Runtime classes from Groovy source for Jenkins Pipelines

[mko...@gmail.com]

I'm working on a Gradle plugin (https://github.com/mkobit/jenkins-pipeline-shared-libraries-gradle-plugin) that makes it simple to build and test Jenkins Shared Libraries. Jenkins Shared Libraries operate on source code instead of compiled code. Jenkins itself embeds Groovy for compilation of various pipeline scripts. It performs some manipulations before execution. The code that comes out seems to be deterministic from what I can tell.

I am trying to figure out a way to coverage for these source Groovy files when they are compiled and executed in a Jenkins runtime. I've documented my journey so far in https://github.com/mkobit/jenkins-pipeline-shared-libraries-gradle-plugin/issues/32 but here is a summary of where I am currently at:

* I can get execution data for the classes
* Dumping classpath shows multiple instances of the library classes (1 per test they are used in)
* Attempting to get a report fails with `java.lang.IllegalStateException: Can't add different class with same name: com/mkobit/libraryexample/ExampleSrc`. There are a few other duplicates as well
* Filtering down the report to only a single specific file allows me to generate a coverage report, but I only get it for the test was filtered (https://github.com/mkobit/jenkins-pipeline-shared-libraries-gradle-plugin/issues/32#issuecomment-366371128)

What I want to try and figure out is, what is the right way forward to "merge" the execution data together for the original source file? It sounds similar-ish to https://github.com/jacoco/jacoco/issues/197 so I'll add a comment there as well.

Here are some reproduction steps:

1. `git clone -b 'mk/coverage-investigation' https://github.com/mkobit/jenkins-pipeline-shared-library-example.git`
2. `cd jenkins-pipeline-shared-library-example`
3. `./gradlew integrationTest jacocoIntegrationTestReport -s ==> See error mentioned above about duplicate classnames
4. `find build/jacoco/classpathdumps/com/mkobit/libraryexample/ExampleSrc.* | head -n 1 | xargs -n 1 basename` ==> this will get one of the classes. for me this time, it was "ExampleSrc.99203068b63d74ec.class"
5. Replace the class name at https://github.com/mkobit/jenkins-pipeline-shared-library-example/blob/6d268d56c86c626312bc76a9e00051c5749c28d1/build.gradle.kts#L52 with the class name above and uncomment the line
6. `./gradlew jacocoIntegrationTestReport` ==> Generate report for single class
7. Open HTML report at build/reports/jacoco/jacocoIntegrationTestReport/html/index.html and see results for class
8. find build/jacoco/classpathdumps/com/mkobit/libraryexample/ExampleSrc.* | tail -n 1 | xargs -n 1 basename ==> get name for other class
9. Repeat steps 4-7 with result from other class to see different

[Marc Hoffmann]

Hi,

do you have an idea what is the actual difference between the class
files?

You can decompile the different class versions with javap -p -c and diff
the result.

Regards,
-marc

[Michael Kobit]

Using the IntelliJ decompiler for one instance shows:

//
// Source code recreated from a .class file by IntelliJ IDEA
// (powered by Fernflower decompiler)
//

package com.mkobit.libraryexample;

import com.cloudbees.groovy.cps.Builder;
import com.cloudbees.groovy.cps.MethodLocation;
import com.cloudbees.groovy.cps.NonCPS;
import com.cloudbees.groovy.cps.WorkflowTransformed;
import com.cloudbees.groovy.cps.impl.CpsCallableInvocation;
import com.cloudbees.groovy.cps.impl.CpsFunction;
import com.cloudbees.groovy.cps.sandbox.Trusted;
import com.mkobit.libraryexample.ExampleSrc._nonCpsDouble_closure1;
import groovy.lang.GroovyObject;
import groovy.lang.MetaClass;
import java.io.Serializable;
import java.util.List;
import java.util.Objects;
import org.codehaus.groovy.runtime.ArrayUtil;
import org.codehaus.groovy.runtime.ScriptBytecodeAdapter;
import org.codehaus.groovy.runtime.callsite.CallSite;
import org.jenkinsci.plugins.workflow.cps.CpsClosure2;
import org.jenkinsci.plugins.workflow.cps.Safepoint;

@WorkflowTransformed
public class ExampleSrc implements Serializable, GroovyObject {
  private final Object script;
  private static final CpsFunction ___cps___0;
  private static long __timeStamp;

  public ExampleSrc(Object script) {
    CallSite[] var2 = $getCallSiteArray();
    MetaClass var3 = this.$getStaticMetaClass();
    this.metaClass = var3;
    Object var4 = var2[0].call(Objects.class, script);
    this.script = var4;
  }

  @WorkflowTransformed
  public void sayHelloTo(String name) {
    CallSite[] var2 = $getCallSiteArray();
    throw (Throwable)var2[1].callConstructor(CpsCallableInvocation.class, ___cps___0, this, new Object[]{name});
  }

