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rcu: Add synchronize_sched_expedited() rcutorture doc + updates
This patch updates the rcutorture documentation to include updated output format. It also brings the RCU documentation up to date. Signed-off-by: Paul E. McKenney <paulmck@linux.vnet.ibm.com> Cc: akpm@linux-foundation.org Cc: torvalds@linux-foundation.org Cc: davem@davemloft.net Cc: dada1@cosmosbay.com Cc: zbr@ioremap.net Cc: jeff.chua.linux@gmail.com Cc: paulus@samba.org Cc: laijs@cn.fujitsu.com Cc: jengelh@medozas.de Cc: r000n@r000n.net Cc: benh@kernel.crashing.org Cc: mathieu.desnoyers@polymtl.ca LKML-Reference: <12459460983193-git-send-email-> Signed-off-by: Ingo Molnar <mingo@elte.hu>
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@ -743,3 +743,80 @@ Revised:
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RCU, realtime RCU, sleepable RCU, performance.
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"
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}
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@article{PaulEMcKenney2008RCUOSR
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,author="Paul E. McKenney and Jonathan Walpole"
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,title="Introducing technology into the {Linux} kernel: a case study"
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,Year="2008"
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,journal="SIGOPS Oper. Syst. Rev."
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,volume="42"
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,number="5"
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,pages="4--17"
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,issn="0163-5980"
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,doi={http://doi.acm.org/10.1145/1400097.1400099}
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,publisher="ACM"
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,address="New York, NY, USA"
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,annotation={
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Linux changed RCU to a far greater degree than RCU has changed Linux.
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}
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}
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@unpublished{PaulEMcKenney2008HierarchicalRCU
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,Author="Paul E. McKenney"
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,Title="Hierarchical {RCU}"
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,month="November"
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,day="3"
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,year="2008"
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,note="Available:
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\url{http://lwn.net/Articles/305782/}
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[Viewed November 6, 2008]"
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,annotation="
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RCU with combining-tree-based grace-period detection,
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permitting it to handle thousands of CPUs.
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"
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}
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@conference{PaulEMcKenney2009MaliciousURCU
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,Author="Paul E. McKenney"
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,Title="Using a Malicious User-Level {RCU} to Torture {RCU}-Based Algorithms"
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,Booktitle="linux.conf.au 2009"
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,month="January"
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,year="2009"
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,address="Hobart, Australia"
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,note="Available:
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\url{http://www.rdrop.com/users/paulmck/RCU/urcutorture.2009.01.22a.pdf}
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[Viewed February 2, 2009]"
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,annotation="
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Realtime RCU and torture-testing RCU uses.
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"
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}
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@unpublished{MathieuDesnoyers2009URCU
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,Author="Mathieu Desnoyers"
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,Title="[{RFC} git tree] Userspace {RCU} (urcu) for {Linux}"
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,month="February"
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,day="5"
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,year="2009"
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,note="Available:
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\url{http://lkml.org/lkml/2009/2/5/572}
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\url{git://lttng.org/userspace-rcu.git}
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[Viewed February 20, 2009]"
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,annotation="
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Mathieu Desnoyers's user-space RCU implementation.
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git://lttng.org/userspace-rcu.git
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"
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}
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@unpublished{PaulEMcKenney2009BloatWatchRCU
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,Author="Paul E. McKenney"
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,Title="{RCU}: The {Bloatwatch} Edition"
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,month="March"
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,day="17"
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,year="2009"
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,note="Available:
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\url{http://lwn.net/Articles/323929/}
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[Viewed March 20, 2009]"
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,annotation="
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Uniprocessor assumptions allow simplified RCU implementation.
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"
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}
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@ -2,14 +2,13 @@ RCU on Uniprocessor Systems
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A common misconception is that, on UP systems, the call_rcu() primitive
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may immediately invoke its function, and that the synchronize_rcu()
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primitive may return immediately. The basis of this misconception
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may immediately invoke its function. The basis of this misconception
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is that since there is only one CPU, it should not be necessary to
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wait for anything else to get done, since there are no other CPUs for
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anything else to be happening on. Although this approach will -sort- -of-
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work a surprising amount of the time, it is a very bad idea in general.
