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In my code I used fprintf. I used flawfinder to check the code for vulnerabilities and I got that:

358: [4] (format) fprintf: If format strings can be influenced by an attacker, they can be exploited. Use a constant for the format specification.

Can someone explain to me what Use a constant for the format specification actually means? Is there any safe version of fprintf?

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Certain this occurred because code had a fprintf(outf, non_constant_string, ...) rather than fprintf(outf, "some constant string", ...). –  chux Dec 10 '13 at 17:13

3 Answers 3

up vote 5 down vote accepted

The problem is that fprintf determines how many arguments it should get by examining the format string. If the format string doesn't agree with the actual arguments, you have undefined behavior which can manifest as a security vulnerability.

The problem is particularly bad if the string supplied can be influenced by the user of your program, because he can then specifically design the string to make your program do bad things.

There is no safe version of fprintf in the C standard. C++ streams avoid the problem, at the cost of not having format strings and using a far more verbose syntax for specifying formatting options.

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Only slightly more verbose when used correctly, and far more flexible and structured. –  James Kanze Dec 10 '13 at 17:08

A constant string, as in a string literal.

Like in

fprintf(someFile, "%s", someStringVariable);

and not like

fprintf(someFile, someStringVariable);
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It means it wants you to write:

fprintf(out, "foo %s", some_string);

instead of what you have, which I guess is something like:

const char *format = "foo %s";

/* some time later */

fprintf(out, format, some_string);

The reason is that it's worried format might come from user input or something, and a malicious user could supply a format foo %s%s%s in order to provoke undefined behavior that they may be able to exploit.

Obviously if you're choosing between n different format strings, all of which are string literals in your code and all use the same format specifiers, but you choose which one at runtime, then following this advice is a bit awkward and wouldn't make your code any safer. But you could have n functions instead of n strings, and each function calls fprintf with a different string literal.

If you're reading the format string out of a config file (which is one fairly crude way of implementing internationalization from scratch) then you're basically out of luck. The linter doesn't trust your translator to use the right format codes for the arguments supplied to the call. And arguably neither should you :-)

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In a lot of cases, the string will come out of a locale specific message file. (I think that GNU's version of gettext will verify that the format specifiers are identical, but otherwise, you're stuck.) –  James Kanze Dec 10 '13 at 17:07
@JamesKanze: funny, I was just writing the same thing. Yes, printf is tempting to use for i18n and certainly a lot closer to solving the whole problem for you than iostream formatting is. But if you're worried about this kind of error then it just falls short. –  Steve Jessop Dec 10 '13 at 17:10
I'm not sure that printf is better for I18n; it really depends on the type of text you're trying to translate. (To get really fluent, arbitrary sentences, you need a separate DLL for each language. For simple error messages, std::ostream is at least as good as printf, and a lot easier to use.) –  James Kanze Dec 10 '13 at 17:35
@James: a typical i18n example (that requires formatting: fixed messages of course don't) is similar to mail merge. You want to translate a sentence like "Thank you <Customer name>, your order for <count> x <item name> will be delivered by <date>". This can easily be configured as a single string containing printf format codes, for iostream it would have to be several separate parts. Issues of word order are dealt with by a Posix extension to printf and rather awkward using streams. Depending on the translator, though, formats in translated text might just be a non-starter. –  Steve Jessop Dec 10 '13 at 18:33
However, I have cunningly avoided phrasing the sentence to require a plural, so you're right of course that translation might require more logic than either printf or stream formatting is capable of delivering on its own. But for "assembling the right bits in the right order", which is often enough to cover most of the work, printf is easier and more effective IMO because the config files are nicer. Of course either one is adequate to write a printf-style formatter that doesn't use varargs. –  Steve Jessop Dec 10 '13 at 18:36

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