tools/memory-model/litmus-tests/WRC+pooncerelease+fencermbonceonce+Once.litmus
Source file repositories/reference/linux-study-clean/tools/memory-model/litmus-tests/WRC+pooncerelease+fencermbonceonce+Once.litmus
File Facts
- System
- Linux kernel
- Corpus path
tools/memory-model/litmus-tests/WRC+pooncerelease+fencermbonceonce+Once.litmus- Extension
.litmus- Size
- 644 bytes
- Lines
- 39
- Domain
- Support Tooling And Documentation
- Bucket
- tools
- Inferred role
- Support Tooling And Documentation: tools
- Status
- atlas-only
Why This File Exists
Repository support layer: documentation, build tooling, samples, user-space helper tools, generated initramfs support, licenses, and validation utilities.
- Repository support layer: documentation, build tooling, samples, user-space helper tools, generated initramfs support, licenses, and validation utilities.
Dependency Surface
- No C-style include directives detected by the generator.
Detected Declarations
- No top-level syscall, struct, function, initcall, or export declaration detected by the generator.
Annotated Snippet
C WRC+pooncerelease+fencermbonceonce+Once
(*
* Result: Never
*
* This litmus test is an extension of the message-passing pattern, where
* the first write is moved to a separate process. Because it features
* a release and a read memory barrier, it should be forbidden. More
* specifically, this litmus test is forbidden because smp_store_release()
* is A-cumulative in LKMM.
*)
{}
P0(int *x)
{
WRITE_ONCE(*x, 1);
}
P1(int *x, int *y)
{
int r0;
r0 = READ_ONCE(*x);
smp_store_release(y, 1);
}
P2(int *x, int *y)
{
int r0;
int r1;
r0 = READ_ONCE(*y);
smp_rmb();
r1 = READ_ONCE(*x);
}
exists (1:r0=1 /\ 2:r0=1 /\ 2:r1=0)
Annotation
- Atlas domain: Support Tooling And Documentation / tools.
- Implementation status: atlas-only.
Implementation Notes
- This generated page is the file-by-file coverage layer; curated subsystem chapters should link here when they synthesize a multi-file control flow.
- Core OS pages should be promoted from atlas-only to deep-reviewed when they explain data structures, invariants, locking, lifecycle, and C implementation snippets.
- Driver-family pages are intentionally pattern-oriented unless they are part of the selected PCIe/NVMe representative device path.