Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

I understand that strlcpy and strlcat were designed as secure replacements for strncpy and strncat. However, some people are still of the opinion that they are insecure, and simply cause a different type of problem.

Can someone give an example of how using strlcpy or strlcat (i.e., a function that always null terminates its strings) can lead to security problems?

Ulrich Drepper and James Antill state this is true, but never provide examples or clarify this point.

share|improve this question

5 Answers 5

Firstly, strlcpy has never been intended as a secure version of strncpy (and strncpy has never been intended as a secure version of strcpy). These two functions are totally unrelated. strncpy is a function that has no relation to C-strings (i.e. null-terminated strings) at all. The fact that it has the str... prefix in its name is just a historical blunder. The history and purpose of strncpy is well-known and well-documented. This is a function created for working with so called "fixed width" strings (not with C-strings) used in some historical versions of Unix file system. Some programmers today get confused by its name and assume that strncpy is somehow supposed to serve as limited-length C-string copying function (a "secure" sibling of strcpy), which in reality is complete nonsense and leads to bad programming practice. C standard library in its current form has no function for limited-length C-string copying whatsoever. This is where strlcpy fits in. strlcpy is indeed a true limited-length copying function created for working with C-strings. strlcpy correctly does everything a limited-length copying function should do. The only criticism one can aim at it is that it is, regretfully, not standard.

Secondly, strncat on the other hand, is indeed a function that works with C-strings and performs a limited-length concatenation (it is indeed a "secure" sibling of strcat). In order to use this function properly the programmer has to take some special care, since the size parameter this function accepts is not really the size of the buffer that receives the result, but rather the size of its remaining part (also, the terminator character is counted implicitly). This could be confusing, since in order to tie that size to the size of the buffer, programmer has to remember to perform some additional calculations, which is often used to criticize the strncat. strlcat takes care of these issues, changing the interface so that no extra calculations are necessary (at least in the calling code). Again, the only basis I see one can criticise this on is that the function is not standard. Also, functions from strcat group is something you won't see in professional code very often due to the limited usability of the very idea of rescan-based string concatenation.

As for how these functions can lead to security problems... They simply can't. They can't lead to security problems in any greater degree than the C language itself can "lead to security problems". You see, for quite a while there was a strong sentiment out there that C++ language has to move in the direction of developing into some weird flavor of Java. This sentiment sometimes spills into the domain of C language as well, resulting in rather clueless and forced criticism of C language features and the features of C standard library. I suspect that we might be dealing with something like that in this case as well, although I surely hope things are not really that bad.

share|improve this answer
I do not completely agree. It would be nice if strlcpy and strlcat would report some sort of error condition if they bumped against the destination buffer size limit. Though you can check the returned length to test this, it's not obvious. But I think that's a minor criticism. The 'they encourage the use of C strings, and so they are bad' argument is silly. – Omnifarious Oct 4 '12 at 18:12
"how these functions can lead to security problems" - fwiw I think the issue here is that some C functions are harder to use correctly than others. Some people have a mistaken belief that there is a special threshold of difficulty, below which a function is "secure" and above which it is "insecure". Such people are also usually of the belief that strcpy is above the threshold and hence "insecure", and their preferred string-copying function (whether it is strlcpy, strcpy_s or even strncpy) is below the threshold and hence "secure". – Steve Jessop Nov 19 '12 at 11:37
There are plenty of reasons for disliking strlcpy/strlcat, but you don't state any of them. The discussion of C++ and Java is irrelevant. This answer just isn't helpful to the subject matter the question actually asked about. – John Ripley Mar 11 '13 at 20:19
@John Ripley: Firstly, I'm not "stating any of them" simply because I'm not aware of any reasons for disliking strlcpy/strlcat. One might "dislike" the general concept of zero-terminated string, but that's not what the question is about. If you know "plenty of reasons to dislike strlcpy/strlcat", you should probably write your own answer instead of expecting me to be able to read someone else's mind. – AnT Mar 12 '13 at 0:05
@John Ripley: Secondly, the question was specifically referring to some alleged "security problems" with strlcpy/strlcat. While I believe I understand what this is about, I personally refuse to recognize that as "security problems" within the realm of traditional C language, as I know it. That I stated in my answer. – AnT Mar 12 '13 at 0:07

Ulrich's criticism is based on the idea that a string truncation that is not detected by the program can lead to security issues, through incorrect logic. Therefore, to be secure, you need to check for truncation. To do this for a string concatenation means that you are doing a check along the lines of this:

if (destlen + sourcelen > dest_maxlen)
    /* Bug out */

Now, strlcat does effectively do this check, if the programmer remembers to check the result - so you can use it safely:

if (strlcat(dest, source, dest_bufferlen) >= dest_bufferlen)
    /* Bug out */

Ulrich's point is that since you have to have destlen and sourcelen around (or recalculate them, which is what strlcat effectively does), you might as well just use the more efficient memcpy anyway:

if (destlen + sourcelen > dest_maxlen)
    goto error_out;
memcpy(dest + destlen, source, sourcelen + 1);
destlen += sourcelen;

(In the above code, dest_maxlen is the maximum length of the string that can be stored in dest - one less than the size of the dest buffer. dest_bufferlen is the full size of the dest buffer).

