# Elasticsearch Microbenchmark Suite This directory contains the microbenchmark suite of Elasticsearch. It relies on [JMH](http://openjdk.java.net/projects/code-tools/jmh/). ## Purpose We do not want to microbenchmark everything but the kitchen sink and should typically rely on our [macrobenchmarks](https://elasticsearch-benchmarks.elastic.co/app/kibana#/dashboard/Nightly-Benchmark-Overview) with [Rally](http://github.com/elastic/rally). Microbenchmarks are intended to spot performance regressions in performance-critical components. The microbenchmark suite is also handy for ad-hoc microbenchmarks but please remove them again before merging your PR. ## Getting Started Just run `gradlew -p benchmarks run` from the project root directory. It will build all microbenchmarks, execute them and print the result. ## Running Microbenchmarks Running via an IDE is not supported as the results are meaningless because we have no control over the JVM running the benchmarks. If you want to run a specific benchmark class like, say, `MemoryStatsBenchmark`, you can use `--args`: ``` gradlew -p benchmarks run --args ' MemoryStatsBenchmark' ``` Everything in the `'` gets sent on the command line to JMH. The leading ` ` inside the `'`s is important. Without it parameters are sometimes sent to gradle. ## Adding Microbenchmarks Before adding a new microbenchmark, make yourself familiar with the JMH API. You can check our existing microbenchmarks and also the [JMH samples](http://hg.openjdk.java.net/code-tools/jmh/file/tip/jmh-samples/src/main/java/org/openjdk/jmh/samples/). In contrast to tests, the actual name of the benchmark class is not relevant to JMH. However, stick to the naming convention and end the class name of a benchmark with `Benchmark`. To have JMH execute a benchmark, annotate the respective methods with `@Benchmark`. ## Tips and Best Practices To get realistic results, you should exercise care when running benchmarks. Here are a few tips: ### Do * Ensure that the system executing your microbenchmarks has as little load as possible. Shutdown every process that can cause unnecessary runtime jitter. Watch the `Error` column in the benchmark results to see the run-to-run variance. * Ensure to run enough warmup iterations to get the benchmark into a stable state. If you are unsure, don't change the defaults. * Avoid CPU migrations by pinning your benchmarks to specific CPU cores. On Linux you can use `taskset`. * Fix the CPU frequency to avoid Turbo Boost from kicking in and skewing your results. On Linux you can use `cpufreq-set` and the `performance` CPU governor. * Vary the problem input size with `@Param`. * Use the integrated profilers in JMH to dig deeper if benchmark results to not match your hypotheses: * Add `-prof gc` to the options to check whether the garbage collector runs during a microbenchmarks and skews your results. If so, try to force a GC between runs (`-gc true`) but watch out for the caveats. * Add `-prof perf` or `-prof perfasm` (both only available on Linux) to see hotspots. * Have your benchmarks peer-reviewed. ### Don't * Blindly believe the numbers that your microbenchmark produces but verify them by measuring e.g. with `-prof perfasm`. * Run more threads than your number of CPU cores (in case you run multi-threaded microbenchmarks). * Look only at the `Score` column and ignore `Error`. Instead take countermeasures to keep `Error` low / variance explainable. ## Disassembling Disassembling is fun! Maybe not always useful, but always fun! Generally, you'll want to install `perf` and FCML's `hsdis`. `perf` is generally available via `apg-get install perf` or `pacman -S perf`. FCML is a little more involved. This worked on 2020-08-01: ``` wget https://github.com/swojtasiak/fcml-lib/releases/download/v1.2.2/fcml-1.2.2.tar.gz tar xf fcml* cd fcml* ./configure make cd example/hsdis make sudo cp .libs/libhsdis.so.0.0.0 /usr/lib/jvm/java-14-adoptopenjdk/lib/hsdis-amd64.so ``` If you want to disassemble a single method do something like this: ``` gradlew -p benchmarks run --args ' MemoryStatsBenchmark -jvmArgs "-XX:+UnlockDiagnosticVMOptions -XX:CompileCommand=print,*.yourMethodName -XX:PrintAssemblyOptions=intel" ``` If you want `perf` to find the hot methods for you then do add `-prof:perfasm`.