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JVM annotations

Jean Bisutti edited this page Jun 21, 2020 · 166 revisions

🚩 Table of contents

One JVM by test method

How to get the JVM options added by QuickPerf?

Configure your test JVM
Β  Β  @HeapSize Β |Β  @Xms Β |Β @Xmx Β |Β  @UseGC Β |Β  @EnableGcLogging Β |Β  @JvmOptions

Verify heap allocation
Β  Β  @MeasureHeapAllocation Β |Β @ExpectMaxHeapAllocation Β |Β  @ExpectNoHeapAllocation

Dump the heap

Verify resident set size (RSS)
Β  Β  @MeasureRSS) Β |Β  @ExpectMaxRSS

Profile or check your JVM
Β  Β  @ProfileJvm Β |Β  @ExpectNoJvmIssue

Test examples

One JVM by test method

⚠️ If you use one of the JVM annotations, the test method is executed in a dedicated JVM.

How to get the JVM options added by QuickPerf?

Some JVM annotations configure JVM options.

You can use @DebugQuickPerf to get the JVM options added by QuickPerf.

πŸ”Ž Example

 @DebugQuickPerf
JVM OPTIONS
-Xms20m
-Xmx20m
-XX:+UnlockExperimentalVMOptions
-XX:+AlwaysPreTouch
-XX:+UseEpsilonGC
-XX:+HeapDumpOnOutOfMemoryError
-XX:HeapDumpPath=C:\Users\JEANBI~1\AppData\Local\Temp\QuickPerf-16618400885811126911\heapDump.hprof

Configure your test JVM

@HeapSize

With this annotation, the test is executed in a specific JVM having the given heap size.

πŸ”§ Parameters

Parameter Type Meaning
value long Heap size value (Xms=Xmx)
unit AllocationUnit Allocation unit

πŸ”Ž Example

  @HeapSize(value = 20, unit = AllocationUnit.MEGA_BYTE)

@Xms

With this annotation, the test is executed in a specific JVM having the given initial and minimum heap size value.

πŸ”§ Parameters

Parameter Type Meaning
value long Initial and minimum heap size value
unit AllocationUnit Allocation unit

πŸ”Ž Example

 @Xms(value = 20, unit = AllocationUnit.MEGA_BYTE)

@Xmx

With this annotation, the test is executed in a specific JVM having the given maximum heap size value.

πŸ”§ Parameters

Parameter Type Meaning
value long Maximum heap size value
unit AllocationUnit Allocation unit

πŸ”Ž Example

 @Xmx(value = 20, unit = AllocationUnit.MEGA_BYTE)

@UseGC

To specify a GC type.

πŸ”§ Parameters

Parameter Type Meaning Default value
value org.quickperf.jvm.gc.GC GC type GC.DEFAULT

The following GC types are available:

πŸ”Ž Example

@UseGC(GC.EPSILON_GC)

@EnableGcLogging

To enable GC logging.

The path of the GC log file is displayed in the console:

GC log file: C:\Users\JEANBI~1\AppData\Local\Temp\QuickPerf-1127741195724299919\gc.log

This file can be analysed with the help of a GC log analyzer:

@JvmOptions

With this annotation, the test is executed in a specific JVM having the given JVM options.

A tool developed by Chris Newland can be used to explore the available JVM options.

πŸ”§ Parameters

Parameter Type Meaning
value String JVM options

Verify heap allocation

The following annotations use ByteWatcher under the hood:

⚠️ They measure heap allocation of the test method thread.

You can for example use @MeasureHeapAllocation and @ExpectMaxHeapAllocation to check the heap allocation cost of a large data structure (containing 1 000 000 elements for example) .

@ExpectNoHeapAllocation can be used to verify that the tested code does not allocate on heap.

@MeasureHeapAllocation

You can measure heap allocation with this annotation.

The measured allocation is displayed in the console.

πŸ”Ž Example

@RunWith(QuickPerfJUnitRunner.class)
public class ClassWithMethodAnnotatedWithMeasureAllocation {

    @MeasureHeapAllocation
    @JvmOptions("-XX:+UseCompressedOops -XX:+UseCompressedClassPointers")
    // Heap allocation value depends on UseCompressedOops and UseCompressedClassPointers.
    // QuickPerf works with JDK >= 7u40 where UseCompressedOops is enabled by default.
    // UseCompressedClassPointers was introduced in JDK 8 and is enabled by default.
    @Test
    public void array_list_with_size_100_should_allocate_440_bytes() {
        // java.util.ArrayList: 24 bytes
        //            +
        //  Object[]: 16 + 100 x 4 = 416
        //       = 440 bytes
        ArrayList<Object> data = new ArrayList<>(100);
    }

}

In console:

[QUICK PERF] Measured heap allocation (test method thread): 440 bytes

@ExpectMaxHeapAllocation

With this annotation, the test will fail if heap allocation is greater than expected.

