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[PATCH 10/11] Add manual for lock elision


From: Andi Kleen <ak@linux.intel.com>

pthreads are not described in the documentation, but I decided to document
lock elision there at least.

2013-06-18  Andi Kleen  <ak@linux.intel.com>

	* manual/Makefile: Add elision.texi.
	* manual/threads.texi: Link to elision.
	* manual/elision.texi: New file.
	* manual/intro.texi: Link to elision.
	* manual/lang.texi: dito.
---
 manual/Makefile     |   2 +-
 manual/elision.texi | 218 ++++++++++++++++++++++++++++++++++++++++++++++++++++
 manual/intro.texi   |   3 +
 manual/lang.texi    |   2 +-
 manual/threads.texi |   2 +-
 5 files changed, 224 insertions(+), 3 deletions(-)
 create mode 100644 manual/elision.texi

diff --git a/manual/Makefile b/manual/Makefile
index 44c0fd4..5d78761 100644
--- a/manual/Makefile
+++ b/manual/Makefile
@@ -42,7 +42,7 @@ chapters = $(addsuffix .texi, \
 		       message search pattern io stdio llio filesys	\
 		       pipe socket terminal syslog math arith time	\
 		       resource setjmp signal startup process job nss	\
-		       users sysinfo conf crypt debug threads)
+		       users sysinfo conf crypt debug threads elision)
 add-chapters = $(wildcard $(foreach d, $(add-ons), ../$d/$d.texi))
 appendices = lang.texi header.texi install.texi maint.texi platform.texi \
 	     contrib.texi
diff --git a/manual/elision.texi b/manual/elision.texi
new file mode 100644
index 0000000..cc92071
--- /dev/null
+++ b/manual/elision.texi
@@ -0,0 +1,218 @@
+@node Lock elision, Language Features, POSIX Threads, Top
+@c %MENU% Lock elision
+@chapter Lock elision
+
+@c create the bizarre situation that lock elision is documented, but pthreads isn't
+
+This chapter describes the elided lock implementation for POSIX thread locks.
+
+@menu
+* Lock elision introduction::	What is lock elision?
+* Semantic differences of elided locks::
+* Tuning lock elision::
+* Setting elision for individual @code{pthread_mutex_t}::
+* Setting elision for individual @code{pthread_rwlock_t}::
+@end menu 
+
+@node Lock elision introduction
+@section Lock elision introduction
+
+Lock elision is a technique to improve lock scaling. It runs
+lock regions in parallel using hardware support for a transactional execution
+mode. The lock region is executed speculatively, and as long
+as there is no conflict or other reason for transaction abort the lock
+will executed in parallel. If an transaction abort occurs, any 
+side effect of the speculative execution is undone, the lock is taken
+for real and the lock region re-executed. This improves scalability
+of the program because locks do not need to wait for each other.
+
+The standard @code{pthread_mutex_t} mutexes and @code{pthread_rwlock_t} rwlocks
+can be transparently elided by @theglibc{}.
+
+Lock elision may lower performance if transaction aborts occur too frequently.
+In this case it is recommended to use a PMU profiler to find the causes for
+the aborts first and try to eliminate them. If that is not possible
+elision can be disabled for a specific lock or for the whole program.
+Alternatively elision can be disabled completly, and only enabled for 
+specific locks that are known to be elision friendly.
+
+The defaults locks are adaptive. The lock library decides whether elision
+is profitable based on the abort rates, and automatically disables
+elision for a lock when it aborts too often. After some time elision
+is retried, in case the workload changed.
+
+Lock elision is currently supported for default (timed) mutexes and for
+adaptive mutexes. Other lock types do not elide. Condition variables
+also do not elide. This may change in future versions.
+
+@node Semantic differences of elided locks
+@section Semantic differences of elided locks
+
