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I want to know the disadvantages of scanf().

In many sites, I have read that using scanf might cause buffer overflows. What is the reason for this? Are there any other drawbacks with scanf?

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up vote 32 down vote accepted

The problems with scanf are (at a minimum):

  • using %s to get a string from the user, which leads to the possibility that the string may be longer than your buffer, causing overflow.
  • the possibility of a failed scan leaving your file pointer in an indeterminate location.

I very much prefer using fgets to read whole lines in so that you can limit the amount of data read. If you've got a 1K buffer, and you read a line into it with fgets you can tell if the line was too long by the fact there's no terminating newline character (last line of a file without a newline notwithstanding).

Then you can complain to the user, or allocate more space for the rest of the line (continuously if necessary until you have enough space). In either case, there's no risk of buffer overflow.

Once you've read the line in, you know that you're positioned at the next line so there's no problem there. You can then sscanf your string to your heart's content without having to save and restore the file pointer for re-reading.

Here's a snippet of code which I frequently use to ensure no buffer overflow when asking the user for information.

It could be easily adjusted to use a file other than standard input if necessary and you could also have it allocate its own buffer (and keep increasing it until it's big enough) before giving that back to the caller (although the caller would then be responsible for freeing it, of course).

#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;


// Test program for getLine().

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

    rc = getLine ("Enter string> ", buff, sizeof(buff));
    if (rc == NO_INPUT) {
        // Extra NL since my system doesn't output that on EOF.
        printf ("\nNo input\n");
        return 1;

    if (rc == TOO_LONG) {
        printf ("Input too long [%s]\n", buff);
        return 1;

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

    return 0;

A test run:

$ ./tstprg
Enter string>[CTRL-D]
No input

$ ./tstprg
Enter string> a
OK [a]

$ ./tstprg
Enter string> hello
OK [hello]

$ ./tstprg
Enter string> hello there
Input too long [hello the]

$ ./tstprg
Enter string> i am pax
OK [i am pax]
share|improve this answer
if (fgets (buff, sz, stdin) == NULL) return NO_INPUT; Why did you use NO_INPUT as return value? fgets returns NULL only on error. – Fabio Carello Mar 29 '13 at 17:19
@Fabio, not quite. It also returns null if the stream is closed before any input has been made. That's the case being caught here. Don't make the mistake that NO_INPUT means empty input (pressing ENTER before anything else) - the latter gives you an empty string with no NO_INPUT error code. – paxdiablo Mar 29 '13 at 23:21
The latest POSIX standard allows char *buf; scanf("%ms", &buf); which will allocate enough space for you with malloc (so it must be freed later), which would help prevent buffer overruns. – dreamlax Oct 3 '14 at 1:14

Most of the answers so far seem to focus on the string buffer overflow issue. In reality, the format specifiers that can be used with scanf functions support explicit field width setting, which limit the maximum size of the input and prevent buffer overflow. This renders the popular accusations of string-buffer overflow dangers present in scanf virtually baseless. Claiming that scanf is somehow analogous to gets in the respect is completely incorrect. There's a major qualitative difference between scanf and gets: scanf does provide the user with string-buffer-overflow-preventing features, while gets doesn't.

One can argue that these scanf features are difficult to use, since the field width has to be embedded into format string (there's no way to pass it through a variadic argument, as it can be done in printf). That is actually true. scanf is indeed rather poorly designed in that regard. But nevertheless any claims that scanf is somehow hopelessly broken with regard to string-buffer-overflow safety are completely bogus and usually made by lazy programmers.

The real problem with scanf has a completely different nature, even though it is also about overflow. When scanf function is used for converting decimal representations of numbers into values of arithmetic types, it provides no protection from arithmetic overflow. If overflow happens, scanf produces undefined behavior. For this reason, the only proper way to perform the conversion in C standard library is functions from strto... family.

So, to summarize the above, the problem with scanf is that it is difficult (albeit possible) to use properly and safely with string buffers. And it is impossible to use safely for arithmetic input. The latter is the real problem. The former is just an inconvenience.