πŸ”§ Parameters

Parameter Type Meaning
value long Allocation value
unit AllocationUnit Allocation unit

πŸ”Ž Example

   @ExpectMaxHeapAllocation(value = 440, unit = AllocationUnit.BYTE)
   @Test
   public void array_list_with_size_100_should_allocate_440_bytes() {
       ArrayList<Object> data = new ArrayList<>(100);
   }

@ExpectNoHeapAllocation

With this annotation, the test will fail if heap allocation is detected.

Dump the heap

HeapDumper

You can use the two following methods of org.quickperf.jvm.heap.HeapDumper class to dump the Java heap:

  • public static void dumpHeap(String fileName)
  • public static void dumpHeapWithOnlyLiveObjects(String fileName)

πŸ’‘ How to analyze the heap dump?

Several tools can be used to analyze the heap dump:

πŸ”Ž Example

@HeapSize(value = 50, unit = AllocationUnit.MEGA_BYTE)
@Test
public void do_something_and_dump_heap() {

  IntegerAccumulator integerAccumulator = new IntegerAccumulator();
  integerAccumulator.accumulateInteger(3_000_000);

  HeapDumper.dumpHeap("C:\\Users\\Jean Bisutti\\heap-dump.hprof");

}

In console:

[QUICK PERF] Heap dump file 
πŸ‘‰ C:\Users\Jean Bisutti\heap-dump.hprof

Verify resident set size (RSS)

@MeasureRSS

You can measure the Resident Set Size (RSS) with this annotation.

The measured RSS is displayed in the console.

⚠️ Today this annotation only woks on Linux. You can work on this issue to make the RSS annotations work on MacOS.

πŸ”Ž Example

[QUICK PERF] Measured RSS (process 5227): 46.64 Mega bytes (48 902 144 bytes)

@ExpectMaxRSS

With this annotation, the test will fail if the Resident Set Size (RSS) is greater than expected.

⚠️ Today this annotation only woks on Linux. You can work on this issue to make the RSS annotations work on MacOS.

πŸ”§ Parameters

Parameter Type Meaning
value long value
unit AllocationUnit RAM unit

Profile or check your JVM

With the following annotations, the JVM is profiled with the JDK Flight Recorder (JFR), an event recorder built into the JVM.

The profiling content is saved in a .jfr file.

⚠️ JFR profiling works with

@ProfileJvm

To profile the JVM with the JDK Flight Recorder (JFR).

The JFR file location is shown in the console. You can open it with Java Mission Control.

@ProfileJvm also displays some JVM profiling data (GC times, heap allocation estimation, exception numbers, ...) in standard output.

