I made a function like this:

bool IsSameString(char* p1, char* p2) 
     return 0 == strcmp(p1, p2);

The problem is that sometimes, by mistake, arguments are passed which are not strings (meaning that p1 or p2 is not terminated with a null character). Then, strcmp continues comparing until it reaches non-accessible memory and crashes. Is there a safe version of strcmp? Or can I tell whether p1 (and p2) is a string or not in a safe manner?

  • I might have mistakingly retagged your question to C. Are you looking for a C or C++ solution?
    – P Shved
    Commented Oct 26, 2009 at 9:09
  • Just remember that even strncmp does not guarantee safety. Commented Oct 26, 2009 at 9:23
  • @Pavel Shved, there's a bool return type, and C doesn't have the bool type, so I think it's C++ Commented Oct 26, 2009 at 9:27
  • 8
    If this is C++, then the safe solution is to use the string class. (As for the bool type, doesn't C99 introduce that as well) Commented Oct 26, 2009 at 9:44
  • 1
    #include I would hope...
    – Ephemera
    Commented Nov 24, 2014 at 4:13

8 Answers 8


No, there's no (standard) way to tell whether a char * actually points to valid memory.

In your situation, it is better to use std::string rather than char *s for all your strings, along with the overloaded == operator. If you do this, the compiler would enforce type safety.

EDIT: As per the comments below if you find yourself in a situation where you sometimes pass char *s that may or may not be valid strings to functions that expect null-terminated strings then something is fundamentally wrong with your approach, so basically @janm's answer below.

  • 3
    ..and if you use std::string, you don't need to write a function like the one you've written, saving you time and energy. Commented Oct 26, 2009 at 11:25
  • 3
    Using std::string still doesn't help if one of the strings is being fed as input from somewhere. At the end of the day, a std::string has to be instantiated off a char*. And if that char* does not point to a null-terminated string, the std::string constructor will either blow up or have undefined behavior. The only true solution is to sanitize strings in some way against a max length (either when constructing std::string instances if we go that route, or when using strncmp instead of strcmp when going the null-terminated char* route. Commented May 16, 2012 at 20:23
  • -1 : propsing to use C++ "string" for someone who is using C is not really an answer at all. "The compiler would enforce type safety"... Only as long as someone does not do old C style casts (for example "std::string xxx = (char *)whatever;" ). What you might propose is to use something more complex than "char *" to represent strings. For example "struct mystr { uint32_t magicnum; ...}" where "magicnum" has to have a specific value; using "std:string" does not help here. Commented Jan 21, 2014 at 18:04
  • 1
    @IngoBlackman The question is tagged C++. Also, the function returns bool, so a C++ assumption was fair. Also, this answer is more than 3 years old.
    – Wernsey
    Commented Jan 22, 2014 at 11:51
  • @IngoBlackman I didn't mean std::string xxx=(char *)whatever; - the OP should use std::strings to for all his strings. Then he can take advantage of the facilities the compiler provides, like type safety and an overloaded == operator (which would eliminate his need for a safe strcmp function). But you've got a point in that if the OP has situations where his char*s may sometimes point to strings and other times to invalid data then there is something wrong on a more fundamental level.
    – Wernsey
    Commented Jan 27, 2014 at 7:56

In some cases std::strncmp can solve your problem:

int strncmp ( const char * str1, const char * str2, size_t num ); 

It compares up to num characters of the C string str1 to those of the C string str2.

Also, take a look, what the US DHS National Cyber Security Division recommends on this matter:

Ensure that strings are null terminated before passing into strcmp. This can be enforced by always placing a \0 in the last allocated byte of the buffer.

char str1[] ="something";
char str2[] = "another thing";
/* In this case we know strings are null terminated. Pretend we don't. */
str1[sizeof(str1)-1] = '\0';
str2[sizeof(str2)-1] = '\0';
/* Now the following is safe. */
if (strcmp(str1, str2)) { /* do something */ } else { /* do something else */ }

If you are passing strings to strcmp() that are not null terminated you have already lost. The fact that you have a string that is not null terminated (but should be) indicates that you have deeper issues in your code. You cannot change strcmp() to safely deal with this problem.