  @NonCPS
  public List<Integer> nonCpsDouble(List<Integer> integers) {
    CallSite[] var2 = $getCallSiteArray();
    return (List)ScriptBytecodeAdapter.castToType(var2[2].call(integers, new _nonCpsDouble_closure1(this, this)), List.class);
  }

  @WorkflowTransformed
  private static final CpsFunction ___cps___0() {
    CallSite[] var0 = $getCallSiteArray();
    Builder b = (Builder)ScriptBytecodeAdapter.castToType(var0[3].call(var0[4].call(var0[5].callConstructor(Builder.class, var0[6].callConstructor(MethodLocation.class, "com.mkobit.libraryexample.ExampleSrc", "sayHelloTo", "/tmp/jenkinsTests.tmp/jenkins1133211585081614104test/jobs/project/builds/1/libs/testLibrary/src/com/mkobit/libraryexample/ExampleSrc.groovy")), CpsClosure2.class), var0[7].callGetProperty(Trusted.class)), Builder.class);
    return (CpsFunction)ScriptBytecodeAdapter.castToType(var0[8].callConstructor(CpsFunction.class, ScriptBytecodeAdapter.createList(new Object[]{"name"}), var0[9].call(b, var0[10].call(b, 14, Safepoint.class, "safepoint"), var0[11].call(b, var0[12].call(b, ArrayUtil.createArray(14, var0[13].call(b, 14, var0[14].call(b), "script"), var0[15].call(b, "echo"), false, var0[16].call(b, 14, var0[17].call(b, var0[18].call(b, 14, "name")), var0[19].call(b, var0[20].call(b, "Hello there "), var0[21].call(b, "")))))))), CpsFunction.class);
  }

  static {
    Long var0 = 0L;
    __timeStamp = var0;
    Object var1 = $getCallSiteArray()[22].callStatic(ExampleSrc.class);
    ___cps___0 = (CpsFunction)ScriptBytecodeAdapter.castToType(var1, CpsFunction.class);
  }
}

And other class file:

//
// Source code recreated from a .class file by IntelliJ IDEA
// (powered by Fernflower decompiler)
//

package com.mkobit.libraryexample;

import com.cloudbees.groovy.cps.Builder;
import com.cloudbees.groovy.cps.MethodLocation;
import com.cloudbees.groovy.cps.NonCPS;
import com.cloudbees.groovy.cps.WorkflowTransformed;
import com.cloudbees.groovy.cps.impl.CpsCallableInvocation;
import com.cloudbees.groovy.cps.impl.CpsFunction;
import com.cloudbees.groovy.cps.sandbox.Trusted;
import com.mkobit.libraryexample.ExampleSrc._nonCpsDouble_closure1;
import groovy.lang.GroovyObject;
import groovy.lang.MetaClass;
import java.io.Serializable;
import java.util.List;
import java.util.Objects;
import org.codehaus.groovy.runtime.ArrayUtil;
import org.codehaus.groovy.runtime.ScriptBytecodeAdapter;
import org.codehaus.groovy.runtime.callsite.CallSite;
import org.jenkinsci.plugins.workflow.cps.CpsClosure2;
import org.jenkinsci.plugins.workflow.cps.Safepoint;

@WorkflowTransformed
public class ExampleSrc implements Serializable, GroovyObject {
  private final Object script;
  private static final CpsFunction ___cps___3;
  private static long __timeStamp;

  public ExampleSrc(Object script) {
    CallSite[] var2 = $getCallSiteArray();
    MetaClass var3 = this.$getStaticMetaClass();
    this.metaClass = var3;
    Object var4 = var2[0].call(Objects.class, script);
    this.script = var4;
  }

  @WorkflowTransformed
  public void sayHelloTo(String name) {
    CallSite[] var2 = $getCallSiteArray();
    throw (Throwable)var2[1].callConstructor(CpsCallableInvocation.class, ___cps___3, this, new Object[]{name});
  }

  @NonCPS
  public List<Integer> nonCpsDouble(List<Integer> integers) {
    CallSite[] var2 = $getCallSiteArray();
    return (List)ScriptBytecodeAdapter.castToType(var2[2].call(integers, new _nonCpsDouble_closure1(this, this)), List.class);
  }

  @WorkflowTransformed
  private static final CpsFunction ___cps___3() {
    CallSite[] var0 = $getCallSiteArray();
    Builder b = (Builder)ScriptBytecodeAdapter.castToType(var0[3].call(var0[4].call(var0[5].callConstructor(Builder.class, var0[6].callConstructor(MethodLocation.class, "com.mkobit.libraryexample.ExampleSrc", "sayHelloTo", "/tmp/jenkinsTests.tmp/jenkins8402738745313950554test/jobs/project/builds/1/libs/testLibrary/src/com/mkobit/libraryexample/ExampleSrc.groovy")), CpsClosure2.class), var0[7].callGetProperty(Trusted.class)), Builder.class);
    return (CpsFunction)ScriptBytecodeAdapter.castToType(var0[8].callConstructor(CpsFunction.class, ScriptBytecodeAdapter.createList(new Object[]{"name"}), var0[9].call(b, var0[10].call(b, 14, Safepoint.class, "safepoint"), var0[11].call(b, var0[12].call(b, ArrayUtil.createArray(14, var0[13].call(b, 14, var0[14].call(b), "script"), var0[15].call(b, "echo"), false, var0[16].call(b, 14, var0[17].call(b, var0[18].call(b, 14, "name")), var0[19].call(b, var0[20].call(b, "Hello there "), var0[21].call(b, "")))))))), CpsFunction.class);
  }