πŸ”Ž Example

[QUICK PERF] JVM was profiled with Java Flight Recorder (JFR).
The recording file is available here: C:\Users\JEANBI~1\AppData\Local\Temp\QuickPerf-9292511997956298899\jvm-profiling.jfr
You can open it with Java Mission Control (JMC).
Where to find Java Mission Control? πŸ‘‰ https://tinyurl.com/find-jmc
------------------------------------------------------------------------------
 ALLOCATION (estimations)     |   GARBAGE COLLECTION           |  THROWABLE
 Total       : 3,68Β GiB       |   Total pause     : 1,264Β s    |  Exception: 0
 Inside TLAB : 3,67Β GiB       |   Longest GC pause: 206,519Β ms |  Error    : 36
 Outside TLAB: 12,7Β MiB       |   Young: 13                    |  Throwable: 36
 Allocation rate: 108.1 MiB/s |   Old  : 3                     |
------------------------------------------------------------------------------
 COMPILATION                  |   CODE CACHE
 Number : 157                 |   The number of full code cache events: 0
 Longest: 1,615Β s             |   
------------------------------------------------------------------------------
 JVM
 Name     : OpenJDK 64-Bit Server VM
 Version  : OpenJDK 64-Bit Server VM (11.0.1+13) for windows-amd64 JRE (11.0.1+13), built on Oct  6 2018 13:18:13 by "mach5one" with MS VC++ 15.5 (VS2017)
 Arguments: -Xms6g -Xmx6g -XX:+FlightRecorder -XX:+UnlockDiagnosticVMOptions -XX:+DebugNonSafepoints -XX:+HeapDumpOnOutOfMemoryError -XX:HeapDumpPath=C:\Users\JEANBI~1\AppData\Local\Temp\QuickPerf-1155358826815951142\heap-dump.hprof -DquickPerfToExecInASpecificJvm=true -DquickPerfWorkingFolder=C:\Users\JEANBI~1\AppData\Local\Temp\QuickPerf-1155358826815951142
------------------------------------------------------------------------------
 HARDWARE
 Hardware threads: 8
 Cores           : 4
 Sockets         : 1
 CPU
		Brand: Intel(R) Core(TM) i7-8550U CPU @ 1.80GHz, Vendor: GenuineIntel
		Family: <unknown> (0x6), Model: <unknown> (0x8e), Stepping: 0xa
		Ext. family: 0x0, Ext. model: 0x8, Type: 0x0, Signature: 0x000806ea
		Features: ebx: 0x03100800, ecx: 0xfedaf387, edx: 0xbfebfbff
		Ext. features: eax: 0x00000000, ebx: 0x00000000, ecx: 0x00000121, edx: 0x2c100800
		Supports: On-Chip FPU, Virtual Mode Extensions, Debugging Extensions, Page Size Extensions, Time Stamp Counter, Model Specific Registers, Physical Address Extension, Machine Check Exceptions, CMPXCHG8B Instruction, On-Chip APIC, Fast System Call, Memory Type Range Registers, Page Global Enable, Machine Check Architecture, Conditional Mov Instruction, Page Attribute Table, 36-bit Page Size Extension, CLFLUSH Instruction, Debug Trace Store feature, ACPI registers in MSR space, Intel Architecture MMX Technology, Fast Float Point Save and Restore, Streaming SIMD extensions, Streaming SIMD extensions 2, Self-Snoop, Hyper Threading, Thermal Monitor, Streaming SIMD Extensions 3, PCLMULQDQ, 64-bit DS Area, Enhanced Intel SpeedStep technology, Thermal Monitor 2, Supplemental Streaming SIMD Extensions 3, Fused Multiply-Add, CMPXCHG16B, xTPR Update Control, Perfmon and Debug Capability, Process-context identifiers, Streaming SIMD extensions 4.1, Streaming SIMD extensions 4.2, MOVBE, Popcount instruction, AESNI, XSAVE, OSXSAVE, AVX, F16C, LAHF/SAHF instruction support, Advanced Bit Manipulations: LZCNT, SYSCALL/SYSRET, Execute Disable Bit, RDTSCP, Intel 64 Architecture, Invariant TSC
------------------------------------------------------------------------------

πŸ’‘ Where to find Java Mission Control (JMC)?

There are several ways to get JMC:

 yum install rh-jmc

@ExpectNoJvmIssue

Today we consider this annotation as experimental.

With this annotation, JVM is profiled with Java Flight Recorder (JFR).

Based on the profiling, some JMC rules are evaluated. For each rule a score is attributed. The maximum score value is 100. The test will fail if one rule has a score greater than this expected (by default 60)

Things like significant primitives to object conversions can be detected:

πŸ’‘ With this annotation you can also detect that most of the time is spent to do garbage collection in your test.

πŸ’‘ If you have the following message in the console

Rule: Stackdepth Setting
Severity: WARNING
Score: 97
Message: Some stack traces were truncated in this recording.

then you can increase the stack depth value in this way:

@JvmOptions("-XX:FlightRecorderOptions=stackdepth=128")

πŸ”§ Parameters

Parameter Type Meaning Default value
score int Rule score (<=100) 60

Test examples

With JUnit 4

With JUnit 5

With TestNG

Annotations

πŸ‘‰ Β Core

πŸ‘‰ Β JVM

πŸ‘‰ Β SQL

πŸ‘‰ Β Scopes

πŸ‘‰ Β Create an annotation

Supported frameworks

πŸ‘‰ Β JUnit 4

πŸ‘‰ Β JUnit 5

πŸ‘‰ Β TestNG

πŸ‘‰ Β Spring

How to

πŸ‘‰ Β Detect and fix N+1 SELECT

Project examples

πŸ‘‰ Β Maven performance

πŸ‘‰ Β Spring Boot - JUnit 4

πŸ‘‰ Β Spring Boot - JUnit 5

πŸ‘‰ Β Micronaut Data - JUnit 5

πŸ‘‰ Β Micronaut - Spring - JUnit 5

πŸ‘‰ Β Quarkus - JUnit 5

Miscellaneous

πŸ‘‰ Β FAQ

πŸ‘‰ Β QuickPerf code

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