sort of documentation on this or examples of an exploit using it?

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4  
It was my understanding that strcpy was unsafe and that strncpy was the safe version of that. – Marc W May 15 '09 at 17:19
22  
There's no _s on the name though. Can't be secure without an _s... – Shog9 May 15 '09 at 17:25
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If you are using c++, simply don't use it and use std::string. – lothar May 15 '09 at 17:28
5  
strncpy wasn't designed as a safe version of strcpy, but it's abused for that purpose. See here for an explanation: lysator.liu.se/c/rat/d11.html . Now one could argue whether or not strncpy was designed wrong. History comes as an excuse for the C committee :) If you need a safe version of strcpy, i recommend you to use other functions. – Johannes Schaub - litb May 15 '09 at 17:43
1  
@stimms: When you say you're "more interested in strncpy_s", do you mean how strncpy_s() can be insecure, or why strncpy() is insecure as compared to strncpy_s()? strncpy_s() is the "secure" version of strncpy(), and all it does (differently from strncpy()) is require you to specify the length of the destination buffer. – Tim May 15 '09 at 22:05

Take a look at this site; it's a fairly detailed explanation. Basically, strncpy() doesn't require NUL termination, and is therefore susceptible to a variety of exploits.

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1  
good point. So, even with strncpy, make sure the buffer ends with a '\0'. – rampion May 15 '09 at 17:24
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+1, but it's good to note that strncpy only insecure when you forget to manually add the null terminator. If you have trouble remembering to,consider a wrapper function, which always sets the final character to '\0' after calling strncpy. – ojrac May 15 '09 at 17:25
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@RBerteig, note that MS strncpy_s and company are not 1:1 strncpy replacements as they do not zero-fill the buffer. They are a better strcpy although IMHO strl* functions are more versatile and faster. @ojrac, it is still too prone to misuse, for one thing you have to remember both that and to copy (bufsize-1) instead of (bufsize) or have your "rm -Rf /a" turned into "rm -Rf /". – jbcreix Aug 6 '09 at 23:44
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"NULL termination" isn't correct. ASCII character \0 is usually written "NUL" to avoid confusion with the NULL pointer. – Chris Lutz May 23 '10 at 4:48
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@Billy ONeal, opengroup.org/onlinepubs/007908775/xsh/strncpy.html , opengroup.org/onlinepubs/009695399/functions/strncpy.html and the C1x draft disagree with you. Unless ANSI C says otherwise, not zero-filling is nonstandard behavior. Then again, Microsoft doesn't support C at all; all they have is a C++ compiler. – jbcreix May 23 '10 at 6:11

The original problem is obviously that strcpy(3) was not a memory-safe operation, so an attacker could supply a string longer than the buffer which would overwrite code on the stack, and if carefully arranged, could execute arbitrary code from the attacker.

But strncpy(3) has another problem in that it doesn't supply null termination in every case at the destination. (Imagine a source string longer than the destination buffer.) Future operations may expect conforming C nul-terminated strings between equally sized buffers and malfunction downstream when the result is copied to yet a third buffer.

Using strncpy(3) is better than strcpy(3) but things like strlcpy(3) are better.

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To safely use strncpy, one must either (1) manually stick a null character onto the result buffer, (2) know that the buffer ends with a null beforehand, and pass (length-1) to strncpy, or (3) know that the buffer will never be copied using any method that won't bound its length to the buffer length.

It's important to note that strncpy will zero-fill everything in the buffer past the copied string, while other length-limited strcpy variants will not. This may at some cases be a performance drain, but in other cases be a security advantage. For example, if one used strlcpy to copy "supercalifragilisticexpalidocious" into a buffer and then to copy "it", the buffer would hold "it^ercalifragilisticexpalidocious^" (using "^" to represent a zero byte). If the buffer gets copied to a fixed-sized format, the extra data might tag along with it.

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The question is based on a "loaded" premise, which makes the question itself invalid.

The bottom line here is that strncpy is not considered insecure and has never been considered insecure. The only claims of "insecurity" that can be attached to that function are the broad claims of general insecurity of C memory model and C language itself. (But that is obviously a completely different topic).

Within the realm of C language the misguided belief of some kind of "insecurity" inherent in strncpy is derived from the widespread dubious pattern of using strncpy for "safe string copying", i.e. something this function does not do and has never been intended for. Such usage is indeed highly error prone. But even if you put an equality sign between "highly error prone" and "insecure", it is still a usage problem (i.e. a lack of education problem) not a strncpy problem.

Basically, one can say that the only problem with strncpy is a unfortunate naming, which makes newbie programmers assume that they understand what this function does instead of actually reading the specification. Looking at the function name an incompetent programmer assumes that strncpy is a "safe version" of strcpy, while in reality these two functions are completely unrelated.

Exactly the same claim can be made against the division operator, for one example. As most of you know, one of the most frequently-asked questions about C language goes as "I assumed that 1/2 will evaluate to 0.5 but I got 0 instead. Why?" Yet, we don't claim that the division operator is insecure just because language beginners tend to misinterpret its behavior.

For another example, we don't call pseudo-random number generator functions "insecure" just because incompetent programmers are often unpleasantly surprised by the fact that their output is not truly random.

That is exactly how it is with strncpy function. Just like it takes time for beginner programmers to learn what pseudo-random number generators actually do, it takes them time to learn what strncpy actually does. It takes time to learn that strncpy is a conversion function, intended for converting zero-terminated strings to fixed-width strings. It takes time to learn that strncpy has absolutely nothing to do with "safe string copying" and can't be meaningfully used for that purpose.

Granted, it usually takes much longer for a language student to learn the purpose of strncpy than to sort things out with the division operator. However, this is a basis for any "insecurity" claims against strncpy.

P.S. The CERT document linked in the accepted answer is dedicated to exactly that: to demonstrate the insecurities of the typical incompetent abuse of strncpy function as a "safe" version of strcpy. It is not in any way intended to claim that strncpy itself is somehow insecure.

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2  
When people say "strncpy is insecure" what they mean is "It doesn't have a pit of success." Which is true. – Ben Voigt Sep 13 '14 at 3:55

Worst situation occurs when your source and destination buffer memory overlaps to each other. So avoid using of strncpy when you feel overlapping situation may occur in your program. Instead of strncpy you can use memmove function in the overlapping scenario.

In below I am describing a simple example which describes the strncpy in the overlaping scenario.

   #include <stdio.h>
   #include <string.h>
   int main() {

   char aszMessage[10] ="12345"; //Source Buffer
   short siLen=4; // Length of byte you want to copy


   strncpy(aszMessage + 2,aszMessage+1,siLen);//Here memory overlap

   printf("\n\n\tMessage = %s\n",aszMessage);



   return 0;
}

Here I am accepting, the output should be 122345 but here output is 122222,that is the greatest fallback scenario of strncpy.

This problem can be solved by using the memove function.

 #include <stdio.h>
 #include <string.h>
 int main() {

 char aszMessage[10] ="12345"; //Source Buffer
 short siLen=4; // Length of byte you want to copy


 memmove(aszMessage + 2,aszMessage+1,siLen);//Here memory overlap

 printf("\n\n\tMessage = %s\n",aszMessage);


 return 0;
 }

Now I am getting desire output 122345.

For more detail you can see this link http://www.aticleworld.com/2016/03/how-to-use-strncpy-and-how-to-write.html

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1  
Sorry Rad Lexus in future, I will avoid to do it again. – amlendra mishra yesterday

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