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I have a driver that wants to send notification to the user about a status change. In the current implementation it uses the proc filesystem to do so. The read process loops around a read() to the proc filesystem. The read() blocks with wait_event_interruptible() until the kernel gets an interrupt which causes the write_new_data() function to call wake_up_interruptible(). Here's the basic code (removed all unneeded clutter):

static int flag=0;

//user process call read() on /proc/myfile to get to this function
int my_proc_read (struct file *filp, char *buf, size_t count, loff_t *pos)
    wait_event_interruptible(info_wq, flag != 0);
    flag = 0;

    //copy buffers to user
    return 0;

//when an interrupt comes it schedules this function on the systems' work queue
void write_new_data ()
    //fill buffer with data
    flag = 1;

Now consider the following flow:

  1. User process calls read(), then waits.
  2. interrupt occurs -> write_new_data() is called. writes data and calls wake_up_interruptible().
  3. read() is awaken, reads data but process has not rerun read (wasn't scheduled to run, didn't get to it because of the next interrupt...).
  4. interrupt occurs -> write_new_data() is triggered again, calls wake_up_interruptible() but no waiting thread is waiting...
  5. process calls read and blocks.

Note: this all happens on a uni-processor system. Also there is only one thread reading and one thread writing new data.

How can I avoid missing the second interrupt? (One solution is to use netlink sockets but I was wondering if there is a way to do it in /proc land)

share|improve this question
up vote 1 down vote accepted

Since the interrupt can occur between the call to wait_event_interruptible and flag = 0, it would affect the flag variable in an unwanted way.

Note that even on a UP machine, the kernel could be preemptive depending on the configuration, and that code would be affected as a result.

Also, I advice to not use a simple 'int' flag. Instead, you should use atomic_t and atomic_dec/inc_* operations. See the implementation of completions inside the kernel, it does something similar to what you are doing here.

About the question itself:

If you'll look in the code of wait_event_interruptible you'll see that the sleep doesn't take place if the condition is true - so your problem is a non-problem.

share|improve this answer
Well, for simplicity I took out the code part with spin locks that controls the changing of the flag. Thanks for tips on atomic_dec/inc and completions - I'll read more about those. Still my basic question remains unanswered... – Dror Cohen Jun 13 '12 at 11:15
There's something not quite right with the flow you are presenting. After the second interrupt, flag == 1, and the next call to read, even if it got delayed by the interrupt, cannot seem to block because wait_Event_interruptible would exit immediately because of the provided condition. – Dan Aloni Jun 13 '12 at 12:37
Here we disagree. My understanding is that if when the wake is called no thread is on the wait queue (not called wait_event) then the fact that the condition is true won't help and the process will sleep until someone calls wake_up again (and only then will the condition be checked for true) – Dror Cohen Jun 13 '12 at 12:50
No, that is not how this works. Just look at the definition of the __wait_event_interruptible macro. It returns if the condition is met before calling schedule(), therefore it wouldn't sleep if the condition is already met. – Dan Aloni Jun 13 '12 at 17:27
from the code - it looks you're very right and Im very wrong...I'll test code it with a simple module and report back – Dror Cohen Jun 14 '12 at 13:55

Dan, here is the code of wait_event_interruptible :

#define wait_event_interruptible(wq, condition)             \
({                                  \
    int __ret = 0;                          \
    if (!(condition))                       \
        __wait_event_interruptible(wq, condition, __ret);   \
    __ret;                              \

If an interrupt occurs just between "if (!(condition))" and "__wait_event_interruptible", the sleep will take place and the read process will be block untill another interrupt occurs.

share|improve this answer
no, look at __wait_event_interrupts() - it does if (condition) break before sleeping. – Dan Aloni Nov 26 '12 at 11:50
typo ; I meant look at __wait_event_interruptible(). It checks the condition again. To elucidate even further - even if the interrupt happened after the second check, the call to schedule() will return immediately because of the call to wake_up in the interrupt. The reason that __wait_event_interruptible calls prepare_to_wait() before checking the condition again is to prevent races on the update of the condition. Thus, the APIs are valid, but the handling of flag in the question is still a bug. – Dan Aloni Nov 26 '12 at 12:04
ok, thanks Dan. – Adrien Nov 26 '12 at 12:29
I found this: link __wait_event_interruptible(): <code> prepare_to_wait(&wq, &__wait, TASK_INTERRUPTIBLE); if (condition) break; if (!signal_pending(current)) ret = schedule_timeout(ret); </code> If the condition and a wake_up() occur just before the call to prepare_to_wait() and if this code is preempted just after the call to prepare_to_wait(), in that case it would not be run again by the scheduler since it is in the TASK_INTERRUPTIBLE state. – Adrien Jan 3 '13 at 10:50

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