P.S. The above in intended to be about the entire family of scanf functions (including also fscanf and sscanf). With scanf specifically, the obvious issue is that the very idea of using a strictly-formatted function for reading potentially interactive input is rather questionable.

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I just have to point out, it's not that you can't read arithmetic input safely, more that you can't do it correctly and robustly for dirty input. To me there's a huge difference between crashing my program and/or opening the OS to attack and simply getting a few wrong values when users try purposeful mischief. What do I care if they typed in 1431337.4044194872987 and got 4.0 instead? Either way they entered 4.0. (Sometimes it might matter, but how often?) – user645280 Jan 3 '14 at 14:48
AnT, what do you mean by 'converting decimal representations of numbers into values of arithmetic types'? Could you give an example? Thanks – snowfox Jul 3 '15 at 9:01
@snowfox: I simply mean converting a string "123" into internal integer representation of number 123. – AnT Jul 3 '15 at 16:12
Third paragraph: scanf will gladly read a value of >2^32 if encountered in the string, into a 32 bit integer and cause undefined behavior? – 2501 Jan 20 at 14:52
@2501: Yes, precisely. At least that's what happens according to the language standard. – AnT Jan 20 at 15:38

From the comp.lang.c FAQ: Why does everyone say not to use scanf? What should I use instead?

scanf has a number of problems—see questions 12.17, 12.18a, and 12.19. Also, its %s format has the same problem that gets() has (see question 12.23)—it’s hard to guarantee that the receiving buffer won’t overflow. [footnote]

More generally, scanf is designed for relatively structured, formatted input (its name is in fact derived from “scan formatted”). If you pay attention, it will tell you whether it succeeded or failed, but it can tell you only approximately where it failed, and not at all how or why. You have very little opportunity to do any error recovery.

Yet interactive user input is the least structured input there is. A well-designed user interface will allow for the possibility of the user typing just about anything—not just letters or punctuation when digits were expected, but also more or fewer characters than were expected, or no characters at all (i.e., just the RETURN key), or premature EOF, or anything. It’s nearly impossible to deal gracefully with all of these potential problems when using scanf; it’s far easier to read entire lines (with fgets or the like), then interpret them, either using sscanf or some other techniques. (Functions like strtol, strtok, and atoi are often useful; see also questions 12.16 and 13.6.) If you do use any scanf variant, be sure to check the return value to make sure that the expected number of items were found. Also, if you use %s, be sure to guard against buffer overflow.

Note, by the way, that criticisms of scanf are not necessarily indictments of fscanf and sscanf. scanf reads from stdin, which is usually an interactive keyboard and is therefore the least constrained, leading to the most problems. When a data file has a known format, on the other hand, it may be appropriate to read it with fscanf. It’s perfectly appropriate to parse strings with sscanf (as long as the return value is checked), because it’s so easy to regain control, restart the scan, discard the input if it didn’t match, etc.

Additional links:

References: K&R2 Sec. 7.4 p. 159

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Yes, you are right. There is a major security flaw in scanf family(scanf,sscanf, fscanf..etc) esp when reading a string, because they don't take the length of the buffer (into which they are reading) into account.


char buf[3];

clearly the the buffer buf can hold MAX 3 char. But the sscanf will try to put "abcdef" into it causing buffer overflow.

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You can provide "%10s" as the format specifier and it will read no more than 10 characters into the buffer. – dreamlax Mar 12 '10 at 3:29
Sure - it's possible to use the API safely. It's also possible to use dynamite to clear dirt out of your garden safely. But I wouldn't recommend either, especially since there are safer alternatives. – Larry Osterman Mar 12 '10 at 3:34
My dad used to use gelignite for clearing down trees on the farm. You just have to understand your tools and know the dangers. – paxdiablo Mar 12 '10 at 3:42
@codaddict: The fact that someone doesn't use field width with scanf is the problem with that someone, not with scanf. It is completely irrelevant to the issue in question. This is C after all, not Java. – AnT Mar 12 '10 at 7:44
The problem is that the field width in scanf() must be hardcoded in the conversion specifier; with printf(), you can use * in the conversion specifier and pass the length as an argument. But since * means something different in scanf(), that doesn't work, so you basically have to generate a new format for each read like Alok does in his example. It just adds more work and clutter; might as well use fgets() and be done with it. – John Bode Mar 12 '10 at 15:23

It is very hard to get scanf to do the thing you want. Sure, you can, but things like scanf("%s", buf); are as dangerous as gets(buf);, as everyone has said.