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This document presents three examples that demonstrate exactly how bad an
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idea this is.
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This document presents three examples that demonstrate exactly how bad
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an idea this is.
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Example 1: softirq Suicide
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@ -82,11 +81,18 @@ Quick Quiz #2: What locking restriction must RCU callbacks respect?
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Summary
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Permitting call_rcu() to immediately invoke its arguments or permitting
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synchronize_rcu() to immediately return breaks RCU, even on a UP system.
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So do not do it! Even on a UP system, the RCU infrastructure -must-
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respect grace periods, and -must- invoke callbacks from a known environment
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in which no locks are held.
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Permitting call_rcu() to immediately invoke its arguments breaks RCU,
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even on a UP system. So do not do it! Even on a UP system, the RCU
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infrastructure -must- respect grace periods, and -must- invoke callbacks
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from a known environment in which no locks are held.
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It -is- safe for synchronize_sched() and synchronize_rcu_bh() to return
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immediately on an UP system. It is also safe for synchronize_rcu()
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to return immediately on UP systems, except when running preemptable
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RCU.
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Quick Quiz #3: Why can't synchronize_rcu() return immediately on
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UP systems running preemptable RCU?
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Answer to Quick Quiz #1:
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@ -117,3 +123,13 @@ Answer to Quick Quiz #2:
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callbacks acquire locks directly. However, a great many RCU
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callbacks do acquire locks -indirectly-, for example, via
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the kfree() primitive.
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Answer to Quick Quiz #3:
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Why can't synchronize_rcu() return immediately on UP systems
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running preemptable RCU?
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Because some other task might have been preempted in the middle
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of an RCU read-side critical section. If synchronize_rcu()
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simply immediately returned, it would prematurely signal the
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end of the grace period, which would come as a nasty shock to
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that other thread when it started running again.
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@ -11,7 +11,10 @@ over a rather long period of time, but improvements are always welcome!
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structure is updated more than about 10% of the time, then
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you should strongly consider some other approach, unless
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detailed performance measurements show that RCU is nonetheless
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the right tool for the job.
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the right tool for the job. Yes, you might think of RCU
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as simply cutting overhead off of the readers and imposing it
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on the writers. That is exactly why normal uses of RCU will
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do much more reading than updating.
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Another exception is where performance is not an issue, and RCU
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provides a simpler implementation. An example of this situation
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@ -240,10 +243,11 @@ over a rather long period of time, but improvements are always welcome!
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instead need to use synchronize_irq() or synchronize_sched().
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12. Any lock acquired by an RCU callback must be acquired elsewhere
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with irq disabled, e.g., via spin_lock_irqsave(). Failing to
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disable irq on a given acquisition of that lock will result in
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deadlock as soon as the RCU callback happens to interrupt that
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acquisition's critical section.
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with softirq disabled, e.g., via spin_lock_irqsave(),
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spin_lock_bh(), etc. Failing to disable irq on a given
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acquisition of that lock will result in deadlock as soon as the
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RCU callback happens to interrupt that acquisition's critical
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section.
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13. RCU callbacks can be and are executed in parallel. In many cases,
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the callback code simply wrappers around kfree(), so that this
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@ -310,3 +314,9 @@ over a rather long period of time, but improvements are always welcome!
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Because these primitives only wait for pre-existing readers,
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it is the caller's responsibility to guarantee safety to
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any subsequent readers.
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16. The various RCU read-side primitives do -not- contain memory
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barriers. The CPU (and in some cases, the compiler) is free
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to reorder code into and out of RCU read-side critical sections.
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It is the responsibility of the RCU update-side primitives to
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deal with this.
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@ -170,6 +170,13 @@ module invokes call_rcu() from timers, you will need to first cancel all
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the timers, and only then invoke rcu_barrier() to wait for any remaining
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RCU callbacks to complete.
