-CDSChecker Readme
-=================
+CDSChecker: A Model Checker for C11 and C++11 Atomics
+=====================================================
Copyright © 2013 Regents of the University of California. All rights reserved.
checking algorithm is described in more detail in this paper (published in
OOPSLA '13):
- <http://demsky.eecs.uci.edu/publications/c11modelcheck.pdf>
+> <http://demsky.eecs.uci.edu/publications/c11modelcheck.pdf>
It is designed to support unit tests on concurrent data structure written using
C/C++ atomics.
tested with LLVM (clang/clang++) and GCC. It likely can be ported to other \*NIX
flavors. We have not attempted to port to Windows.
-You may also refer to the CDSChecker project page:
-
- <http://demsky.eecs.uci.edu/c11modelchecker.php>
-
Getting Started
---------------
If you haven't done so already, you may download CDSChecker using
-[git](http://git-scm.com/):
+[git](http://git-scm.com/) (for those without git, snapshots can be found at the
+Gitweb URLs below):
git clone git://demsky.eecs.uci.edu/model-checker.git
> make benchmarks
> cd benchmarks
-> ./run.sh barrier/barrier -y -m 2 # runs barrier test with fairness/memory liveness
-> ./bench.sh # run all benchmarks and provide timing results
+>
+> # run barrier test with fairness/memory liveness
+> ./run.sh barrier/barrier -y -m 2
+>
+> # Linux reader/write lock test with fairness/memory liveness
+> ./run.sh linuxrwlocks/linuxrwlocks -y -m 2
+>
+> # run all benchmarks and provide timing results
+> ./bench.sh
Running your own code
program should declare its main entry point as `user_main(int, char**)` rather
than `main(int, char**)`.
-Third, test programs should use the standard C11/C++11 library headers
-(`<atomic>`/`<stdatomic.h>`, `<mutex>`, `<condition_variable>`, `<thread.h>`).
-As of now, we only support C11 thread syntax (`thrd_t`, etc. from
-`<thread.h>`).
+Third, test programs must use the standard C11/C++11 library headers (see below
+for supported APIs) and must compile against the versions provided in
+CDSChecker's `include/` directory. Notably, we only support C11 thread syntax
+(`thrd_t`, etc. from `<thread.h>`).
Test programs may also use our included happens-before race detector by
including <librace.h> and utilizing the appropriate functions
-(`store_{8,16,32,64}()` and `load_{8,16,32,64}()`) for loading/storing data from/to
-non-atomic shared memory.
+(`store_{8,16,32,64}()` and `load_{8,16,32,64}()`) for storing/loading data
+to/from non-atomic shared memory.
CDSChecker can also check boolean assertions in your test programs. Just
include `<model-assert.h>` and use the `MODEL_ASSERT()` macro in your test program.
variable, for instance.
+### Supported C11/C++11 APIs ###
+
+To model-check multithreaded code properly, CDSChecker needs to instrument any
+concurrency-related API calls made in your code. Currently, we support parts of
+the following thread-support libraries. The C versions can be used in either C
+or C++.
+
+* `<atomic>`, `<cstdatomic>`, `<stdatomic.h>`
+* `<condition_variable>`
+* `<mutex>`
+* `<threads.h>`
+
+Because we want to extend support to legacy (i.e., non-C++11) compilers, we do
+not support some new C++11 features that can't be implemented in C++03 (e.g.,
+C++ `<thread>`).
+
Reading an execution trace
--------------------------
CV[0] = 0, CV[1] = 7, CV[2] = 0, CV[3] = 10
+End of Execution Summary
+------------------------
+
+CDSChecker prints summary statistics at the end of each execution. These
+summaries are based off of a few different properties of an execution, which we
+will break down here:
+
+* An _infeasible_ execution is an execution which is not consistent with the
+ memory model. Such an execution can be considered overhead for the
+ model-checker, since it should never appear in practice.
+
+* A _buggy_ execution is an execution in which CDSChecker has found a real
+ bug: a data race, a deadlock, failure of a user-provided assertion, or an
+ uninitialized load, for instance. CDSChecker will only report bugs in feasible
+ executions.
+
+* A _redundant_ execution is a feasible execution that is exploring the same
+ state space explored by a previous feasible execution. Such exploration is
+ another instance of overhead, so CDSChecker terminates these executions as
+ soon as they are detected. CDSChecker is mostly able to avoid such executions
+ but may encounter them if a fairness option is enabled.
+
+Now, we can examine the end-of-execution summary of one test program:
+
+ $ ./run.sh test/rmwprog.o
+ + test/rmwprog.o
+ ******* Model-checking complete: *******
+ Number of complete, bug-free executions: 6
+ Number of redundant executions: 0
+ Number of buggy executions: 0
+ Number of infeasible executions: 29
+ Total executions: 35
-Other Notes
------------
+* _Number of complete, bug-free executions:_ these are feasible, non-buggy, and
+ non-redundant executions. They each represent different, legal behaviors you
+ can expect to see in practice.
+
+* _Number of redundant executions:_ these are feasible but redundant executions
+ that were terminated as soon as CDSChecker noticed the redundancy.
+
+* _Number of buggy executions:_ these are feasible, buggy executions. These are
+ the trouble spots where your program is triggering a bug or assertion.
+ Ideally, this number should be 0.
+
+* _Number of infeasible executions:_ these are infeasible executions,
+ representing some of the overhead of model-checking.
+
+* _Total executions:_ the total number of executions explored by CDSChecker.
+ Should be the sum of the above categories, since they are mutually exclusive.
+
+
+Other Notes and Pitfalls
+------------------------
* Deadlock detection: CDSChecker can detect deadlocks. For instance, try the
following test program.
division by 0, for instance). In such programs, you might consider running
CDSChecker with the `-u num` option.
+* Related to the previous point, CDSChecker may report more than one bug for a
+ particular candidate execution. This is because some bugs may not be
+ reportable until CDSChecker has explored more of the program, and in the
+ time between initial discovery and final assessment of the bug, CDSChecker may
+ discover another bug.
+
+* Data races may be reported as multiple bugs, one for each byte-address of the
+ data race in question. See, for example, this run:
+
+ $ ./run.sh test/releaseseq.o
+ ...
+ Bug report: 4 bugs detected
+ [BUG] Data race detected @ address 0x601078:
+ Access 1: write in thread 2 @ clock 4
+ Access 2: read in thread 3 @ clock 9
+ [BUG] Data race detected @ address 0x601079:
+ Access 1: write in thread 2 @ clock 4
+ Access 2: read in thread 3 @ clock 9
+ [BUG] Data race detected @ address 0x60107a:
+ Access 1: write in thread 2 @ clock 4
+ Access 2: read in thread 3 @ clock 9
+ [BUG] Data race detected @ address 0x60107b:
+ Access 1: write in thread 2 @ clock 4
+ Access 2: read in thread 3 @ clock 9
+
+
+See Also
+--------
+
+The CDSChecker project page:
+
+> <http://demsky.eecs.uci.edu/c11modelchecker.php>
+
+The CDSChecker source and accompanying benchmarks on Gitweb:
+
+> <http://demsky.eecs.uci.edu/git/?p=model-checker.git>
+>
+> <http://demsky.eecs.uci.edu/git/?p=model-checker-benchmarks.git>
+
Contact
-------