As an example, what paxdiablo is doing in his function to read can be done with something like:

scanf("%10[^\n]%*[^\n]", buf));

The above will read a line, store the first 10 non-newline characters in buf, and then discard everything till (and including) a newline. So, paxdiablo's function could be written using scanf the following way:

#include <stdio.h>

enum read_status {

static int get_line(const char *prompt, char *buf, size_t sz)
    char fmt[40];
    int i;
    int nscanned;

    printf("%s", prompt);

    sprintf(fmt, "%%%zu[^\n]%%*[^\n]%%n", sz-1);
    /* read at most sz-1 characters on, discarding the rest */
    i = scanf(fmt, buf, &nscanned);
    if (i > 0) {
        if (nscanned >= sz) {
            return TOO_LONG;
        } else {
            return OK;
    } else {
        return NO_INPUT;

int main(void)
    char buf[10+1];
    int rc;

    while ((rc = get_line("Enter string> ", buf, sizeof buf)) != NO_INPUT) {
        if (rc == TOO_LONG) {
            printf("Input too long: ");
        printf("->%s<-\n", buf);
    return 0;

One of the other problems with scanf is its behavior in case of overflow. For example, when reading an int:

int i;
scanf("%d", &i);

the above cannot be used safely in case of an overflow. Even for the first case, reading a string is much more simpler to do with fgets rather than with scanf.

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Wow Alok! When did you surpass 10k? Congratulations and keep it up! :) – dreamlax Mar 12 '10 at 8:10
@dreamlax: I passed 10k this month I think. Looks like you're pretty close as well. Thanks for the message. :-) – Alok Singhal Mar 12 '10 at 8:16

Problems I have with the *scanf() family:

  • Potential for buffer overflow with %s and %[ conversion specifiers. Yes, you can specify a maximum field width, but unlike with printf(), you can't make it an argument in the scanf() call; it must be hardcoded in the conversion specifier.
  • Potential for arithmetic overflow with %d, %i, etc.
  • Limited ability to detect and reject badly formed input. For example, "12w4" is not a valid integer, but scanf("%d", &value); will successfully convert and assign 12 to value, leaving the "w4" stuck in the input stream to foul up a future read. Ideally the entire input string should be rejected, but scanf() doesn't give you an easy mechanism to do that.

If you know your input is always going to be well-formed with fixed-length strings and numerical values that don't flirt with overflow, then scanf() is a great tool. If you're dealing with interactive input or input that isn't guaranteed to be well-formed, then use something else.

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What other sane alternatives are there for reading fixed-length strings and numerical values safely? – Rajkumar S Mar 23 '12 at 8:56

Many answers here discuss the potential overflow issues of using scanf("%s", buf), but the latest POSIX specification more-or-less resolves this issue by providing an m assignment-allocation character that can be used in format specifiers for c, s, and [ formats. This will allow scanf to allocate as much memory as necessary with malloc (so it must be freed later with free).

An example of its use:

char *buf;
scanf("%ms", &buf); // with 'm', scanf expects a pointer to pointer to char.

// use buf


See here. Disadvantages to this approach is that it is a relatively recent addition to the POSIX specification and it is not specified in the C specification at all, so it remains rather unportable for now.

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There is one big problem with scanf-like functions - the lack of any type safety. That is, you can code this:

int i;
scanf("%10s", &i);

Hell, even this is "fine":

scanf("%10s", i);

It's worse than printf-like functions, because scanf expects a pointer, so crashes are more likely.

Sure, there are some format-specifier checkers out there, but, those are not perfect and well, they are not part of the language or the standard library.

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