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docs: lockdep-design: fix some warning issues
There are several warnings caused by a recent change224ec489d3
("lockdep/Documention: Recursive read lock detection reasoning") Those are reported by htmldocs build: Documentation/locking/lockdep-design.rst:429: WARNING: Definition list ends without a blank line; unexpected unindent. Documentation/locking/lockdep-design.rst:452: WARNING: Block quote ends without a blank line; unexpected unindent. Documentation/locking/lockdep-design.rst:453: WARNING: Unexpected indentation. Documentation/locking/lockdep-design.rst:453: WARNING: Blank line required after table. Documentation/locking/lockdep-design.rst:454: WARNING: Block quote ends without a blank line; unexpected unindent. Documentation/locking/lockdep-design.rst:455: WARNING: Unexpected indentation. Documentation/locking/lockdep-design.rst:455: WARNING: Blank line required after table. Documentation/locking/lockdep-design.rst:456: WARNING: Block quote ends without a blank line; unexpected unindent. Documentation/locking/lockdep-design.rst:457: WARNING: Unexpected indentation. Documentation/locking/lockdep-design.rst:457: WARNING: Blank line required after table. Besides the reported issues, there are some missing blank lines that ended producing wrong html output, and some literals are not properly identified. Also, the symbols used at the irq enabled/disable table are not displayed as expected, as they're not literals. Also, on another table they're using a different notation. Fixes:224ec489d3
("lockdep/Documention: Recursive read lock detection reasoning") Signed-off-by: Mauro Carvalho Chehab <mchehab+huawei@kernel.org> Link: https://lore.kernel.org/r/3b9431ac5c01e38111cd59928a93e7259ab7db0f.1603791716.git.mchehab+huawei@kernel.org Signed-off-by: Jonathan Corbet <corbet@lwn.net>
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@ -42,6 +42,7 @@ The validator tracks lock-class usage history and divides the usage into
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(4 usages * n STATEs + 1) categories:
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where the 4 usages can be:
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- 'ever held in STATE context'
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- 'ever held as readlock in STATE context'
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- 'ever held with STATE enabled'
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@ -49,10 +50,12 @@ where the 4 usages can be:
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where the n STATEs are coded in kernel/locking/lockdep_states.h and as of
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now they include:
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- hardirq
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- softirq
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where the last 1 category is:
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- 'ever used' [ == !unused ]
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When locking rules are violated, these usage bits are presented in the
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@ -96,9 +99,9 @@ exact case is for the lock as of the reporting time.
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+--------------+-------------+--------------+
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| | irq enabled | irq disabled |
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+--------------+-------------+--------------+
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| ever in irq | ? | - |
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| ever in irq | '?' | '-' |
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+--------------+-------------+--------------+
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| never in irq | + | . |
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| never in irq | '+' | '.' |
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+--------------+-------------+--------------+
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The character '-' suggests irq is disabled because if otherwise the
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@ -216,7 +219,7 @@ looks like this::
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BD_MUTEX_PARTITION
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};
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mutex_lock_nested(&bdev->bd_contains->bd_mutex, BD_MUTEX_PARTITION);
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mutex_lock_nested(&bdev->bd_contains->bd_mutex, BD_MUTEX_PARTITION);
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In this case the locking is done on a bdev object that is known to be a
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partition.
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@ -334,7 +337,7 @@ Troubleshooting:
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----------------
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The validator tracks a maximum of MAX_LOCKDEP_KEYS number of lock classes.
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Exceeding this number will trigger the following lockdep warning:
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Exceeding this number will trigger the following lockdep warning::
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(DEBUG_LOCKS_WARN_ON(id >= MAX_LOCKDEP_KEYS))
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@ -420,7 +423,8 @@ the critical section of another reader of the same lock instance.
