doc: Update requirements based on recent changes
These changes include lighter-weight expedited grace periods, the fact that expedited grace periods and rcu_barrier() no longer block CPU hotplug, some HTML font fixups, noting that rcu_barrier() need not wait for a grace period (even if callbacks are posted), the fact that SRCU read-side critical sections can be used from offline CPUs, and the fact that SRCU now maintains per-CPU callback lists. Signed-off-by: Paul E. McKenney <paulmck@linux.vnet.ibm.com>
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@ -659,8 +659,9 @@ systems with more than one CPU:
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In other words, a given instance of <tt>synchronize_rcu()</tt>
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can avoid waiting on a given RCU read-side critical section only
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if it can prove that <tt>synchronize_rcu()</tt> started first.
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</font>
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<p>
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<p><font color="ffffff">
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A related question is “When <tt>rcu_read_lock()</tt>
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doesn't generate any code, why does it matter how it relates
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to a grace period?”
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@ -675,8 +676,9 @@ systems with more than one CPU:
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within the critical section, in which case none of the accesses
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within the critical section may observe the effects of any
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access following the grace period.
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</font>
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<p>
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<p><font color="ffffff">
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As of late 2016, mathematical models of RCU take this
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viewpoint, for example, see slides 62 and 63
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of the
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@ -1616,8 +1618,8 @@ CPUs should at least make reasonable forward progress.
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In return for its shorter latencies, <tt>synchronize_rcu_expedited()</tt>
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is permitted to impose modest degradation of real-time latency
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on non-idle online CPUs.
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That said, it will likely be necessary to take further steps to reduce this
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degradation, hopefully to roughly that of a scheduling-clock interrupt.
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Here, “modest” means roughly the same latency
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degradation as a scheduling-clock interrupt.
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<p>
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There are a number of situations where even
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@ -1913,12 +1915,9 @@ This requirement is another factor driving batching of grace periods,
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but it is also the driving force behind the checks for large numbers
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of queued RCU callbacks in the <tt>call_rcu()</tt> code path.
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Finally, high update rates should not delay RCU read-side critical
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sections, although some read-side delays can occur when using
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sections, although some small read-side delays can occur when using
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<tt>synchronize_rcu_expedited()</tt>, courtesy of this function's use
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of <tt>try_stop_cpus()</tt>.
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(In the future, <tt>synchronize_rcu_expedited()</tt> will be
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converted to use lighter-weight inter-processor interrupts (IPIs),
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but this will still disturb readers, though to a much smaller degree.)
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of <tt>smp_call_function_single()</tt>.
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<p>
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Although all three of these corner cases were understood in the early
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@ -2192,7 +2191,7 @@ Unfortunately, <tt>synchronize_rcu()</tt> can't do this until all of
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its kthreads are spawned, which doesn't happen until some time during
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<tt>early_initcalls()</tt> time.
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But this is no excuse: RCU is nevertheless required to correctly handle
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synchronous grace periods during this time period, which it currently does.
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synchronous grace periods during this time period.
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Once all of its kthreads are up and running, RCU starts running
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normally.
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@ -2206,8 +2205,10 @@ normally.
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<tr><th align="left">Answer:</th></tr>
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<tr><td bgcolor="#ffffff"><font color="ffffff">
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Very carefully!
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</font>
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<p>During the “dead zone” between the time that the
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<p><font color="ffffff">
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During the “dead zone” between the time that the
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scheduler spawns the first task and the time that all of RCU's
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kthreads have been spawned, all synchronous grace periods are
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handled by the expedited grace-period mechanism.
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@ -2220,8 +2221,10 @@ normally.
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using workqueues, as is required to avoid problems that would
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otherwise occur when a user task received a POSIX signal while
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driving an expedited grace period.
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</font>
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<p>And yes, this does mean that it is unhelpful to send POSIX
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<p><font color="ffffff">
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And yes, this does mean that it is unhelpful to send POSIX
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signals to random tasks between the time that the scheduler
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spawns its first kthread and the time that RCU's kthreads
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have all been spawned.
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@ -2308,12 +2311,61 @@ situation, and Dipankar Sarma incorporated <tt>rcu_barrier()</tt> into RCU.
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The need for <tt>rcu_barrier()</tt> for module unloading became
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apparent later.
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<p>
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<b>Important note</b>: The <tt>rcu_barrier()</tt> function is not,
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repeat, <i>not</i>, obligated to wait for a grace period.
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It is instead only required to wait for RCU callbacks that have
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already been posted.
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Therefore, if there are no RCU callbacks posted anywhere in the system,
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<tt>rcu_barrier()</tt> is within its rights to return immediately.
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Even if there are callbacks posted, <tt>rcu_barrier()</tt> does not
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necessarily need to wait for a grace period.
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<table>
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<tr><th> </th></tr>
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<tr><th align="left">Quick Quiz:</th></tr>
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<tr><td>
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Wait a minute!
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Each RCU callbacks must wait for a grace period to complete,
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and <tt>rcu_barrier()</tt> must wait for each pre-existing
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callback to be invoked.
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Doesn't <tt>rcu_barrier()</tt> therefore need to wait for
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a full grace period if there is even one callback posted anywhere
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in the system?