+Elided locks have some semantic differences to classic locks. These differences 
+are only visible when the lock is successfully elided. Since elision may always
+fail a program cannot rely on any of these semantics.
+
+@itemize
+@item 
+Elided locks always behave like read locks.
+
+@item
+Mutexes and write rwlocks can be locked recursively inside the lock region. 
+This behavior is visible through @code{pthread_mutex_trylock}. This 
+behavior for trylock is not enabled by default for default timed locks, only
+for locks that have been explicitly marked for elision with
+@code{PTHREAD_MUTEX_ELISION_NP}. The default locks will abort
+elision for nested trylocks. However non trylocks can always nest when elided.
+
+@smallexample
+pthread_mutex_lock (&lock);
+if (pthread_mutex_trylock (&lock) == 0) 
+      /* with elision we come here */
+else
+      /* with no elision we always come here */
+@end smallexample
+
+And also through @code{pthread_mutex_timedlock}. This behavior is unconditional
+for elided locks.
+
+@smallexample
+pthread_mutex_lock (&lock);
+if (pthread_mutex_timedlock (&lock, &timeout) == 0) 
+     /* With elision we always come here */
+else
+     /* With no elision we always come here because timeout happens. */
+@end smallexample
+
+Similar semantic changes apply to @code{pthread_rwlock_trywrlock} and
+@code{pthread_rwlock_timedwrlock}.
+
+A program like
+
+@smallexample
+/* lock is not a recursive lock type */
+pthread_mutex_lock (&lock);
+/* Relock same lock in same thread */
+pthread_mutex_lock (&lock);
+@end smallexample
+
+will immediately hang on the second lock (dead lock) without elision. With
+elision the deadlock will only happen on an abort, which can happen
+early or could happen later, but will likely not happen every time.
+
+This behaviour is allowed in POSIX for all mutex types, except for
+@code{PTHREAD_MUTEX_NORMAL}. When @code{PTHREAD_MUTEX_NORMAL} is
+set for a mutex using @code{pthread_mutexattr_settype} elision is implicitely
+disabled.  Note that @code{PTHREAD_MUTEX_INITIALIZER} sets a
+@code{PTHREAD_MUTEX_DEFAULT} type.
+
+@item
+@code{pthread_mutex_destroy} does not return an error when the lock is locked
+and will clear the lock state.
+
+@item
+@code{pthread_mutex_t} and @code{pthread_rwlock_t} appear free from other threads.
+
+This can be visible through trylock or timedlock.
+In most cases checking this is a existing latent race in the program, but there may 
+be cases when it is not.
+
+@item
+@code{EAGAIN} and @code{EDEADLK} in rwlocks will not happen under elision.
+
+@item
+@code{pthread_mutex_unlock} does not return an error when unlocking a free lock.
+
+@item
+Elision changes timing because locks now run in parallel.
+Timing differences may expose latent race bugs in the program. Programs using time based synchronization
+(as opposed to using data dependencies) may change behavior.
+
+@end itemize
+
+@node Tuning lock elision
+@section Tuning lock elision
+
+Critical regions may need some tuning to get the benefit of lock elision.
+This is based on the abort rates, which can be determined by a PMU profiler
+(e.g. perf on @gnulinuxsystems{}). When the abort rate is too high lock
+scaling will not improve. Generally lock elision feedback should be done
+only based on profile feedback.
+
+Most of these optimizations will improve performance even without lock elision
+because they will minimize cache line bouncing between threads or make
+lock regions smaller.
+
+Common causes of transactional aborts:
+
+@itemize
+@item 
+Not elidable operations like system calls, IO, CPU exceptions.
+
+Try to move out of the critical section when common. Note that these often happen at program startup only.
+@item
+Global statistic counts
+
