From APUE:

To prevent applications from having to handle interrupted system calls, 4.2BSD introduced the automatic restarting of certain interrupted system calls. The system calls that were automatically restarted are ioctl, read, readv, write, writev, wait, and waitpid. As we’ve mentioned, the first five of these functions are interrupted by a signal only if they are operating on a slow device; wait and waitpid are always interrupted when a signal is caught. Since this caused a problem for some applications that didn’t want the operation restarted if it was interrupted, 4.3BSD allowed the process to disable this feature on a per-signal basis.

Does it mean that before automatic restarting was introduced, if a process catch a signal, wait and waitpid would immediately stop waiting and execute the subsequent code?

For example:

#include <unistd.h>
#include <sys/types.h>
#include <signal.h>

void handler(int sig){}
void handler2(int sig){}

int main(){
    pid_t pid;
    int status;
    signal(SIGUSR1, handler);
    signal(SIGUSR2, handler2);    

    if((pid == fork()) < 0){
        printf("fork error\n");
            //do something, needs several hours.
            waitpid(pid, &status, 0);
            printf("Hello world\n");
    return 0;

If not providing automatic restarting, when I run this program in the background gcc test.c && ./a.out &, then I send a signal kill -SIGUSR1 pid or kill -SIGUSR2 pid, waitpid would return and the code after waitpid(pid, &status, 0); would execute.

And if providing automatic restarting, waitpid would execute again and the parent will remain waiting.

Is my understanding correct?

  • An interrupted system call will return -1 (or whatever it uses to indicate an error) and set errno to EINTR. Whatever happens next depends on how the caller handles that case. If it's restartable it won't return with that particular errno code, unless otherwise documented to do so. It'll just keep going until it returns for some other reason. – Shawn Mar 29 '19 at 7:38
  • Note that you should use sigaction() rather than signal() to gain control over this, and sigaction() provides a control flag SA_RESTART to specify whether system calls should be resumed after a signal is handled. – Jonathan Leffler Mar 29 '19 at 7:41
  • @JonathanLeffler However, signal() by default does apply the restart behaviour nowadays on linux and bsd (at least) – Ctx Mar 29 '19 at 7:42

The original behaviour of signal() (System-V semantics) was, to interrupt any system call if the process currently slept, execute the signal handler and the system call returns with -EINTR. Then, BSD4.3 invented the restart mechanism, which would restart any system call automatically after it was interrupted. This avoids having to write a loop for each syscall if signal handlers are involved.

Linux did not change the semantics of the signal() syscall. However, the signal() glibc wrapper function nowadays calls the syscall sigaction() with SA_RESTART flag by default. So, if you do not need the restart behaviour, you have to call sigaction() and omit that flag.

So, your code indeed makes use of the restart mechanism on both BSD and linux

  • Hi @Ctx, I read the book again and a question just came up to my mind. 1. It seems that only those so-called "slow system calls" can be interrupted. 2.And within all the "slow system calls", not all of them can be restarted automatically. Am I right about these two statements? – Rick Mar 29 '19 at 11:51
  • If those 2 statements were correct, how can I know which system call is one of the "slow system calls" ? And within those "slow system calls", how do I know which can be restarted automatically? Does the manpage contain this information specifically? – Rick Mar 29 '19 at 11:55
  • 1
    @Rick Slow syscalls are all syscalls that can sleep for an indefinite time. If there is the EINTR documented to the syscalls, it can be interrupted. As far as I know, all slow syscalls can be restarted. – Ctx Mar 29 '19 at 11:58
  • I am using Linux btw. :) – Rick Mar 29 '19 at 11:58
  • Ok I got itttttttttttt. Good. Just check if EINTR was documented. I will keep that in mind. Last question please🥺🥺🥺: I don't understand why the retry loop code needed from a previous question I asked confusion-about-a-implementation-of-the-system-function-in-unix. See the comments I made just now under the accepted answer. – Rick Mar 29 '19 at 12:05

wait and waitpid like any other blocking function can be interrupted with errno set to EINTR - this is exactly because a signal handler can do very little - mostly set some flags. Now if a blocking function would not return with EINTR, how could you react to an signal in any way?!

But this also means that you need to have a complicated loop over every function - you might have some signals for which you know you don't want the system calls be interrupted, so you can set this signal to have automatic restart.

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