  static {
    Long var0 = 0L;
    __timeStamp = var0;
    Object var1 = $getCallSiteArray()[22].callStatic(ExampleSrc.class);
    ___cps___3 = (CpsFunction)ScriptBytecodeAdapter.castToType(var1, CpsFunction.class);
  }
}

Comparing the two together in IntelliJ only really shows that a view names and a path are different. This seems to be due to some specifics of how the Jenkins Groovy compilation is working under the hood, but I don't know enough about how it works to say exactly what it is doing.

Here is the diff when using javap, which basically shows the same thing: diff <(/usr/lib/jvm/java-8-oracle/bin/javap -p -c build/jacoco/classpathdumps/com/mkobit/libraryexample/ExampleSrc.3c0445a9d0628854.class) <(/usr/lib/jvm/java-8-oracle/bin/javap -p -c build/jacoco/classpathdumps/com/mkobit/libraryexample/ExampleSrc.99203068b63d74ec.class):

5c5

<   private static final com.cloudbees.groovy.cps.impl.CpsFunction ___cps___0;

---

>   private static final com.cloudbees.groovy.cps.impl.CpsFunction ___cps___3;

55c55

<       10: getstatic     #57                 // Field ___cps___0:Lcom/cloudbees/groovy/cps/impl/CpsFunction;

---

>       10: getstatic     #57                 // Field ___cps___3:Lcom/cloudbees/groovy/cps/impl/CpsFunction;

89c89

<   private static final com.cloudbees.groovy.cps.impl.CpsFunction ___cps___0();

---

>   private static final com.cloudbees.groovy.cps.impl.CpsFunction ___cps___3();

109c109

<       28: ldc           #98                 // String /tmp/jenkinsTests.tmp/jenkins1133211585081614104test/jobs/project/builds/1/libs/testLibrary/src/com/mkobit/libraryexample/ExampleSrc.groovy

---

>       28: ldc           #98                 // String /tmp/jenkinsTests.tmp/jenkins8402738745313950554test/jobs/project/builds/1/libs/testLibrary/src/com/mkobit/libraryexample/ExampleSrc.groovy

325c325

<       37: putstatic     #57                 // Field ___cps___0:Lcom/cloudbees/groovy/cps/impl/CpsFunction;

---

>       37: putstatic     #57                 // Field ___cps___3:Lcom/cloudbees/groovy/cps/impl/CpsFunction;

422c422

<      142: ldc_w         #263                // String ___cps___0

---

>      142: ldc_w         #263                // String ___cps___3

--
You received this message because you are subscribed to a topic in the Google Groups "JaCoCo and EclEmma Users" group.
To unsubscribe from this topic, visit https://groups.google.com/d/topic/jacoco/-zTg9Bt5964/unsubscribe.
To unsubscribe from this group and all its topics, send an email to jacoco+un...@googlegroups.com.
To view this discussion on the web visit https://groups.google.com/d/msgid/jacoco/ebabe3aff26f96248b1994370f627290%40mountainminds.com.
For more options, visit https://groups.google.com/d/optout.

[Marc Hoffmann]

Hi Michael,

thanks for the details! Indeed a variable name and a value in the constant pool are different. This leads to a different class id which is simply the CRC64 checksum of the raw class file. So current JaCoCo will not be able to merge them.

The tricky question is how and under what circumstances IClassCoverage instances can be merged. A conservative approach (which would work in your specific case) would be to allow merges only if both classes have the exact same instruction/branch structure.

Regards,
-marc

You received this message because you are subscribed to the Google Groups "JaCoCo and EclEmma Users" group.
To unsubscribe from this group and stop receiving emails from it, send an email to jacoco+un...@googlegroups.com.
To view this discussion on the web visit https://groups.google.com/d/msgid/jacoco/CALELY9HB0ceYR%3DWve2jYuG2zMV9KomJr1YFnWtP7h8gEubAyLg%40mail.gmail.com.

[mko...@gmail.com]

Thanks Marc for taking a look. Maybe there is a way for me to use the JaCoCO APIs to perform my own "merging"? I'm not sure how pluggable the APIs are with JaCoCo, because most of the time it "just works" for me and I haven't had to do anything on my own!

[Marc Hoffmann]

Hi Michel,

this is probably possible. As a starting point I would implement a
ICoverageVisitor which combines IClassCoverage instances under certain
conditions (e.g. same name). The interesting point is the merge
algorithm itself: In your case (classes have same structure) it is
probably realitively simple. In the general case this is probably quite
tricky.

Cheers,
-marc