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preempt-locking.txt: standardize document format
Each text file under Documentation follows a different format. Some doesn't even have titles! Change its representation to follow the adopted standard, using ReST markups for it to be parseable by Sphinx: - mark titles; - mark literal blocks; - adjust identation where needed; - use :Author: for authorship. Signed-off-by: Mauro Carvalho Chehab <mchehab@s-opensource.com> Signed-off-by: Jonathan Corbet <corbet@lwn.net>
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Proper Locking Under a Preemptible Kernel:
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Keeping Kernel Code Preempt-Safe
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Robert Love <rml@tech9.net>
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Last Updated: 28 Aug 2002
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===========================================================================
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Proper Locking Under a Preemptible Kernel: Keeping Kernel Code Preempt-Safe
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===========================================================================
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:Author: Robert Love <rml@tech9.net>
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:Last Updated: 28 Aug 2002
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INTRODUCTION
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Introduction
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============
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A preemptible kernel creates new locking issues. The issues are the same as
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@ -17,9 +20,10 @@ requires protecting these situations.
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RULE #1: Per-CPU data structures need explicit protection
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Two similar problems arise. An example code snippet:
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Two similar problems arise. An example code snippet::
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struct this_needs_locking tux[NR_CPUS];
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tux[smp_processor_id()] = some_value;
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@ -35,6 +39,7 @@ You can also use put_cpu() and get_cpu(), which will disable preemption.
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RULE #2: CPU state must be protected.
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Under preemption, the state of the CPU must be protected. This is arch-
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@ -52,6 +57,7 @@ However, fpu__restore() must be called with preemption disabled.
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RULE #3: Lock acquire and release must be performed by same task
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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A lock acquired in one task must be released by the same task. This
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@ -61,17 +67,20 @@ like this, acquire and release the task in the same code path and
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have the caller wait on an event by the other task.
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SOLUTION
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Solution
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========
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Data protection under preemption is achieved by disabling preemption for the
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duration of the critical region.
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preempt_enable() decrement the preempt counter
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preempt_disable() increment the preempt counter
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preempt_enable_no_resched() decrement, but do not immediately preempt
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preempt_check_resched() if needed, reschedule
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preempt_count() return the preempt counter
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::
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preempt_enable() decrement the preempt counter
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preempt_disable() increment the preempt counter
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preempt_enable_no_resched() decrement, but do not immediately preempt
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preempt_check_resched() if needed, reschedule
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preempt_count() return the preempt counter
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The functions are nestable. In other words, you can call preempt_disable
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n-times in a code path, and preemption will not be reenabled until the n-th
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@ -89,7 +98,7 @@ So use this implicit preemption-disabling property only if you know that the
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affected codepath does not do any of this. Best policy is to use this only for
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small, atomic code that you wrote and which calls no complex functions.
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Example:
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Example::
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cpucache_t *cc; /* this is per-CPU */
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preempt_disable();
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return 0;
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Notice how the preemption statements must encompass every reference of the
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critical variables. Another example:
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critical variables. Another example::
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int buf[NR_CPUS];
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set_cpu_val(buf);
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@ -114,7 +123,8 @@ This code is not preempt-safe, but see how easily we can fix it by simply
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moving the spin_lock up two lines.
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PREVENTING PREEMPTION USING INTERRUPT DISABLING
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Preventing preemption using interrupt disabling
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===============================================
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It is possible to prevent a preemption event using local_irq_disable and
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