int *urcu_active_readers;
};
+#ifdef DEBUG_YIELD
+unsigned int yield_active;
+unsigned int __thread rand_yield;
+#endif
+
static struct reader_data *reader_data;
static int num_readers, alloc_readers;
static int sig_done;
-void rcu_write_lock(void)
+void internal_urcu_lock(void)
{
int ret;
ret = pthread_mutex_lock(&urcu_mutex);
}
}
-void rcu_write_unlock(void)
+void internal_urcu_unlock(void)
{
int ret;
*/
if (!reader_data)
return;
+ debug_yield_write();
sig_done = 0;
+ debug_yield_write();
mb(); /* write sig_done before sending the signals */
- for (index = reader_data; index < reader_data + num_readers; index++)
+ debug_yield_write();
+ for (index = reader_data; index < reader_data + num_readers; index++) {
pthread_kill(index->tid, SIGURCU);
+ debug_yield_write();
+ }
/*
* Wait for sighandler (and thus mb()) to execute on every thread.
* BUSY-LOOP.
*/
while (sig_done < num_readers)
barrier();
+ debug_yield_write();
mb(); /* read sig_done before ending the barrier */
+ debug_yield_write();
}
void wait_for_quiescent_state(int parity)
/*
* BUSY-LOOP.
*/
- while (*index->urcu_active_readers != 0)
+ while (index->urcu_active_readers[parity] != 0)
barrier();
}
/*
force_mb_all_threads();
}
+static void switch_qparity(void)
+{
+ int prev_parity;
+
+ /* All threads should read qparity before accessing data structure. */
+ /* Write ptr before changing the qparity */
+ force_mb_all_threads();
+ debug_yield_write();
+ prev_parity = switch_next_urcu_qparity();
+ debug_yield_write();
+
+ /*
+ * Wait for previous parity to be empty of readers.
+ */
+ wait_for_quiescent_state(prev_parity);
+}
+
+void synchronize_rcu(void)
+{
+ debug_yield_write();
+ internal_urcu_lock();
+ debug_yield_write();
+ switch_qparity();
+ debug_yield_write();
+ switch_qparity();
+ debug_yield_write();
+ internal_urcu_lock();
+ debug_yield_write();
+}
+
/*
* Return old pointer, OK to free, no more reference exist.
* Called under rcu_write_lock.
*/
void *urcu_publish_content(void **ptr, void *new)
{
- int ret, prev_parity;
void *oldptr;
+ debug_yield_write();
+ internal_urcu_lock();
+ debug_yield_write();
/*
* We can publish the new pointer before we change the current qparity.
* Readers seeing the new pointer while being in the previous qparity
* when the next quiescent state window will be over.
*/
oldptr = *ptr;
+ debug_yield_write();
*ptr = new;
- wmb(); /* Write ptr before changing the qparity */
- /* All threads should read qparity before ptr */
- force_mb_all_threads();
- prev_parity = switch_next_urcu_qparity();
- /*
- * Wait for previous parity to be empty of readers.
- */
- wait_for_quiescent_state(prev_parity);
- /*
- * Deleting old data is ok !
- */
-
+ debug_yield_write();
+ switch_qparity();
+ debug_yield_write();
+ switch_qparity();
+ debug_yield_write();
+ internal_urcu_unlock();
+ debug_yield_write();
+
return oldptr;
}
assert(reader_data != NULL);
for (index = reader_data; index < reader_data + num_readers; index++) {
- if (index->tid == id) {
+ if (pthread_equal(index->tid, id)) {
memcpy(index, &reader_data[num_readers - 1],
sizeof(struct reader_data));
reader_data[num_readers - 1].tid = 0;
void urcu_register_thread(void)
{
- rcu_write_lock();
+ internal_urcu_lock();
urcu_add_reader(pthread_self());
- rcu_write_unlock();
+ internal_urcu_unlock();
}
void urcu_unregister_thread(void)
{
- pthread_t self = pthread_self();
- rcu_write_lock();
+ internal_urcu_lock();
urcu_remove_reader(pthread_self());
- rcu_write_unlock();
+ internal_urcu_unlock();
}
void sigurcu_handler(int signo, siginfo_t *siginfo, void *context)