• Paul E. McKenney's avatar
    srcu: Parallelize callback handling · da915ad5
    Paul E. McKenney authored
    Peter Zijlstra proposed using SRCU to reduce mmap_sem contention [1,2],
    however, there are workloads that could result in a high volume of
    concurrent invocations of call_srcu(), which with current SRCU would
    result in excessive lock contention on the srcu_struct structure's
    ->queue_lock, which protects SRCU's callback lists.  This commit therefore
    moves SRCU to per-CPU callback lists, thus greatly reducing contention.
    
    Because a given SRCU instance no longer has a single centralized callback
    list, starting grace periods and invoking callbacks are both more complex
    than in the single-list Classic SRCU implementation.  Starting grace
    periods and handling callbacks are now handled using an srcu_node tree
    that is in some ways similar to the rcu_node trees used by RCU-bh,
    RCU-preempt, and RCU-sched (for example, the srcu_node tree shape is
    controlled by exactly the same Kconfig options and boot parameters that
    control the shape of the rcu_node tree).
    
    In addition, the old per-CPU srcu_array structure is now named srcu_data
    and contains an rcu_segcblist structure named ->srcu_cblist for its
    callbacks (and a spinlock to protect this).  The srcu_struct gets
    an srcu_gp_seq that is used to associate callback segments with the
    corresponding completion-time grace-period number.  These completion-time
    grace-period numbers are propagated up the srcu_node tree so that the
    grace-period workqueue handler can determine whether additional grace
    periods are needed on the one hand and where to look for callbacks that
    are ready to be invoked.
    
    The srcu_barrier() function must now wait on all instances of the per-CPU
    ->srcu_cblist.  Because each ->srcu_cblist is protected by ->lock,
    srcu_barrier() can remotely add the needed callbacks.  In theory,
    it could also remotely start grace periods, but in practice doing so
    is complex and racy.  And interestingly enough, it is never necessary
    for srcu_barrier() to start a grace period because srcu_barrier() only
    enqueues a callback when a callback is already present--and it turns out
    that a grace period has to have already been started for this pre-existing
    callback.  Furthermore, it is only the callback that srcu_barrier()
    needs to wait on, not any particular grace period.  Therefore, a new
    rcu_segcblist_entrain() function enqueues the srcu_barrier() function's
    callback into the same segment occupied by the last pre-existing callback
    in the list.  The special case where all the pre-existing callbacks are
    on a different list (because they are in the process of being invoked)
    is handled by enqueuing srcu_barrier()'s callback into the RCU_DONE_TAIL
    segment, relying on the done-callbacks check that takes place after all
    callbacks are inovked.
    
    Note that the readers use the same algorithm as before.  Note that there
    is a separate srcu_idx that tells the readers what counter to increment.
    This unfortunately cannot be combined with srcu_gp_seq because they
    need to be incremented at different times.
    
    This commit introduces some ugly #ifdefs in rcutorture.  These will go
    away when I feel good enough about Tree SRCU to ditch Classic SRCU.
    
    Some crude performance comparisons, courtesy of a quickly hacked rcuperf
    asynchronous-grace-period capability:
    
    			Callback Queuing Overhead
    			-------------------------
    	# CPUS		Classic SRCU	Tree SRCU
    	------          ------------    ---------
    	     2              0.349 us     0.342 us
    	    16             31.66  us     0.4   us
    	    41             ---------     0.417 us
    
    The times are the 90th percentiles, a statistic that was chosen to reject
    the overheads of the occasional srcu_barrier() call needed to avoid OOMing
    the test machine.  The rcuperf test hangs when running Classic SRCU at 41
    CPUs, hence the line of dashes.  Despite the hacks to both the rcuperf code
    and that statistics, this is a convincing demonstration of Tree SRCU's
    performance and scalability advantages.
    
    [1] https://lwn.net/Articles/309030/
    [2] https://patchwork.kernel.org/patch/5108281/Signed-off-by: default avatarPaul E. McKenney <paulmck@linux.vnet.ibm.com>
    [ paulmck: Fix initialization if synchronize_srcu_expedited() called first. ]
    da915ad5
rcutorture.c 55.2 KB