Lincheck is a practical and user-friendly framework for testing concurrent algorithms on the JVM. It provides a simple and declarative way to write concurrent tests.
With the Lincheck framework, instead of describing how to perform tests, you can specify what to test by just declaring all the data structure operations to examine. After that, Lincheck automatically generates a set of random concurrent scenarios, examines them using either stress-testing or bounded model checking, and verifies that the results of each invocation satisfy the required correctness property (linearizability by default).
Please see the official tutorial that showcases Lincheck features through examples.
You may also be interested in the following resources:
- "Lincheck: A Practical Framework for Testing Concurrent Data Structures on JVM" paper by N. Koval, A. Fedorov, M. Sokolova, D. Tsitelov, and D. Alistarh published at CAV '23.
- "How we test concurrent algorithms in Kotlin Coroutines" talk by Nikita Koval at KotlinConf '23.
- "Lincheck: Testing concurrency on the JVM" workshop (Part 1, Part 2) by Maria Sokolova at Hydra '21.
To use Lincheck in your project, you need to add it as a dependency. If you use Gradle, add the following lines to build.gradle.kts
:
repositories {
mavenCentral()
}
dependencies {
// Lincheck dependency
testImplementation("org.jetbrains.kotlinx:lincheck:2.30")
}
The following Lincheck test easily finds a bug in the standard Java's ConcurrentLinkedDeque
:
import org.jetbrains.kotlinx.lincheck.*
import org.jetbrains.kotlinx.lincheck.annotations.*
import org.jetbrains.kotlinx.lincheck.strategy.managed.modelchecking.*
import org.junit.*
import java.util.concurrent.*
class ConcurrentDequeTest {
private val deque = ConcurrentLinkedDeque<Int>()
@Operation
fun addFirst(e: Int) = deque.addFirst(e)
@Operation
fun addLast(e: Int) = deque.addLast(e)
@Operation
fun pollFirst() = deque.pollFirst()
@Operation
fun pollLast() = deque.pollLast()
@Operation
fun peekFirst() = deque.peekFirst()
@Operation
fun peekLast() = deque.peekLast()
// Run Lincheck in the stress testing mode
@Test
fun stressTest() = StressOptions().check(this::class)
// Run Lincheck in the model checking testing mode
@Test
fun modelCheckingTest() = ModelCheckingOptions().check(this::class)
}
When running modelCheckingTest(),
Lincheck not only detects a bug but also provides a comprehensive interleaving trace that explains it:
= Invalid execution results =
| -------------------------------------- |
| Thread 1 | Thread 2 |
| -------------------------------------- |
| addLast(4): void | |
| -------------------------------------- |
| pollFirst(): 4 | addFirst(-4): void |
| | peekLast(): 4 [-,1] |
| -------------------------------------- |
---
All operations above the horizontal line | ----- | happen before those below the line
---
Values in "[..]" brackets indicate the number of completed operations
in each of the parallel threads seen at the beginning of the current operation
---
The following interleaving leads to the error:
| addLast(4): void | |
| pollFirst() | |
| pollFirst(): 4 at ConcurrentLinkedDequeTest.pollFirst(ConcurrentLinkedDequeTest.kt:29) | |
| first(): Node@1 at ConcurrentLinkedDeque.pollFirst(ConcurrentLinkedDeque.java:915) | |
| item.READ: null at ConcurrentLinkedDeque.pollFirst(ConcurrentLinkedDeque.java:917) | |
| next.READ: Node@2 at ConcurrentLinkedDeque.pollFirst(ConcurrentLinkedDeque.java:925) | |
| item.READ: 4 at ConcurrentLinkedDeque.pollFirst(ConcurrentLinkedDeque.java:917) | |
| prev.READ: null at ConcurrentLinkedDeque.pollFirst(ConcurrentLinkedDeque.java:919) | |
| switch | |
| | addFirst(-4): void |
| | peekLast(): 4 |
| compareAndSet(Node@2,4,null): true at ConcurrentLinkedDeque.pollFirst(ConcurrentLinkedDeque.java:920) | |
| unlink(Node@2) at ConcurrentLinkedDeque.pollFirst(ConcurrentLinkedDeque.java:921) | |
| result: 4 | |
This is a fork of the Lin-Check framework by Devexperts.