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I have the following program in C:

The main problem with the program is that after I perform the copy operation, a number of rubbish characters are displayed after the letters copied. I know this is because the destination variable is NOT properly null-terminated. However, if you inspect the code carefully, I am performing null-termination. Why is the problem still there?

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up vote 2 down vote accepted

strncpy does not guarantee that your destination string will be null-terminated after the copy. My approach would be to:

destination[ nob ] = '\0';
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Thanks for your answer :) – Matthew Oct 24 '12 at 14:12
It does guarantee that, but only if you pass the string length, and not the memory buffer length (which is always at least string length +1). – Lundin Oct 24 '12 at 14:27
@Lundin: It is the other way around. If you pass the string length (the number of non-null characters in the string), only that many characters are copied (and they are all non-null). If you pass the buffer length and there is a null character in the source buffer, then the first null character is copied to the destination (and the following bytes in the destination are set to null too). – Eric Postpischil Oct 24 '12 at 14:51
@EricPostpischil Yes, that doesn't contradict what I said. What I meant is, if you have char str1[3] and char str2[]="abc" and then strncpy(str1, str2, 3), then strncpy will not copy any null termination at all, but instead let your program crash. – Lundin Oct 25 '12 at 7:45

So, uh, how do you think strlen() computes the length of a string? Do you think it requires termination?

Hint: it does. An array of characters is not a string in C unless it's terminated by a 0-character. All strlen() does is count the number of characters until it finds the terminator, so using it in logic to terminate a buffer in order to make it a string is a chicken-egg kind of situation.

Your problem is that you are mis-using strncpy(). This is a very easy thing to do wrong, since the function is slightly nuts from a typical (beginner) C programmer's point of view. It simply doesn't do what you would expect it to, from the name.

You should probably just do this manually, as long as you're certain that nob < sizeof destination - 1:

memcpy(destination, source, nob);
destination[nob] = '\0';
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You are right :) It slipped my mind. Thanks a lot :) – Matthew Oct 24 '12 at 14:12
@Matthew Feel free to accept this answer, if you feel it has helped you. Thanks. – unwind Oct 24 '12 at 14:25
I'd say strncpy is nuts from everyone's point of view. Aside from the null termination issue, it checks for null termination at every character, and it also appends an flood on null terminations after it is done with the actual copying. It is one of the more obscure functions in C. – Lundin Oct 24 '12 at 14:29
@Lundin Yeah, it's awful. I guess it made sense when programming using "records" back in the day, but perhaps no programmers from that era have survived, in which case I'd agree with you totally. :) – unwind Oct 24 '12 at 14:34

Matthew, when you already know the length of the string you are copying, you don't need strcpy or strncpy (which check each character looking for the \0 at the end). Instead you should use memcpy and then terminate the new string:

memcpy(destination, source, nob);
destination[nob] = '\0';

memcpy does not check for '\0' and so is faster.

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Instead of:

destination[strlen(destination)] = '\0';


destination[nob] = '\0';

strlen keeps reading until it finds the '\0' char.

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This will work great after some really small modification:

char destination[18] = {'\0'};
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You are wrong! This will initialize table with all elements set to '\0'. – codewarrior Oct 24 '12 at 14:20
You're correct! Withdrawn! – Bob Kaufman Oct 24 '12 at 14:22
This won't help if the actual buffer length is passed to strncpy, which is the most common cause for this bug. – Lundin Oct 24 '12 at 14:26
Could you explain why this will not help? To strncpy there is size passed which is checked to be less than buffer size 'if(nob > 17)' – codewarrior Oct 24 '12 at 14:30
@codewarrior In this particular case there is the boundary check, most often there is none, since most programmers are unaware of the obscure ways in which strncpy works. Even if you managed to dodge that risk, this particular case will then work like this: 1) Fill an empty space of 18 bytes with zeroes. 2) overwrite the zeroes with the actual data. 3) while overwriting the zeroes, check for null termination at every byte of the source string. 4) fill up the remaining buffer with zeroes (again). Very ineffective and pointless, all in all. – Lundin Oct 24 '12 at 14:35

Do not use strncpy, it is plain dangerous. As we can see from your example, programmers always forget to input the correct parameters to it, and they get corrupt strings as a result. This is an incredibly common bug.

strcpy() is safer, but not ideal either, since it has no boundary check. If used incorrectly it could lead to buffer overflows, which is a security concern. This is also a common bug.

The fastest and safest way to copy strings is through memcpy:

memcpy(destination, source, nob);
desitnation[nob] = '\0';
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This is failing because strncpy copies only the first nob characters and does not append a trailing 0. Your attempt to add a trailing 0 with the strlen() on the destination string does not help, because it count characters until the 1st 0, and put a zero in that location (which will have no effect).

One way to "hack" a fix would be to clear your destination string:

memset( destination, 0, sizeof(destination));

There are probably much better solutions, including making your test for > 17 be > 18.

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Your hack won't help if the actual buffer length is passed to strncpy, which is the most common cause of this bug. Because then the null termination cannot fit anywhere, so strncpy just skips it and merrily lets your program walk off into la-la land. C11 7.24.3 If the array pointed to by s2 is a string that is shorter than n characters, null characters are appended to the copy in the array pointed to by s1, until n characters in all have been written. But if the array is not shorter than n characters, tough luck, crash and burn. – Lundin Oct 24 '12 at 14:23
point taken -- the memset() solution would not work if nob were allowed to be 18. – bobwki Oct 24 '12 at 15:14

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