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@@ -115,6 +115,9 @@ struct futex_q {
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/* rt_waiter storage for requeue_pi: */
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struct rt_mutex_waiter *rt_waiter;
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+ /* The expected requeue pi target futex key: */
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+ union futex_key *requeue_pi_key;
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+
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/* Bitset for the optional bitmasked wakeup */
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u32 bitset;
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};
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@@ -1089,6 +1092,10 @@ static int futex_proxy_trylock_atomic(u32 __user *pifutex,
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if (!top_waiter)
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return 0;
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+ /* Ensure we requeue to the expected futex. */
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+ if (!match_futex(top_waiter->requeue_pi_key, key2))
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+ return -EINVAL;
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+
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/*
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* Try to take the lock for top_waiter. Set the FUTEX_WAITERS bit in
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* the contended case or if set_waiters is 1. The pi_state is returned
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@@ -1276,6 +1283,12 @@ retry_private:
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continue;
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}
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+ /* Ensure we requeue to the expected futex for requeue_pi. */
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+ if (requeue_pi && !match_futex(this->requeue_pi_key, &key2)) {
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+ ret = -EINVAL;
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+ break;
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+ }
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+
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/*
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* Requeue nr_requeue waiters and possibly one more in the case
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* of requeue_pi if we couldn't acquire the lock atomically.
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@@ -1751,6 +1764,7 @@ static int futex_wait(u32 __user *uaddr, int fshared,
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q.pi_state = NULL;
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q.bitset = bitset;
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q.rt_waiter = NULL;
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+ q.requeue_pi_key = NULL;
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if (abs_time) {
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to = &timeout;
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@@ -1858,6 +1872,7 @@ static int futex_lock_pi(u32 __user *uaddr, int fshared,
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q.pi_state = NULL;
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q.rt_waiter = NULL;
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+ q.requeue_pi_key = NULL;
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retry:
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q.key = FUTEX_KEY_INIT;
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ret = get_futex_key(uaddr, fshared, &q.key, VERIFY_WRITE);
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@@ -2118,11 +2133,11 @@ int handle_early_requeue_pi_wakeup(struct futex_hash_bucket *hb,
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* We call schedule in futex_wait_queue_me() when we enqueue and return there
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* via the following:
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* 1) wakeup on uaddr2 after an atomic lock acquisition by futex_requeue()
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- * 2) wakeup on uaddr2 after a requeue and subsequent unlock
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- * 3) signal (before or after requeue)
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- * 4) timeout (before or after requeue)
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+ * 2) wakeup on uaddr2 after a requeue
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+ * 3) signal
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+ * 4) timeout
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*
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- * If 3, we setup a restart_block with futex_wait_requeue_pi() as the function.
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+ * If 3, cleanup and return -ERESTARTNOINTR.
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*
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* If 2, we may then block on trying to take the rt_mutex and return via:
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* 5) successful lock
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@@ -2130,7 +2145,7 @@ int handle_early_requeue_pi_wakeup(struct futex_hash_bucket *hb,
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* 7) timeout
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* 8) other lock acquisition failure
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*
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- * If 6, we setup a restart_block with futex_lock_pi() as the function.
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+ * If 6, return -EWOULDBLOCK (restarting the syscall would do the same).
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*
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* If 4 or 7, we cleanup and return with -ETIMEDOUT.
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*
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@@ -2169,15 +2184,16 @@ static int futex_wait_requeue_pi(u32 __user *uaddr, int fshared,
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debug_rt_mutex_init_waiter(&rt_waiter);
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rt_waiter.task = NULL;
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- q.pi_state = NULL;
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- q.bitset = bitset;
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- q.rt_waiter = &rt_waiter;
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-
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key2 = FUTEX_KEY_INIT;
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ret = get_futex_key(uaddr2, fshared, &key2, VERIFY_WRITE);
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if (unlikely(ret != 0))
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goto out;
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+ q.pi_state = NULL;
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+ q.bitset = bitset;
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+ q.rt_waiter = &rt_waiter;
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+ q.requeue_pi_key = &key2;
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+
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/* Prepare to wait on uaddr. */
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ret = futex_wait_setup(uaddr, val, fshared, &q, &hb);
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if (ret)
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@@ -2248,14 +2264,11 @@ static int futex_wait_requeue_pi(u32 __user *uaddr, int fshared,
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rt_mutex_unlock(pi_mutex);
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} else if (ret == -EINTR) {
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/*
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- * We've already been requeued, but we have no way to
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- * restart by calling futex_lock_pi() directly. We
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- * could restart the syscall, but that will look at
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- * the user space value and return right away. So we
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- * drop back with EWOULDBLOCK to tell user space that
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- * "val" has been changed. That's the same what the
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- * restart of the syscall would do in
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- * futex_wait_setup().
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+ * We've already been requeued, but cannot restart by calling
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+ * futex_lock_pi() directly. We could restart this syscall, but
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+ * it would detect that the user space "val" changed and return
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+ * -EWOULDBLOCK. Save the overhead of the restart and return
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+ * -EWOULDBLOCK directly.
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*/
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ret = -EWOULDBLOCK;
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}
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Linus Torvalds