WebSVN – HelenOS – Diff – /trunk/uspace/lib/libc/generic/futex.c

 /*
- * Copyright (c) 2006 Jakub Jermar
+ * Copyright (c) 2008 Jakub Jermar
  * All rights reserved.
+ *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
 #include <sys/types.h>
 #include <kernel/synch/synch.h>
 /*
  * Note about race conditions.
- * Because of non-atomic nature of operations performed sequentially on the futex
+ * Because of non-atomic nature of operations performed sequentially on the
- * counter and the futex wait queue, there is a race condition:
+ * futex counter and the futex wait queue, there is a race condition:
+ *
  * (wq->missed_wakeups == 1) && (futex->count = 1)
+ *
  * Scenario 1 (wait queue timeout vs. futex_up()):
  * 1. assume wq->missed_wakeups == 0 && futex->count == -1
  * 2. A receives timeout and gets removed from the wait queue
  * 3. B wants to leave the critical section and calls futex_up()
  * 4. B thus changes futex->count from -1 to 0
  * 5. B has to call SYS_FUTEX_WAKEUP syscall to wake up the sleeping thread
  * 6. B finds the wait queue empty and changes wq->missed_wakeups from 0 to 1
- * 7. A fixes futex->count (i.e. the number of waiting threads) by changing it from 0 to 1
+ * 7. A fixes futex->count (i.e. the number of waiting threads) by changing it
+ *    from 0 to 1
+ *
  * Scenario 2 (conditional down operation vs. futex_up)
  * 1. assume wq->missed_wakeups == 0 && futex->count == 0
  *    (i.e. thread A is in the critical section)
- * 2. thread B performs futex_trydown() operation and changes futex->count from 0 to -1
+ * 2. thread B performs futex_trydown() operation and changes futex->count from
+ *    0 to -1
  *    B is now obliged to call SYS_FUTEX_SLEEP syscall
  * 3. A wants to leave the critical section and does futex_up()
- * 4. A thus changes futex->count from -1 to 0 and must call SYS_FUTEX_WAKEUP syscall
+ * 4. A thus changes futex->count from -1 to 0 and must call SYS_FUTEX_WAKEUP
+ *    syscall
  * 5. B finds the wait queue empty and immediatelly aborts the conditional sleep
- * 6. No thread is queueing in the wait queue so wq->missed_wakeups changes from 0 to 1
+ * 6. No thread is queueing in the wait queue so wq->missed_wakeups changes from
+ *    0 to 1
- * 6. B fixes futex->count (i.e. the number of waiting threads) by changing it from 0 to 1
+ * 6. B fixes futex->count (i.e. the number of waiting threads) by changing it
+ *    from 0 to 1
  *
- * Both scenarios allow two threads to be in the critical section simultaneously.
+ * Both scenarios allow two threads to be in the critical section
- * One without kernel intervention and the other through wq->missed_wakeups being 1.
+ * simultaneously. One without kernel intervention and the other through
+ * wq->missed_wakeups being 1.
  *
- * To mitigate this problem, futex_down_timeout() detects that the syscall didn't sleep
+ * To mitigate this problem, futex_down_timeout() detects that the syscall
- * in the wait queue, fixes the futex counter and RETRIES the whole operation again.
+ * didn't sleep in the wait queue, fixes the futex counter and RETRIES the
- *
+ * whole operation again.
  */
 /** Initialize futex counter.
+ *
- * @param futex Futex.
+ * @param futex     Futex.
- * @param val Initialization value.
+ * @param val       Initialization value.
  */
-void futex_initialize(atomic_t *futex, int val)
+void futex_initialize(futex_t *futex, int val)
+{
     atomic_set(futex, val);
+}
-int futex_down(atomic_t *futex)
+int futex_down(futex_t *futex)
+{
     return futex_down_timeout(futex, SYNCH_NO_TIMEOUT, SYNCH_FLAGS_NONE);
+}
-int futex_trydown(atomic_t *futex)
+int futex_trydown(futex_t *futex)
+{
-    return futex_down_timeout(futex, SYNCH_NO_TIMEOUT, SYNCH_FLAGS_NON_BLOCKING);
