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Add Documentation/futex-requeue-pi.txt describing the motivation for the newly added FUTEX_*REQUEUE_PI op codes and their implementation. [ Impact: add documentation ] Signed-off-by: Darren Hart <dvhltc@us.ibm.com> Cc: Sripathi Kodi <sripathik@in.ibm.com> Cc: Peter Zijlstra <peterz@infradead.org> Cc: John Stultz <johnstul@us.ibm.com> Cc: Steven Rostedt <rostedt@goodmis.org> Cc: Dinakar Guniguntala <dino@in.ibm.com> Cc: Ulrich Drepper <drepper@redhat.com> Cc: Eric Dumazet <dada1@cosmosbay.com> Cc: Jakub Jelinek <jakub@redhat.com> LKML-Reference: <4A03634E.3080609@us.ibm.com> [ reformatted the file ] Signed-off-by: Ingo Molnar <mingo@elte.hu>
131 lines
5 KiB
Text
131 lines
5 KiB
Text
Futex Requeue PI
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----------------
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Requeueing of tasks from a non-PI futex to a PI futex requires
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special handling in order to ensure the underlying rt_mutex is never
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left without an owner if it has waiters; doing so would break the PI
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boosting logic [see rt-mutex-desgin.txt] For the purposes of
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brevity, this action will be referred to as "requeue_pi" throughout
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this document. Priority inheritance is abbreviated throughout as
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"PI".
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Motivation
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----------
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Without requeue_pi, the glibc implementation of
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pthread_cond_broadcast() must resort to waking all the tasks waiting
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on a pthread_condvar and letting them try to sort out which task
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gets to run first in classic thundering-herd formation. An ideal
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implementation would wake the highest-priority waiter, and leave the
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rest to the natural wakeup inherent in unlocking the mutex
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associated with the condvar.
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Consider the simplified glibc calls:
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/* caller must lock mutex */
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pthread_cond_wait(cond, mutex)
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{
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lock(cond->__data.__lock);
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unlock(mutex);
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do {
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unlock(cond->__data.__lock);
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futex_wait(cond->__data.__futex);
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lock(cond->__data.__lock);
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} while(...)
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unlock(cond->__data.__lock);
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lock(mutex);
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}
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pthread_cond_broadcast(cond)
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{
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lock(cond->__data.__lock);
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unlock(cond->__data.__lock);
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futex_requeue(cond->data.__futex, cond->mutex);
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}
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Once pthread_cond_broadcast() requeues the tasks, the cond->mutex
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has waiters. Note that pthread_cond_wait() attempts to lock the
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mutex only after it has returned to user space. This will leave the
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underlying rt_mutex with waiters, and no owner, breaking the
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previously mentioned PI-boosting algorithms.
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In order to support PI-aware pthread_condvar's, the kernel needs to
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be able to requeue tasks to PI futexes. This support implies that
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upon a successful futex_wait system call, the caller would return to
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user space already holding the PI futex. The glibc implementation
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would be modified as follows:
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/* caller must lock mutex */
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pthread_cond_wait_pi(cond, mutex)
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{
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lock(cond->__data.__lock);
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unlock(mutex);
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do {
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unlock(cond->__data.__lock);
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futex_wait_requeue_pi(cond->__data.__futex);
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lock(cond->__data.__lock);
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} while(...)
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unlock(cond->__data.__lock);
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/* the kernel acquired the the mutex for us */
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}
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pthread_cond_broadcast_pi(cond)
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{
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lock(cond->__data.__lock);
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unlock(cond->__data.__lock);
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futex_requeue_pi(cond->data.__futex, cond->mutex);
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}
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The actual glibc implementation will likely test for PI and make the
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necessary changes inside the existing calls rather than creating new
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calls for the PI cases. Similar changes are needed for
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pthread_cond_timedwait() and pthread_cond_signal().
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Implementation
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--------------
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In order to ensure the rt_mutex has an owner if it has waiters, it
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is necessary for both the requeue code, as well as the waiting code,
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to be able to acquire the rt_mutex before returning to user space.
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The requeue code cannot simply wake the waiter and leave it to
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acquire the rt_mutex as it would open a race window between the
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requeue call returning to user space and the waiter waking and
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starting to run. This is especially true in the uncontended case.
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The solution involves two new rt_mutex helper routines,
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rt_mutex_start_proxy_lock() and rt_mutex_finish_proxy_lock(), which
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allow the requeue code to acquire an uncontended rt_mutex on behalf
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of the waiter and to enqueue the waiter on a contended rt_mutex.
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Two new system calls provide the kernel<->user interface to
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requeue_pi: FUTEX_WAIT_REQUEUE_PI and FUTEX_REQUEUE_CMP_PI.
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FUTEX_WAIT_REQUEUE_PI is called by the waiter (pthread_cond_wait()
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and pthread_cond_timedwait()) to block on the initial futex and wait
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to be requeued to a PI-aware futex. The implementation is the
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result of a high-speed collision between futex_wait() and
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futex_lock_pi(), with some extra logic to check for the additional
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wake-up scenarios.
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FUTEX_REQUEUE_CMP_PI is called by the waker
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(pthread_cond_broadcast() and pthread_cond_signal()) to requeue and
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possibly wake the waiting tasks. Internally, this system call is
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still handled by futex_requeue (by passing requeue_pi=1). Before
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requeueing, futex_requeue() attempts to acquire the requeue target
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PI futex on behalf of the top waiter. If it can, this waiter is
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woken. futex_requeue() then proceeds to requeue the remaining
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nr_wake+nr_requeue tasks to the PI futex, calling
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rt_mutex_start_proxy_lock() prior to each requeue to prepare the
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task as a waiter on the underlying rt_mutex. It is possible that
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the lock can be acquired at this stage as well, if so, the next
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waiter is woken to finish the acquisition of the lock.
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FUTEX_REQUEUE_PI accepts nr_wake and nr_requeue as arguments, but
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their sum is all that really matters. futex_requeue() will wake or
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requeue up to nr_wake + nr_requeue tasks. It will wake only as many
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tasks as it can acquire the lock for, which in the majority of cases
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should be 0 as good programming practice dictates that the caller of
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either pthread_cond_broadcast() or pthread_cond_signal() acquire the
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mutex prior to making the call. FUTEX_REQUEUE_PI requires that
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nr_wake=1. nr_requeue should be INT_MAX for broadcast and 0 for
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signal.
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