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Subject[PATCH v3 5/5] locking/Documentation: Align crossrelease.txt with the width
Date
No change of contents at all. Only adjust the width.

(Please merge this to another after the review.)

Signed-off-by: Byungchul Park <byungchul.park@lge.com>
---
Documentation/locking/crossrelease.txt | 59 +++++++++++++++++-----------------
1 file changed, 30 insertions(+), 29 deletions(-)

diff --git a/Documentation/locking/crossrelease.txt b/Documentation/locking/crossrelease.txt
index dac56f4..c6d628b 100644
--- a/Documentation/locking/crossrelease.txt
+++ b/Documentation/locking/crossrelease.txt
@@ -61,9 +61,9 @@ turn cannot be triggered if event B does not happen, which in turn
cannot be triggered if event C does not happen. After all, no event can
be triggered since any of them never meets its condition to wake up.

-A dependency might exist between two waiters and a deadlock happens
-due to an incorrect relationship between dependencies. Thus, we must
-define what a dependency is first. A dependency exists if:
+A dependency might exist between two waiters and a deadlock happens due
+to an incorrect relationship between dependencies. Thus, we must define
+what a dependency is first. A dependency exists if:

1. There are two waiters waiting for each event at a given time.
2. The only way to wake up each waiter is to trigger its event.
@@ -304,10 +304,10 @@ Considering only typical locks, lockdep builds nothing. However,
relaxing the limitation, a dependency 'A -> B' can be added, giving us
more chances to check circular dependencies.

-However, it might suffer performance degradation since
-relaxing the limitation, with which design and implementation of lockdep
-can be efficient, might introduce inefficiency inevitably. So lockdep
-should provide two options, strong detection and efficient detection.
+However, it might suffer performance degradation since relaxing the
+limitation, with which design and implementation of lockdep can be
+efficient, might introduce inefficiency inevitably. So lockdep should
+provide two options, strong detection and efficient detection.

Choosing efficient detection:

@@ -404,8 +404,8 @@ There are four types of dependencies:

When acquiring BX, lockdep cannot identify the dependency because
there's no way to know if it's in the AX's release context. It has
- to wait until the decision can be made. Commit is necessary.
- But, handling CC type is not implemented yet. It's a future work.
+ to wait until the decision can be made. Commit is necessary. But,
+ handling CC type is not implemented yet. It's a future work.

Lockdep can work without commit for typical locks, but the step is
necessary once crosslocks are involved. Introducing commit, lockdep
@@ -442,9 +442,9 @@ Crossrelease introduces two main data structures.

This is an array embedded in task_struct, for keeping lock history so
that dependencies can be added using them at the commit step. Since
- they are local data, they can be accessed locklessly in the owner context.
- The array is filled at the acquisition step and consumed at the
- commit step. And it's managed in a circular manner.
+ they are local data, they can be accessed locklessly in the owner
+ context. The array is filled at the acquisition step and consumed at
+ the commit step. And it's managed in a circular manner.

2. cross_lock

@@ -470,8 +470,8 @@ works for typical locks, without crossrelease.

where A, B, and C are different lock classes.

-Lockdep adds 'the top of held_locks -> the lock to acquire'
-dependency every time acquiring a lock.
+Lockdep adds 'the top of held_locks -> the lock to acquire' dependency
+every time acquiring a lock.

After adding 'A -> B', the dependency graph will be:

@@ -561,10 +561,10 @@ for A, B, and C, the graph will be:
NOTE: A dependency 'A -> C' is optimized out.

We can see the former graph built without the commit step is same as the
-latter graph. Of course, the former way leads to
-earlier finish for building the graph, which means we can detect a
-deadlock or its possibility sooner. So the former way would be preferred
-when possible. But we cannot avoid using the latter way for crosslocks.
+latter graph. Of course, the former way leads to earlier finish for
+building the graph, which means we can detect a deadlock or its
+possibility sooner. So the former way would be preferred when possible.
+But we cannot avoid using the latter way for crosslocks.

Lastly, let's look at how commit works for crosslocks in practice.

@@ -685,10 +685,10 @@ Lastly, let's look at how commit works for crosslocks in practice.

Crossrelease considers all acquisitions following acquiring BX because
they can create dependencies with BX. The dependencies will be
-determined in the release context of BX. Meanwhile,
-all typical locks are queued so that they can be used at the commit step.
-Finally, two dependencies 'BX -> C' and 'BX -> E' will be added at the
-commit step, when identifying the release context.
+determined in the release context of BX. Meanwhile, all typical locks
+are queued so that they can be used at the commit step. Finally, two
+dependencies 'BX -> C' and 'BX -> E' will be added at the commit step,
+when identifying the release context.

The final graph will be, with crossrelease:

@@ -737,8 +737,8 @@ Make hot paths lockless
To keep all locks for later use at the commit step, crossrelease adopts
a local array embedded in task_struct, which makes the data locklessly
accessible by forcing it to happen only within the owner context. It's
-like how lockdep handles held_locks. Lockless implementation is important
-since typical locks are very frequently acquired and released.
+like how lockdep handles held_locks. Lockless implementation is
+important since typical locks are very frequently acquired and released.


=================================================
@@ -751,9 +751,10 @@ deadlock exists if the problematic dependencies exist. Thus, it's
meaningful to detect not only an actual deadlock but also its potential
possibility. The latter is rather valuable. When a deadlock actually
occurs, we can identify what happens in the system by some means or
-other even without lockdep. However, there's no way to detect a possibility
-without lockdep, unless the whole code is parsed in the head. It's terrible.
-Lockdep does the both, and crossrelease only focuses on the latter.
+other even without lockdep. However, there's no way to detect a
+possibility without lockdep, unless the whole code is parsed in the head.
+It's terrible. Lockdep does the both, and crossrelease only focuses on
+the latter.

Whether or not a deadlock actually occurs depends on several factors.
For example, what order contexts are switched in is a factor. Assuming
@@ -845,8 +846,8 @@ we can ensure nothing but what actually happened. Relying on what
actually happens at runtime, we can anyway add only true ones, though
they might be a subset of true ones. It's similar to how lockdep works
for typical locks. There might be more true dependencies than lockdep
-has detected. Lockdep has no choice but to rely on
-what actually happens. Crossrelease also relies on it.
+has detected. Lockdep has no choice but to rely on what actually happens.
+Crossrelease also relies on it.

CONCLUSION

--
1.9.1
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