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</td></tr>
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<tr><th align="left">Answer:</th></tr>
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<tr><td bgcolor="#ffffff"><font color="ffffff">
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Absolutely not!!!
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</font>
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<p><font color="ffffff">
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Yes, each RCU callbacks must wait for a grace period to complete,
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but it might well be partly (or even completely) finished waiting
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by the time <tt>rcu_barrier()</tt> is invoked.
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In that case, <tt>rcu_barrier()</tt> need only wait for the
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remaining portion of the grace period to elapse.
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So even if there are quite a few callbacks posted,
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<tt>rcu_barrier()</tt> might well return quite quickly.
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</font>
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<p><font color="ffffff">
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So if you need to wait for a grace period as well as for all
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pre-existing callbacks, you will need to invoke both
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<tt>synchronize_rcu()</tt> and <tt>rcu_barrier()</tt>.
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If latency is a concern, you can always use workqueues
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to invoke them concurrently.
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</font></td></tr>
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<tr><td> </td></tr>
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</table>
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<h3><a name="Hotplug CPU">Hotplug CPU</a></h3>
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<p>
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The Linux kernel supports CPU hotplug, which means that CPUs
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can come and go.
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It is of course illegal to use any RCU API member from an offline CPU.
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It is of course illegal to use any RCU API member from an offline CPU,
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with the exception of <a href="#Sleepable RCU">SRCU</a> read-side
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critical sections.
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This requirement was present from day one in DYNIX/ptx, but
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on the other hand, the Linux kernel's CPU-hotplug implementation
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is “interesting.”
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@ -2323,19 +2375,18 @@ The Linux-kernel CPU-hotplug implementation has notifiers that
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are used to allow the various kernel subsystems (including RCU)
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to respond appropriately to a given CPU-hotplug operation.
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Most RCU operations may be invoked from CPU-hotplug notifiers,
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including even normal synchronous grace-period operations
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such as <tt>synchronize_rcu()</tt>.
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However, expedited grace-period operations such as
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<tt>synchronize_rcu_expedited()</tt> are not supported,
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due to the fact that current implementations block CPU-hotplug
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operations, which could result in deadlock.
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including even synchronous grace-period operations such as
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<tt>synchronize_rcu()</tt> and <tt>synchronize_rcu_expedited()</tt>.
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<p>
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In addition, all-callback-wait operations such as
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However, all-callback-wait operations such as
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<tt>rcu_barrier()</tt> are also not supported, due to the
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fact that there are phases of CPU-hotplug operations where
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the outgoing CPU's callbacks will not be invoked until after
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the CPU-hotplug operation ends, which could also result in deadlock.
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Furthermore, <tt>rcu_barrier()</tt> blocks CPU-hotplug operations
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during its execution, which results in another type of deadlock
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when invoked from a CPU-hotplug notifier.
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<h3><a name="Scheduler and RCU">Scheduler and RCU</a></h3>
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@ -2876,6 +2927,27 @@ It also motivates the <tt>smp_mb__after_srcu_read_unlock()</tt>
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API, which, in combination with <tt>srcu_read_unlock()</tt>,
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guarantees a full memory barrier.
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<p>
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Also unlike other RCU flavors, SRCU's callbacks-wait function
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<tt>srcu_barrier()</tt> may be invoked from CPU-hotplug notifiers,
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though this is not necessarily a good idea.
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The reason that this is possible is that SRCU is insensitive
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to whether or not a CPU is online, which means that <tt>srcu_barrier()</tt>
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need not exclude CPU-hotplug operations.
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<p>
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As of v4.12, SRCU's callbacks are maintained per-CPU, eliminating
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a locking bottleneck present in prior kernel versions.
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Although this will allow users to put much heavier stress on
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<tt>call_srcu()</tt>, it is important to note that SRCU does not
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yet take any special steps to deal with callback flooding.
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So if you are posting (say) 10,000 SRCU callbacks per second per CPU,
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you are probably totally OK, but if you intend to post (say) 1,000,000
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SRCU callbacks per second per CPU, please run some tests first.
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SRCU just might need a few adjustment to deal with that sort of load.
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Of course, your mileage may vary based on the speed of your CPUs and
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the size of your memory.
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<p>
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The
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<a href="https://lwn.net/Articles/609973/#RCU Per-Flavor API Table">SRCU API</a>
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@ -3034,8 +3106,8 @@ to do some redesign to avoid this scalability problem.
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<p>
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RCU disables CPU hotplug in a few places, perhaps most notably in the
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expedited grace-period and <tt>rcu_barrier()</tt> operations.
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If there is a strong reason to use expedited grace periods in CPU-hotplug
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<tt>rcu_barrier()</tt> operations.
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If there is a strong reason to use <tt>rcu_barrier()</tt> in CPU-hotplug
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notifiers, it will be necessary to avoid disabling CPU hotplug.
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This would introduce some complexity, so there had better be a <i>very</i>
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good reason.
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@ -3109,9 +3181,5 @@ Andy Lutomirski for their help in rendering
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this article human readable, and to Michelle Rankin for her support
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of this effort.
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Other contributions are acknowledged in the Linux kernel's git archive.
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The cartoon is copyright (c) 2013 by Melissa Broussard,
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and is provided
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under the terms of the Creative Commons Attribution-Share Alike 3.0
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United States license.
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</body></html>
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