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The difference between recursive readers and non-recursive readers is because:
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recursive readers get blocked only by a write lock *holder*, while non-recursive
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readers could get blocked by a write lock *waiter*. Considering the follow example:
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readers could get blocked by a write lock *waiter*. Considering the follow
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example::
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TASK A: TASK B:
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@ -448,20 +452,22 @@ There are simply four block conditions:
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Block condition matrix, Y means the row blocks the column, and N means otherwise.
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| E | r | R |
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+---+---+---+---+
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E | Y | Y | Y |
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| | E | r | R |
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+---+---+---+---+
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r | Y | Y | N |
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| E | Y | Y | Y |
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+---+---+---+---+
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| r | Y | Y | N |
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+---+---+---+---+
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| R | Y | Y | N |
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+---+---+---+---+
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R | Y | Y | N |
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(W: writers, r: non-recursive readers, R: recursive readers)
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acquired recursively. Unlike non-recursive read locks, recursive read locks
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only get blocked by current write lock *holders* other than write lock
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*waiters*, for example:
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*waiters*, for example::
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TASK A: TASK B:
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@ -491,7 +497,7 @@ Recursive locks don't block each other, while non-recursive locks do (this is
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even true for two non-recursive read locks). A non-recursive lock can block the
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corresponding recursive lock, and vice versa.
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A deadlock case with recursive locks involved is as follow:
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A deadlock case with recursive locks involved is as follow::
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TASK A: TASK B:
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@ -510,7 +516,7 @@ because there are 3 types for lockers, there are, in theory, 9 types of lock
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dependencies, but we can show that 4 types of lock dependencies are enough for
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deadlock detection.
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For each lock dependency:
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For each lock dependency::
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L1 -> L2
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@ -525,20 +531,25 @@ same types).
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With the above combination for simplification, there are 4 types of dependency edges
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in the lockdep graph:
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1) -(ER)->: exclusive writer to recursive reader dependency, "X -(ER)-> Y" means
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1) -(ER)->:
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exclusive writer to recursive reader dependency, "X -(ER)-> Y" means
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X -> Y and X is a writer and Y is a recursive reader.
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2) -(EN)->: exclusive writer to non-recursive locker dependency, "X -(EN)-> Y" means
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2) -(EN)->:
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exclusive writer to non-recursive locker dependency, "X -(EN)-> Y" means
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X -> Y and X is a writer and Y is either a writer or non-recursive reader.
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3) -(SR)->: shared reader to recursive reader dependency, "X -(SR)-> Y" means
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3) -(SR)->:
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shared reader to recursive reader dependency, "X -(SR)-> Y" means
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X -> Y and X is a reader (recursive or not) and Y is a recursive reader.
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4) -(SN)->: shared reader to non-recursive locker dependency, "X -(SN)-> Y" means
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4) -(SN)->:
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shared reader to non-recursive locker dependency, "X -(SN)-> Y" means
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X -> Y and X is a reader (recursive or not) and Y is either a writer or
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non-recursive reader.
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Note that given two locks, they may have multiple dependencies between them, for example:
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Note that given two locks, they may have multiple dependencies between them,
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for example::
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TASK A:
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@ -592,11 +603,11 @@ circles that won't cause deadlocks.
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Proof for sufficiency (Lemma 1):
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Let's say we have a strong circle:
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Let's say we have a strong circle::
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L1 -> L2 ... -> Ln -> L1
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, which means we have dependencies:
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, which means we have dependencies::
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L1 -> L2
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L2 -> L3
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@ -633,7 +644,7 @@ a lock held by P2, and P2 is waiting for a lock held by P3, ... and Pn is waitin
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for a lock held by P1. Let's name the lock Px is waiting as Lx, so since P1 is waiting
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for L1 and holding Ln, so we will have Ln -> L1 in the dependency graph. Similarly,
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we have L1 -> L2, L2 -> L3, ..., Ln-1 -> Ln in the dependency graph, which means we
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have a circle:
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have a circle::
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Ln -> L1 -> L2 -> ... -> Ln
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