You should be writing your code so that can never happen. Start by using the string class. At the boundaries where you take data into your code you need to make sure you deal with the exceptional cases; if you get too much data you need to Do The Right Thing. That does not involve running off the end of your buffer. If you must perform I/O into a C style buffer, use functions where you specify the length of the buffer and detect and deal with cases where the buffer is not large enough at that point.

  • 3
    Yes, what janm said. When you find a bug, fix the bug. Don't just try to hide it by complicating other code in a futile attempt to make the bug's symptoms less severe. In this case, there is a bug in the code that calls IsSameString(). Commented Oct 26, 2009 at 15:56

There's no cure for this that is portable. The convention states that there's an extra character holding a null character that belongs to the same correctly allocated block of memory as the string itself. Either this convention is followed and everything's fine or undefined behaviour occurs.

If you know the length of the string you compare against you can use strncmp() but his will not help if the string passed to your code is actually shorter than the string you compare against.


you can use strncmp, But if possible use std::string to avoid many problems :)

  • std::string can still be vulnerable if an instance is constructed off a char* that is not null terminated. At some point, for true or near-true secure code, a max-length has to be enforced according to the context (be it when using strncmp, or during instantiation of std::string.) Commented May 16, 2012 at 20:25

You can put an upper limit on the number of characters to be compared using the strncmp function.

  • 1
    But it doesn't make sense. A sane strcmp(s1, s2) will not look further in s1 than there are characters in s2, and at the same time, you have to compare the full length of the shortest of them.. so there is no way that strncmp can help. Commented Jun 15, 2010 at 22:25

There is no best answer to this as you can't verify the char* is a string. The only solution is to create a type and use it for string for example str::string or create your own if you want something lighter. ie

struct MyString
  MyString() : str(0), len(0) {}
  MyString( char* x ) { len = strlen(x); str = strdup(x); }
  ⁓MyString() { if(str) free(str); }
  char* str;
  size_t len;

bool IsSameString(MyString& p1, MyString& p2) 
  return 0 == strcmp(p1.str, p2.str);

MyString str1("test");
MyString str2("test");

if( IsSameString( str1, str2 ) {}
  • 1
    This just changes the point of failure; if the memory passed in the constructor is not null terminated there will still be a failure.
    – janm
    Commented Oct 26, 2009 at 11:21
  • "Want something lighter" seems to be the downfall. std::string will do everything your class does, at no extra cost. Light != less functionality.
    – GManNickG
    Commented Oct 26, 2009 at 14:40
  • janm - I think that is a problem that you will not be able to solve without only using allowing static strings ie "" to be used and making all other uses of char* compile time errors. Commented Oct 26, 2009 at 15:50
  • GMan - I am not sure but I would expect that std::string will increase the size of your exec by quite a bit. It all depends on what you mean by lighter etc. Commented Oct 26, 2009 at 15:52
  • You'll be linking to the standard library anyway, if that's what you mean. I can't see saving a little space worth trying to correctly re-write an existing class. As it stands, your string class is buggy.
    – GManNickG
    Commented Oct 26, 2009 at 17:33

You dont write, what platform you are using. Windows has the following functions:

IsBadStringPtr might be what you are looking for, if you are using windows.

  • 6
    The IsBadXXXPtr functions are generally not a good thing to use -- depending on where the pointer points, they can induce random crashes in other parts of the program, and it's much, much easier to debug a crash near its cause, instead of half an hour and sixteen source files away. See blogs.msdn.com/oldnewthing/archive/2006/09/27/773741.aspx for details. Commented Oct 26, 2009 at 11:15
  • Not only that, it masks other problems. The pointer might be valid from the operating system's point of view, but the memory could be something else (like an address on the stack ...)
    – janm
    Commented Oct 26, 2009 at 11:23
  • 1
    Oh, thanks for these comments. I had some similar experience, but counted that to homebrewn problems. Commented Oct 26, 2009 at 11:48

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