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Of course, if you module uses call_rcu_bh(), you will need to invoke
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rcu_barrier_bh() before unloading. Similarly, if your module uses
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call_rcu_sched(), you will need to invoke rcu_barrier_sched() before
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unloading. If your module uses call_rcu(), call_rcu_bh(), -and-
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call_rcu_sched(), then you will need to invoke each of rcu_barrier(),
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rcu_barrier_bh(), and rcu_barrier_sched().
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Implementing rcu_barrier()
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@ -76,8 +76,10 @@ torture_type The type of RCU to test: "rcu" for the rcu_read_lock() API,
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"rcu_sync" for rcu_read_lock() with synchronous reclamation,
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"rcu_bh" for the rcu_read_lock_bh() API, "rcu_bh_sync" for
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rcu_read_lock_bh() with synchronous reclamation, "srcu" for
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the "srcu_read_lock()" API, and "sched" for the use of
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preempt_disable() together with synchronize_sched().
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the "srcu_read_lock()" API, "sched" for the use of
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preempt_disable() together with synchronize_sched(),
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and "sched_expedited" for the use of preempt_disable()
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with synchronize_sched_expedited().
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verbose Enable debug printk()s. Default is disabled.
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@ -162,6 +164,23 @@ of the "old" and "current" counters for the corresponding CPU. The
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"idx" value maps the "old" and "current" values to the underlying array,
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and is useful for debugging.
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Similarly, sched_expedited RCU provides the following:
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sched_expedited-torture: rtc: d0000000016c1880 ver: 1090796 tfle: 0 rta: 1090796 rtaf: 0 rtf: 1090787 rtmbe: 0 nt: 27713319
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sched_expedited-torture: Reader Pipe: 12660320201 95875 0 0 0 0 0 0 0 0 0
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sched_expedited-torture: Reader Batch: 12660424885 0 0 0 0 0 0 0 0 0 0
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sched_expedited-torture: Free-Block Circulation: 1090795 1090795 1090794 1090793 1090792 1090791 1090790 1090789 1090788 1090787 0
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state: -1 / 0:0 3:0 4:0
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As before, the first four lines are similar to those for RCU.
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The last line shows the task-migration state. The first number is
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-1 if synchronize_sched_expedited() is idle, -2 if in the process of
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posting wakeups to the migration kthreads, and N when waiting on CPU N.
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Each of the colon-separated fields following the "/" is a CPU:state pair.
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Valid states are "0" for idle, "1" for waiting for quiescent state,
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"2" for passed through quiescent state, and "3" when a race with a
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CPU-hotplug event forces use of the synchronize_sched() primitive.
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USAGE
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@ -785,6 +785,7 @@ RCU pointer/list traversal:
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rcu_dereference
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list_for_each_entry_rcu
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hlist_for_each_entry_rcu
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hlist_nulls_for_each_entry_rcu
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list_for_each_continue_rcu (to be deprecated in favor of new
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list_for_each_entry_continue_rcu)
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@ -807,19 +808,23 @@ RCU: Critical sections Grace period Barrier
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rcu_read_lock synchronize_net rcu_barrier
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rcu_read_unlock synchronize_rcu
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synchronize_rcu_expedited
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call_rcu
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bh: Critical sections Grace period Barrier
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rcu_read_lock_bh call_rcu_bh rcu_barrier_bh
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rcu_read_unlock_bh
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rcu_read_unlock_bh synchronize_rcu_bh
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synchronize_rcu_bh_expedited
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sched: Critical sections Grace period Barrier
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[preempt_disable] synchronize_sched rcu_barrier_sched
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[and friends] call_rcu_sched
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rcu_read_lock_sched synchronize_sched rcu_barrier_sched
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rcu_read_unlock_sched call_rcu_sched
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[preempt_disable] synchronize_sched_expedited
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[and friends]
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SRCU: Critical sections Grace period Barrier
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@ -827,6 +832,9 @@ SRCU: Critical sections Grace period Barrier
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srcu_read_lock synchronize_srcu N/A
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srcu_read_unlock
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SRCU: Initialization/cleanup
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init_srcu_struct
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cleanup_srcu_struct
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See the comment headers in the source code (or the docbook generated
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from them) for more information.
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