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I've the following piece of code and I think it can cause an overflow in the readlink() function.

pid_t get_pid_from_proc_self()
{
    char buffer[4];
    pid_t pid;

    readlink("/proc/self", buffer, sizeof(buffer));

    sscanf(buffer, "%d",(int *)&pid);

    return pid;
}

Since the PID is 4 bytes in Linux, readlink() copies 32 bits from "/proc/self" into target[]. Then, according to me, an extra byte should be used for '\0', which makes it 5 bytes.

Also, does readlink() automatically inserts '\0' at the end if string or do I have to specifically assign it to the last byte?

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1  
Thanks for the comment guys! It was VERY difficult to accept one answer. So I just chose the answer of the user who first noticed that sscanf() will overflow. +1 to all though :) It feels good to learn something new. –  Naruto Uzumaki Feb 2 '11 at 16:20

5 Answers 5

up vote 1 down vote accepted

readlink won't overflow because it doesn't put the '\0' on the end. But the sscanf will. You should do this:

You should do this:

char buf[5];
ssizet_t len;
...
if ((len = readlink("/proc/self", buf, sizeof(buf)-1)) != -1)
    buf[len] = '\0';
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SO the sscanf() function will copy the PID+'\0' into the pid variable and cause overflow. Am I correct? –  Naruto Uzumaki Feb 2 '11 at 16:14
1  
well, sscanf doesn't know that the buffer is only 4 characters long, so it will keep going past the end. –  tster Feb 2 '11 at 16:16
    
If I Nul terminate the terminate the string in the 5th byte, then sscanf() will copy 4 bytes or 5 bytes:PID+'\0'? –  Naruto Uzumaki Feb 2 '11 at 16:49
1  
it won't "copy" it, but yes, it will do what you want. –  tster Feb 2 '11 at 16:52

No, it won't cause an overflow. It'll read in at most sizeof(buffer) bytes, and then stop. It doesn't null-terminate your string, so you will have to do so. Reading buffer before ensuring the last byte is a \0 will lead to undefined behavior (which is what your sscanf() call is doing).

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1  
sscanf will overflow... –  tster Feb 2 '11 at 16:06
1  
The question was about readlink(). I added a comment about reading the string before ensuring it was null-terminated to address the sscanf issue, though not explicitly. I'll do that. –  Mark Loeser Feb 2 '11 at 16:10

Per the examples shown here:

http://pubs.opengroup.org/onlinepubs/009695399/functions/readlink.html

if ((len = readlink("/modules/pass1", buf, sizeof(buf)-1)) != -1)
    buf[len] = '\0';

Edit:

I wonder about:

Since the PID is 4 bytes in Linux, readlink() copies 32 bits from "/proc/self" ...

Don't you get back a string version of the PID, not an actual 4-byte integer? Couldn't your value be up to 10 digits? 5 digits? (per comment about max proc value being far less than max 4-byte int value - thanks @Karl)

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2  
Actually, for most common values of /proc/sys/kernel/pid_max it's going to be more like a 5 byte string (my max is 32768), but +1 for noticing the difference between string and int. –  Karl Bielefeldt Feb 2 '11 at 16:14
1  
@Karl - crap I knew that (once), but I guess my mind is turning to mush with lack of use. +1 to you for the highly useful comment. –  Bert F Feb 2 '11 at 16:20

readlink() will not cause an overflow, but it will not append the trailing \0 and sscanf() may potentially hurt badly (buffer overflow). From the readlink() manpage.

readlink() places the contents of the symbolic link path in the buffer buf, which has size bufsiz. readlink() does not append a null byte to buf. It will truncate the contents (to a length of bufsiz characters), in case the buffer is too small to hold all of the contents.

Furthermore, readlink() reads the text of the PID, which can be greater than "9999". Using only four bytes to store the PID value in text is not enough.

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Your assumption is completely off-base. sizeof(pid_t) being 4 does not mean that it takes 4 bytes to store a decimal string representing the number. A typical 16-bit pid like 12345 obviously takes 6 bytes to store as a string, and if Linux has been configured to allow more than 32768 processes, it could easily be longer.

The correct size for a buffer to hold a foo_t integer type as a decimal string is 3*sizeof(foo_t)+2. You can do slightly better on the bounds if you care, but I don't mind wasting a few bytes for simplicity (and obvious correctness) in the source.

(Note that I'm assuming 8-bit bytes, which POSIX requires, since pids are a POSIX concept. If you wanted to support larger bytes you'd need to adapt the bound using CHAR_BIT.)

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