+    return futex_down_timeout(futex, SYNCH_NO_TIMEOUT,
+        SYNCH_FLAGS_NON_BLOCKING);
+}
 /** Try to down the futex.
+ *
- * @param futex Futex.
+ * @param futex     Futex.
- * @param usec Microseconds to wait. Zero value means sleep without timeout.
+ * @param usec      Microseconds to wait. Zero value means sleep without
+ *          timeout.
- * @param flags Select mode of operation. See comment for waitq_sleep_timeout().
+ * @param flags     Select mode of operation. See comment for
+ *          waitq_sleep_timeout().
  *
- * @return ENOENT if there is no such virtual address. One of ESYNCH_OK_ATOMIC
+ * @return      ENOENT if there is no such virtual address. One of
- *     and ESYNCH_OK_BLOCKED on success or ESYNCH_TIMEOUT if the lock was
+ *          ESYNCH_OK_ATOMIC and ESYNCH_OK_BLOCKED on success or
+ *          ESYNCH_TIMEOUT if the lock was not acquired because of
- *     not acquired because of a timeout or ESYNCH_WOULD_BLOCK if the
+ *          a timeout or ESYNCH_WOULD_BLOCK if the operation could
- *     operation could not be carried out atomically (if requested so).
+ *          not be carried out atomically (if requested so).
  */
-int futex_down_timeout(atomic_t *futex, uint32_t usec, int flags)
+int futex_down_timeout(futex_t *futex, uint32_t usec, int flags)
+{
     int rc;
     while (atomic_predec(futex) < 0) {
-        rc = __SYSCALL3(SYS_FUTEX_SLEEP, (sysarg_t) &futex->count, (sysarg_t) usec, (sysarg_t) flags);
+        rc = __SYSCALL3(SYS_FUTEX_SLEEP, (sysarg_t) &futex->count,
+            (sysarg_t) usec, (sysarg_t) flags);
         switch (rc) {
         case ESYNCH_OK_ATOMIC:
             /*
-             * Because of a race condition between timeout and futex_up()
+             * Because of a race condition between timeout and
+             * futex_up() and between conditional
-             * and between conditional futex_down_timeout() and futex_up(),
+             * futex_down_timeout() and futex_up(), we have to give
-             * we have to give up and try again in this special case.
+             * up and try again in this special case.
              */
             atomic_inc(futex);
             break;
         case ESYNCH_TIMEOUT:
             return ESYNCH_TIMEOUT;
             break;
         case ESYNCH_WOULD_BLOCK:
             /*
-             * The conditional down operation should be implemented this way.
+             * The conditional down operation should be implemented
-             * The userspace-only variant tends to accumulate missed wakeups
+             * this way. The userspace-only variant tends to
-             * in the kernel futex wait queue.
+             * accumulate missed wakeups in the kernel futex wait
+             * queue.
              */
             atomic_inc(futex);
             return ESYNCH_WOULD_BLOCK;
             break;
         case ESYNCH_OK_BLOCKED:
             /*
              * Enter the critical section.
-             * The futex counter has already been incremented for us.
+             * The futex counter has already been incremented for
+             * us.
              */
             return ESYNCH_OK_BLOCKED;
             break;
         default:
             return rc;
     return ESYNCH_OK_ATOMIC;
+}
 /** Up the futex.
+ *
- * @param futex Futex.
+ * @param futex     Futex.
+ *
- * @return ENOENT if there is no such virtual address. Otherwise zero.
+ * @return      ENOENT if there is no such virtual address. Otherwise
+ *          zero.
  */
-int futex_up(atomic_t *futex)
+int futex_up(futex_t *futex)
+{
     long val;
     val = atomic_postinc(futex);
     if (val < 0)

Subversion Repositories HelenOS

(root)/trunk/uspace/lib/libc/generic/futex.c – Rev 2541 → 2682