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Let's say I have: sample.c

int main (...) {

  char str*;

  get s through user input

  test(str);

  return 0;

}

void test (str) {

   copy str to new file 

   change file permissions on new file

   close file

}

There's no possibility of a race condition here since I have no threads in my main() method. Is that true?

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5 Answers 5

up vote 8 down vote accepted

There is a kind of race condition in that the user can exchange "new file" immediately before you change permissions of "new file". This is (was?) an often used security exploit.

I just see that Neil Butterworth had a related idea.

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Thanks, Peter G and Neil Butterworth. –  Kevin Meredith Aug 9 '10 at 16:34
    
The actual race condition is that the user can change the data in "new file" ("exchanging" the file depends on directory permissions), and can be closed by using umask() prior to creating "new file". –  ninjalj Feb 24 '11 at 19:03

There is the possibility of a race - two users could run your program at the same time.

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@Neil- Whats the solution in this scenario? –  Praveen S Aug 9 '10 at 16:31
    
@Praveen Depends on the filesystem. Some operations are normally atomic, and can be used for locking logic. –  anon Aug 9 '10 at 16:34
    
Could you combine the first two steps of void test(str) to eliminate the race condition? Or could there still be a race condition since two users could call the same program? –  Kevin Meredith Aug 9 '10 at 17:12
    
@Praveen: Eliminating that race is what the O_EXCL flag to open(2) is for. –  caf Aug 9 '10 at 23:45

Another sources of race conditions are interrupts and signals. If you use neither then no race condition will occur (there is single racer)

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1  
Although your answer is technically correct, every OS with pre-emptive scheduling uses interrupts to give each process its time slice. The absence of explicit interrupt code in this program does not mean that no interrupts will happen. –  Thomas Aug 9 '10 at 16:20

Any time that you make a system call there is a possibility of a race condition. This is because the kernel links all the threads on the system and allows control interaction between processes. In this case another thread on the system can access the same file as your application.

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The boost::filesystem docs have good explanations of filesystem race conditions which are applicable to filesystems in general.

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