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When I try to compile C code that uses the gets function, I get a warning: warning: the gets function is dangerous and should not be used.

I remember this has something to do with stack protection and security, but I'm not sure exactly why. Can someone help me with removing this warning and explain why there is such a warning? If gets is so "dangerous" then why can't we remove it?

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9 Answers 9

up vote 39 down vote accepted

In order to use gets safely, you have to know exactly how many characters that you will be reading so you can make your buffer large enough. You will only know that if you know exactly what data you will be reading.

Instead of using gets, you want to use fgets, which has the signature

char* fgets(char *string, int length, FILE * stream);

(fgets, if it reads an entire line, will leave the '\n' in the string; you'll have to deal with that.)

It remained an official part of the language up to the 1999 ISO C standard, but it was officially removed by the 2011 standard. Most C implementations still support it, but at least gcc issues a warning for any code that uses it.

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It's actually not gcc which warns, it's the glibc which contains a pragma or attribute on gets() that causes the compiler to emit a warning when used. –  FUZxxl Jan 5 at 11:47


As everyone else said, the canonical alternative to gets() is fgets() specifying stdin as the file stream.

char buffer[BUFSIZ];

while (fgets(buffer, sizeof(buffer), stdin) != 0)
    ...process line of data...

What no-one else yet mentioned is that gets() does not include the newline but fgets() does. So, you might need to use a wrapper around fgets() that deletes the newline:

char *fgets_wrapper(char *buffer, size_t buflen, FILE *fp)
    if (fgets(buffer, buflen, fp) != 0)
        size_t len = strlen(buffer);
        if (len > 0 && buffer[len-1] == '\n')
            buffer[len-1] = '\0';
        return buffer;
    return 0;

Also, as caf points out in a comment and paxdiablo shows in his answer, with fgets() you might have data left over on a line. My wrapper code leaves that data to be read next time; you can readily modify it to gobble the rest of the line of data if you prefer:

        if (len > 0 && buffer[len-1] == '\n')
            buffer[len-1] = '\0';
             int ch;
             while ((ch = getc(fp)) != EOF && ch != '\n')

The residual problem is how to report the three different result states — EOF or error, line read and not truncated, and partial line read but data was truncated.

This problem doesn't arise with gets() because it doesn't know where your buffer ends and merrily tramples beyond the end, wreaking havoc on your beautifully tended memory layout, often messing up the return stack (a Stack Overflow) if the buffer is allocated on the stack, or trampling over the control information if the buffer is dynamically allocated, or copying data over other precious global (or module) variables if the buffer is statically allocated. None of these is a good idea — they epitomize the phrase 'undefined behaviour`.

The C11 standard eliminated gets() as a standard function, which is A Good Thing™. Sadly, it will remain in libraries for a lot longer for reasons of backwards compatibility.

There is also the TR 24731-1 (Technical Report from the C Standard Committee) which provides safer alternatives to a variety of functions, including gets():

§ The gets_s function


#define __STDC_WANT_LIB_EXT1__ 1
#include <stdio.h>
char *gets_s(char *s, rsize_t n);


s shall not be a null pointer. n shall neither be equal to zero nor be greater than RSIZE_MAX. A new-line character, end-of-file, or read error shall occur within reading n-1 characters from stdin.25)

3 If there is a runtime-constraint violation, s[0] is set to the null character, and characters are read and discarded from stdin until a new-line character is read, or end-of-file or a read error occurs.


4 The gets_s function reads at most one less than the number of characters specified by n from the stream pointed to by stdin, into the array pointed to by s. No additional characters are read after a new-line character (which is discarded) or after end-of-file. The discarded new-line character does not count towards number of characters read. A null character is written immediately after the last character read into the array.

5 If end-of-file is encountered and no characters have been read into the array, or if a read error occurs during the operation, then s[0] is set to the null character, and the other elements of s take unspecified values.

Recommended practice

6 The fgets function allows properly-written programs to safely process input lines too long to store in the result array. In general this requires that callers of fgets pay attention to the presence or absence of a new-line character in the result array. Consider using fgets (along with any needed processing based on new-line characters) instead of gets_s.

25) The gets_s function, unlike gets, makes it a runtime-constraint violation for a line of input to overflow the buffer to store it. Unlike fgets, gets_s maintains a one-to-one relationship between input lines and successful calls to gets_s. Programs that use gets expect such a relationship.

The Microsoft Visual Studio compilers implement an approximation to the TR 24731-1 standard, but there are differences between the signatures implemented by Microsoft and those in the TR.