+Global statistic variables tend to cause conflicts. Either disable, or make per thread or as a last resort sample
+(not update every operation)
+@item
+False sharing of variables or data structures causing conflicts with other threads
+
+Add padding as needed.
+@item 
+Other conflicts on the same cache lines with other threads
+
+Minimize conflicts with other threads. This may require changes to the data structures.
+@item
+Capacity overflow
+
+The memory transaction used for lock elision has a limited capacity. Make the critical region smaller
+or move operations that do not need to be protected by the lock outside.
+
+@item
+Rewriting already set flags
+
+Setting flags or variables in shared objects that are already set may cause conflicts. Add a check
+to only write when the value changed.
+@end itemize
+
+@node Setting elision for individual @code{pthread_mutex_t}
+@section Setting elision for individual @code{pthread_mutex_t}
+
+Elision can be explicitly disabled or enabled for each @code{pthread_mutex_t} in the program. 
+The elision flags can only be set at runtime using @code{pthread_mutexattr_settype} and
+@code{pthread_mutex_init}. There is no support for initializers for them.
+
+@smallexample
+/* Force lock elision for a mutex */
+pthread_mutexattr_t attr;
+pthread_mutexattr_init (&attr);
+pthread_mutexattr_settype (&attr, PTHREAD_MUTEX_TIMED_NP|PTHREAD_MUTEX_ELISION_NP);
+pthread_mutex_init (&object->mylock, &attr);
+@end smallexample
+
+@smallexample
+/* Force no lock elision for a mutex */
+pthread_mutexattr_t attr;
+pthread_mutexattr_init (&attr);
+pthread_mutexattr_settype (&attr, PTHREAD_MUTEX_TIMED_NP|PTHREAD_MUTEX_NO_ELISION_NP);
+pthread_mutex_init (&object->mylock, &attr);
+@end smallexample
+
+@code{pthread_mutex_gettype} will return additional flags too.
+
+@node Setting elision for individual @code{pthread_rwlock_t}
+@section Setting elision for individual @code{pthread_rwlock_t}
+
+Elision can be explicitly disabled or enabled for each @code{pthread_rwlock_t} in the program. 
+
+Valid flags are @code{PTHREAD_RWLOCK_ELISION_NP} to force elision and @code{PTHREAD_RWLOCK_NO_ELISION_NP}
+to disable elision. These can be ored with other rwlock types.
+
+@smallexample
+/* Force no lock elision for a dynamically allocated rwlock */
+pthread_rwlockattr_t rwattr;
+pthread_rwlockattr_init (&rwattr);
+pthread_rwlockattr_settype (&rwattr, PTHREAD_RWLOCK_NO_ELISION_NP);
+pthread_rwlock_init (&object->myrwlock, &rwattr);
+@end smallexample
+
diff --git a/manual/intro.texi b/manual/intro.texi
index deaf089..5914035 100644
--- a/manual/intro.texi
+++ b/manual/intro.texi
@@ -703,6 +703,9 @@ information about the hardware and software configuration your program
 is executing under.
 
 @item
+@ref{Lock elision} describes elided locks in POSIX threads.
+
+@item
 @ref{System Configuration}, tells you how you can get information about
 various operating system limits.  Most of these parameters are provided for
 compatibility with POSIX.
diff --git a/manual/lang.texi b/manual/lang.texi
index ee04e23..72e06b0 100644
--- a/manual/lang.texi
+++ b/manual/lang.texi
@@ -1,6 +1,6 @@
 @c This node must have no pointers.
 @node Language Features
-@c @node Language Features, Library Summary, , Top
+@c @node Language Features, Library Summary, Lock elision, Top
 @c %MENU% C language features provided by the library
 @appendix C Language Facilities in the Library
 
diff --git a/manual/threads.texi b/manual/threads.texi
index a23ac26..f58ea6e 100644
--- a/manual/threads.texi
+++ b/manual/threads.texi
@@ -1,5 +1,5 @@
 @node POSIX Threads
-@c @node POSIX Threads, , Cryptographic Functions, Top
+@c @node POSIX Threads, Lock elision, Cryptographic Functions, Top
 @chapter POSIX Threads
 @c %MENU% POSIX Threads
 @cindex pthreads
-- 
1.8.1.4


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