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The formal memory consistency model has added support for plain accesses (and data races). While updating the informal documentation to describe this addition to the model is highly desirable and important future work, update the informal documentation to at least acknowledge such addition. Signed-off-by: Andrea Parri <andrea.parri@amarulasolutions.com> Cc: Will Deacon <will.deacon@arm.com> Cc: Peter Zijlstra <peterz@infradead.org> Cc: Boqun Feng <boqun.feng@gmail.com> Cc: Nicholas Piggin <npiggin@gmail.com> Cc: David Howells <dhowells@redhat.com> Cc: Jade Alglave <j.alglave@ucl.ac.uk> Cc: Luc Maranget <luc.maranget@inria.fr> Cc: "Paul E. McKenney" <paulmck@linux.ibm.com> Cc: Akira Yokosawa <akiyks@gmail.com> Cc: Daniel Lustig <dlustig@nvidia.com> Signed-off-by: Paul E. McKenney <paulmck@linux.ibm.com> Acked-by: Alan Stern <stern@rowland.harvard.edu>
273 lines
9.0 KiB
Plaintext
273 lines
9.0 KiB
Plaintext
=====================================
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LINUX KERNEL MEMORY CONSISTENCY MODEL
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=====================================
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============
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INTRODUCTION
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============
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This directory contains the memory consistency model (memory model, for
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short) of the Linux kernel, written in the "cat" language and executable
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by the externally provided "herd7" simulator, which exhaustively explores
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the state space of small litmus tests.
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In addition, the "klitmus7" tool (also externally provided) may be used
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to convert a litmus test to a Linux kernel module, which in turn allows
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that litmus test to be exercised within the Linux kernel.
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============
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REQUIREMENTS
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============
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Version 7.52 or higher of the "herd7" and "klitmus7" tools must be
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downloaded separately:
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https://github.com/herd/herdtools7
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See "herdtools7/INSTALL.md" for installation instructions.
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Note that although these tools usually provide backwards compatibility,
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this is not absolutely guaranteed. Therefore, if a later version does
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not work, please try using the exact version called out above.
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==================
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BASIC USAGE: HERD7
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==================
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The memory model is used, in conjunction with "herd7", to exhaustively
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explore the state space of small litmus tests.
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For example, to run SB+fencembonceonces.litmus against the memory model:
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$ herd7 -conf linux-kernel.cfg litmus-tests/SB+fencembonceonces.litmus
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Here is the corresponding output:
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Test SB+fencembonceonces Allowed
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States 3
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0:r0=0; 1:r0=1;
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0:r0=1; 1:r0=0;
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0:r0=1; 1:r0=1;
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No
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Witnesses
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Positive: 0 Negative: 3
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Condition exists (0:r0=0 /\ 1:r0=0)
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Observation SB+fencembonceonces Never 0 3
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Time SB+fencembonceonces 0.01
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Hash=d66d99523e2cac6b06e66f4c995ebb48
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The "Positive: 0 Negative: 3" and the "Never 0 3" each indicate that
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this litmus test's "exists" clause can not be satisfied.
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See "herd7 -help" or "herdtools7/doc/" for more information.
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=====================
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BASIC USAGE: KLITMUS7
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=====================
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The "klitmus7" tool converts a litmus test into a Linux kernel module,
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which may then be loaded and run.
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For example, to run SB+fencembonceonces.litmus against hardware:
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$ mkdir mymodules
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$ klitmus7 -o mymodules litmus-tests/SB+fencembonceonces.litmus
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$ cd mymodules ; make
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$ sudo sh run.sh
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The corresponding output includes:
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Test SB+fencembonceonces Allowed
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Histogram (3 states)
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644580 :>0:r0=1; 1:r0=0;
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644328 :>0:r0=0; 1:r0=1;
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711092 :>0:r0=1; 1:r0=1;
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No
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Witnesses
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Positive: 0, Negative: 2000000
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Condition exists (0:r0=0 /\ 1:r0=0) is NOT validated
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Hash=d66d99523e2cac6b06e66f4c995ebb48
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Observation SB+fencembonceonces Never 0 2000000
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Time SB+fencembonceonces 0.16
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The "Positive: 0 Negative: 2000000" and the "Never 0 2000000" indicate
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that during two million trials, the state specified in this litmus
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test's "exists" clause was not reached.
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And, as with "herd7", please see "klitmus7 -help" or "herdtools7/doc/"
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for more information.
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====================
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DESCRIPTION OF FILES
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====================
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Documentation/cheatsheet.txt
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Quick-reference guide to the Linux-kernel memory model.
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Documentation/explanation.txt
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Describes the memory model in detail.
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Documentation/recipes.txt
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Lists common memory-ordering patterns.
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Documentation/references.txt
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Provides background reading.
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linux-kernel.bell
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Categorizes the relevant instructions, including memory
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references, memory barriers, atomic read-modify-write operations,
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lock acquisition/release, and RCU operations.
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More formally, this file (1) lists the subtypes of the various
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event types used by the memory model and (2) performs RCU
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read-side critical section nesting analysis.