The C11 standard, ISO/IEC 9899-2011, includes TR24731 in Annex K as an optional part of the library. Unfortunately, it is seldom implemented on Unix-like systems.

getline() - POSIX

POSIX 2008 also provides a safe alternative to gets() called getline(). It allocates space for the line dynamically, so you end up needing to free it. It removes the limitation on line length, therefore. It also returns the length of the data that was read, or -1 (and not EOF!), which means that null bytes in the input can be handled reliably. There is also a 'choose your own single-character delimiter' variation called getdelim(); this can be useful if you are dealing with the output from find -print0 where the ends of the filenames are marked with an ASCII NUL '\0' character.

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It's also worth pointing out that fgets() and your fgets_wrapper() version will leave the trailing portion of an over-long line in the input buffer, to be read by the next input function. In many cases, you will want to read-and-discard these characters. –  caf Nov 30 '10 at 2:33
I wonder why they didn't add an fgets() alternative that allows one to use its functionality without having to make a silly strlen call. For example, an fgets variant which returned the number of bytes read into the string would make it easy for code to see if the last byte read was a newline. If the behavior of passing a null pointer for the buffer was defined as "read and discard up to n-1 bytes until the next newline", that would allow code to easily discard the tail of over-length lines. –  supercat Mar 27 at 21:31
@supercat: Yes, I agree -- it is a pity. The nearest approach to that is probably POSIX getline() and its relative getdelim(), which do return the length of the 'line' read by the commands, allocating space as required to be able to store the whole line. Even that can cause problems if you end up with a single-line JSON file that is multiple gigabytes in size; can you afford all that memory? (And while we're at it, can we have strcpy() and strcat() variants that return a pointer to the null byte at the end? Etc.) –  Jonathan Leffler Mar 27 at 21:37
@JonathanLeffler: What makes the fgets() situation particularly annoying is that on many systems there's no way to write a user function which behaves like fgets() but is anywhere near as fast. The same may be true of a few strcpy() implementations, but most will be comparable in speed to either strlen+memmove or to a simple character-by-character copy loop. –  supercat Mar 27 at 22:00
@supercat: the other problem with fgets() is that if the file contains a null byte, you can't tell how much data there is after the null byte up to the end of line (or EOF). strlen() can only report up to the null byte in the data; after that, it is guesswork and therefore almost certainly wrong. –  Jonathan Leffler Mar 27 at 22:28

Because gets doesn't do any kind of check while getting bytes from stdin and putting them somewhere. A simple example:

char array1[] = "12345";
char array2[] = "67890";


Now, first of all you are allowed to input how many characters you want, gets won't care about it. Secondly the bytes over the size of the array in which you put them (in this case array1) will overwrite whatever they find in memory because gets will write them. In the previous example this means that if you input "abcdefghijklmnopqrts" maybe, unpredictably, it will overwrite also array2 or whatever.

The function is unsafe because it assumes consistent input. NEVER USE IT!

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What makes gets outright unusable is that it doesn't have an array length/count parameter that it takes; had it been there, it'd just be another ordinary C standard function. –  legends2k Sep 30 '13 at 3:59
@legends2k: I'm curious what the intended usage for gets was, and why no standard fgets variant was made as convenient for use cases where the newline is not desired as part of the input? –  supercat Mar 28 at 18:04
@supercat gets was, as the name suggests, designed to get a string from stdin, however the rationale for not having a size parameter may have been from the spirit of C: Trust the programmer. This function was removed in C11 and the replacement given gets_s takes in the size of the input buffer. I've no clue about the fgets part though. –  legends2k Mar 29 at 1:29
@legends2k: The only context I can see in which gets might be excusable would be if one was using a hardware-line-buffered I/O system which was physically incapable of submitting a line over a certain length, and the intended lifetime of the program was shorter than the lifetime of the hardware. In that case, if hardware is incapable of submitting lines over 127 bytes long it might be justifiable to gets into a 128-byte buffer, though I would think the advantages of being able to specify a shorter buffer when expecting smaller input would more than justify the cost. –  supercat Mar 29 at 16:57
@legends2k: Actually, what might have been ideal would have been to have a "string pointer" identify a byte that would select among a few different string/buffer/buffer-info formats, with one value of prefix byte indicating a struct that contained the prefix byte [plus padding], plus the buffer size, used size, and address of the actual text. Such a pattern would make it possible for code to pass an arbitrary substring (not just the tail) of another string without having to copy anything, and would allow methods like gets and strcat to safely accept as much as will fit. –  supercat Mar 29 at 17:02


To read from the stdin:

char string[512];

fgets(string, sizeof(string), stdin); /* no buffer overflows here, you're safe! */
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Even better: fgets(string, sizeof string, stdin); –  John Bode Nov 30 '10 at 1:51

You should not use gets since it has no way to stop a buffer overflow. If the user types in more data than can fit in your buffer, you will most likely end up with corruption or worse.