share|improve this answer
The readability of Drepper's code is bad. With strlcpy (or any str function) I know directly that I'm copying a 0 terminated C string. With memcpy it can be any type of memory and I have a supplemental dimension to check when trying to understand the code. I had a legacy app to debug where everything was done with memcpy, it was a real PITA to correct. After porting to dedicated String function it is much easier to read (and faster because a lot of unnecessary strlen could be removed). – Patrick Schlüter Nov 26 '10 at 15:51
Why wouldn't you just use strcpy instead of memcpy in the last example? – domen Nov 18 '14 at 13:40
@domen: Because the size to copy is already known, so memcpy() is sufficient (and is potentially more efficient than strcpy()). – caf Nov 19 '14 at 4:22
Well, it's confusing to have it in string operations. And as far as I know efficiency depends on implementation and is not standardized. – domen Nov 19 '14 at 9:07
@domen: memcpy() is a string operation - it's declared in <string.h>, after all. – caf Nov 20 '14 at 2:58

When people say, "strcpy() is dangerous, use strncpy() instead" (or similar statements about strcat() etc., but I am going to use strcpy() here as my focus), they mean that there is no bounds checking in strcpy(). Thus, an overly long string will result in buffer overruns. They are correct. Using strncpy() in this case will prevent buffer overruns.

I feel that strncpy() really doesn't fix bugs: it solves a problem that can be easily avoided by a good programmer.

As a C programmer, you must know the destination size before you are trying to copy strings. That is the assumption in strncpy() and strlcpy()'s last parameters too: you supply that size to them. You can also know the source size before you copy strings. Then, if the destination is not big enough, don't call strcpy(). Either reallocate the buffer, or do something else.

Why do I not like strncpy()?

  • strncpy() is a bad solution in most cases: your string is going to be truncated without any notice—I would rather write extra code to figure this out myself and then take the course of action that I want to take, rather than let some function decide for me about what to do.
  • strncpy() is very inefficient. It writes to every byte in the destination buffer. You don't need those thousands of '\0' at the end of your destination.
  • It doesn't write a terminating '\0' if the destination is not big enough. So, you must do so yourself anyway. The complexity of doing this is not worth the trouble.

Now, we come to strlcpy(). The changes from strncpy() make it better, but I am not sure if the specific behavior of strl* warrants their existence: they are far too specific. You still have to know the destination size. It is more efficient than strncpy() because it doesn't necessarily write to every byte in the destination. But it solves a problem that can be solved by doing: *((char *)mempcpy(dst, src, n)) = 0;.

I don't think anyone says that strlcpy() or strlcat() can lead to security issues, what they (and I) are saying that they can result in bugs, for example, when you expect the complete string to be written instead of a part of it.

The main issue here is: how many bytes to copy? The programmer must know this and if he doesn't, strncpy() or strlcpy() won't save him.

strlcpy() and strlcat() are not standard, neither ISO C nor POSIX. So, their use in portable programs is impossible. In fact, strlcat() has two different variants: the Solaris implementation is different from the others. This makes it even less useful than otherwise.

share|improve this answer
strlcpy is faster than memcpy on many architectures, especially if the memcpy copies unnecessary trailing data. strlcpy also returns how much data you missed which might allow you to recover faster and with less code. – jbcreix Jan 22 '10 at 5:15
@jbcreix: my point is that there should be no data to miss, and n in my memcpy call is the exact number of bytes to be written, so the efficiency isn't that much of a problem either. – Alok Singhal Jan 22 '10 at 11:06
And how do you get that n? The only n you can know in advance is the buffer size. Of course if you suggest re implementing strlcpy each time you need it using memcpy and strlen that is okay too, but then why stopping at strlcpy, you don't need a memcpy function either, you can copy the bytes one by one. The reference implementation only loops through the data once in the normal case and that is better for most architectures. But even if the best implementation used strlen + memcpy, that is still no reason to not having to re-implement a secure strcpy again and again. – jbcreix Jan 22 '10 at 11:30
Alok, with strlcpy you sweep over the input string only once in the good case (which should be the majority) and twice in the bad case, with your strlen+memcpy you go over it twice always. If it makes a difference in practice is another story. – Patrick Schlüter Nov 26 '10 at 15:44
"*((char *)mempcpy(dst, src, n)) = 0;" - Correct - Yes, Obviously Correct, No. Fails code review...... – mattnz Jul 9 '13 at 1:48

I think Ulrich and others think it'll give a false sense of security. Accidentally truncating strings can have security implications for other parts of the code (for example, if a file system path is truncated, the program might not be performing operations on the intended file).

share|improve this answer
For example, an email client might truncate an email attachment's filename from malware.exe.jpg to malware.exe. – Chris Peterson Apr 2 '11 at 0:33
@ChrisPeterson Which is why a good developer always checks the return values, to, in the case of strl* functions, know if the data was truncated and act accordingly. – Tom Lint Jul 14 '14 at 11:34

There are two "problems" related to using strl functions:

  1. You have to check return values to avoid truncation.

The c1x standard draft writers and Drepper, argue that programmers won't check the return value. Drepper says we should somehow know the length and use memcpy and avoid string functions altogether, The standards committee argues that the secure strcpy should return nonzero on truncation unless otherwise stated by the _TRUNCATE flag. The idea is that people are more likely to use if(strncpy_s(...)).

  1. Cannot be used on non-strings.

Some people think that string functions should never crash even when fed bogus data. This affects standard functions such as strlen which in normal conditions will segfault. The new standard will include many such functions. The checks of course have a performance penalty.

The upside over the proposed standard functions is that you can know how much data you missed with strl functions.

share|improve this answer
note that strncpy_s is not a secure version of strncpy but basically a strlcpy replacement. – jbcreix Jan 22 '10 at 5:29

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.