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linux-kernel.cat
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Specifies what reorderings are forbidden by memory references,
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memory barriers, atomic read-modify-write operations, and RCU.
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More formally, this file specifies what executions are forbidden
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by the memory model. Allowed executions are those which
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satisfy the model's "coherence", "atomic", "happens-before",
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"propagation", and "rcu" axioms, which are defined in the file.
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linux-kernel.cfg
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Convenience file that gathers the common-case herd7 command-line
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arguments.
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linux-kernel.def
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Maps from C-like syntax to herd7's internal litmus-test
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instruction-set architecture.
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litmus-tests
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Directory containing a few representative litmus tests, which
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are listed in litmus-tests/README. A great deal more litmus
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tests are available at https://github.com/paulmckrcu/litmus.
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lock.cat
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Provides a front-end analysis of lock acquisition and release,
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for example, associating a lock acquisition with the preceding
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and following releases and checking for self-deadlock.
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More formally, this file defines a performance-enhanced scheme
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for generation of the possible reads-from and coherence order
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relations on the locking primitives.
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README
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This file.
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scripts Various scripts, see scripts/README.
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===========
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LIMITATIONS
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===========
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The Linux-kernel memory model (LKMM) has the following limitations:
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1. Compiler optimizations are not accurately modeled. Of course,
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the use of READ_ONCE() and WRITE_ONCE() limits the compiler's
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ability to optimize, but under some circumstances it is possible
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for the compiler to undermine the memory model. For more
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information, see Documentation/explanation.txt (in particular,
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the "THE PROGRAM ORDER RELATION: po AND po-loc" and "A WARNING"
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sections).
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Note that this limitation in turn limits LKMM's ability to
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accurately model address, control, and data dependencies.
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For example, if the compiler can deduce the value of some variable
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carrying a dependency, then the compiler can break that dependency
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by substituting a constant of that value.
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2. Multiple access sizes for a single variable are not supported,
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and neither are misaligned or partially overlapping accesses.
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3. Exceptions and interrupts are not modeled. In some cases,
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this limitation can be overcome by modeling the interrupt or
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exception with an additional process.
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4. I/O such as MMIO or DMA is not supported.
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5. Self-modifying code (such as that found in the kernel's
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alternatives mechanism, function tracer, Berkeley Packet Filter
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JIT compiler, and module loader) is not supported.
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6. Complete modeling of all variants of atomic read-modify-write
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operations, locking primitives, and RCU is not provided.
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For example, call_rcu() and rcu_barrier() are not supported.
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However, a substantial amount of support is provided for these
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operations, as shown in the linux-kernel.def file.
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a. When rcu_assign_pointer() is passed NULL, the Linux
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kernel provides no ordering, but LKMM models this
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case as a store release.
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b. The "unless" RMW operations are not currently modeled:
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atomic_long_add_unless(), atomic_add_unless(),
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atomic_inc_unless_negative(), and
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atomic_dec_unless_positive(). These can be emulated
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in litmus tests, for example, by using atomic_cmpxchg().
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c. The call_rcu() function is not modeled. It can be
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emulated in litmus tests by adding another process that
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invokes synchronize_rcu() and the body of the callback
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function, with (for example) a release-acquire from
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the site of the emulated call_rcu() to the beginning
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of the additional process.
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d. The rcu_barrier() function is not modeled. It can be
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emulated in litmus tests emulating call_rcu() via
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(for example) a release-acquire from the end of each
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additional call_rcu() process to the site of the
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emulated rcu-barrier().
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e. Although sleepable RCU (SRCU) is now modeled, there
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are some subtle differences between its semantics and
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those in the Linux kernel. For example, the kernel
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might interpret the following sequence as two partially
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overlapping SRCU read-side critical sections:
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1 r1 = srcu_read_lock(&my_srcu);
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2 do_something_1();
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3 r2 = srcu_read_lock(&my_srcu);
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4 do_something_2();
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5 srcu_read_unlock(&my_srcu, r1);
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6 do_something_3();
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7 srcu_read_unlock(&my_srcu, r2);
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In contrast, LKMM will interpret this as a nested pair of
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SRCU read-side critical sections, with the outer critical
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section spanning lines 1-7 and the inner critical section
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spanning lines 3-5.
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This difference would be more of a concern had anyone
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identified a reasonable use case for partially overlapping
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SRCU read-side critical sections. For more information,
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please see: https://paulmck.livejournal.com/40593.html
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f. Reader-writer locking is not modeled. It can be
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emulated in litmus tests using atomic read-modify-write
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operations.
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The "herd7" tool has some additional limitations of its own, apart from
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the memory model:
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1. Non-trivial data structures such as arrays or structures are
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not supported. However, pointers are supported, allowing trivial
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linked lists to be constructed.
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2. Dynamic memory allocation is not supported, although this can
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be worked around in some cases by supplying multiple statically
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allocated variables.
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Some of these limitations may be overcome in the future, but others are
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more likely to be addressed by incorporating the Linux-kernel memory model
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into other tools.
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Finally, please note that LKMM is subject to change as hardware, use cases,
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and compilers evolve.
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