In fact, ISO have actually taken the step of removing gets from the C standard (as of C11, though it was deprecated in C99) which, given how highly they rate backward compatibility, should be an indication of how bad that function was.

The correct thing to do is to use the fgets function with the stdin file handle since you can limit the characters read from the user.

But this also has its problems such as:

  • extra characters entered by the user will be picked up the next time around.
  • there's no quick notification that the user entered too much data.

To that end, almost every C coder at some point in their career will write a more useful wrapper around fgets as well. Here's mine:

#include <stdio.h>
#include <string.h>

#define OK       0
#define NO_INPUT 1
#define TOO_LONG 2
static int getLine (char *prmpt, char *buff, size_t sz) {
    int ch, extra;

    // Get line with buffer overrun protection.
    if (prmpt != NULL) {
        printf ("%s", prmpt);
        fflush (stdout);
    if (fgets (buff, sz, stdin) == NULL)
        return NO_INPUT;

    // If it was too long, there'll be no newline. In that case, we flush
    // to end of line so that excess doesn't affect the next call.
    if (buff[strlen(buff)-1] != '\n') {
        extra = 0;
        while (((ch = getchar()) != '\n') && (ch != EOF))
            extra = 1;
        return (extra == 1) ? TOO_LONG : OK;

    // Otherwise remove newline and give string back to caller.
    buff[strlen(buff)-1] = '\0';
    return OK;

with some test code:

// Test program for getLine().

int main (void) {
    int rc;
    char buff[10];

    rc = getLine ("Enter string> ", buff, sizeof(buff));
    if (rc == NO_INPUT) {
        printf ("No input\n");
        return 1;

    if (rc == TOO_LONG) {
        printf ("Input too long\n");
        return 1;

    printf ("OK [%s]\n", buff);

    return 0;

It provides the same protections as fgets in that it prevents buffer overflows but it also notifies the caller as to what happened and clears out the excess characters so that they do not affect your next input operation.

Feel free to use it as you wish, I hereby release it under the "do what you damn well want to" licence :-)

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You can't remove API functions without breaking the API. If you would, many applications would no longer compile or run at all.

This is the reason that one reference gives:

Reading a line that overflows the array pointed to by s results in undefined behavior. The use of fgets() is recommended.

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In C11(ISO/IEC 9899:201x), gets() has been removed. (It's deprecated in ISO/IEC 9899:1999/Cor.3:2007(E))

In addition to fgets(), C11 introduces a new safe alternative gets_s():

C11 K. The gets_s function

#define __STDC_WANT_LIB_EXT1__ 1
#include <stdio.h>
char *gets_s(char *s, rsize_t n);

However, in the Recommended practice section, fgets() is still preferred.

The fgets function allows properly-written programs to safely process input lines too long to store in the result array. In general this requires that callers of fgets pay attention to the presence or absence of a new-line character in the result array. Consider using fgets (along with any needed processing based on new-line characters) instead of gets_s.

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I read recently, in a USENET post to comp.lang.c, that gets() is getting removed from the Standard. WOOHOO

You'll be happy to know that the committee just voted (unanimously, as it turns out) to remove gets() from the draft as well.

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It is excellent that it is being removed from the standard. However, most implementations will provide it as a 'now non-standard extension' for at least the next 20 years, because of backwards compatibility. –  Jonathan Leffler Nov 7 '09 at 19:42
Yes, right, but when you compile with gcc -std=c2012 -pedantic ... gets() will not get through. (I just made up the -std parameter) –  pmg Nov 7 '09 at 19:55

According to my experience, the right way to work that out is to replace any calls to "gets(x)" by "fgets(x, , stdin)". I don't know if there's any flag to suppress the warning ("man gcc"?...), but if you're sure no problems will arise (as it is your own experimental code) you can simply ignore the warning.

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This does not address the question, which is "why is gets() dangerous?" Note that you can't be sure that no problems will arise, which is why it's dangerous. The original 'Internet Worm' (Google search term 'Morris internet worm') from 1988 exploited a program that used gets() as one of the ways it spread, for example. –  Jonathan Leffler May 3 at 13:50

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