The readme is out of date, this fork is used to do some specific benchmarks. Check the shell scripts, pom.xml and src files for more information on how to run it.
Click here to view unscaled version
ConnectionCycle measures cycles of DataSource.getConnection()/Connection.close()
. StatementCycle measures cycles of Connection.prepareStatement()
, Statement.execute()
, Statement.close()
.
This set of microbenchmaks was developed to refine the HikariCP JDBC connection pool implementation, but it actually runs the same benchmarks across multiple pools.
We have come to understand that benchmarking on the JVM, which employs Dead Code Elimination (DCE), lock-coalescing, inlining, loop-unrolling, on-stack replacement (OSR) and a myriad of other tricks, renders most attempts at benchmarking completely invalid -- including our own original benchmarks. Read all the things that [even smart] people get wrong about benchmarking on the JVM.
The Oracle JVM performance team, primarily Aleksey Shipilёv, developed a microbenchmarking framework called JMH. It provides the infrastructure (if used properly) for accurate comparative measurement of JVM-based execution. If you are interested in microbenchmarking at all, or just curious about all the wonderful things the JVM does, I highly recommend reading this slideshare.
git clone https://github.com/brettwooldridge/HikariCP-benchmark.git
cd HikariCP-benchmark
mvn clean package
./benchmark.sh
The benchmark.sh
script is a wrapper around JMH execution. A full run of the benchmark will take about 45 minutes for all pools.
There are several more options you can provide to the benchmark.sh
. There are a lot actually, but these are most useful...
Specify Shorter Runs
There are two options provided by the script: quick
and medium
. quick will take about 5 minutes to run, medium will take about 20 minutes -- for all pools. It is extrememly boring to watch, and you can't do anything else on the PC where the benchmark is running without affecting the results, so have dinner, run some errands, etc.
./benchmark.sh quick
If specified with other options, quick
or medium
must be the first option.
Specify Specific Pools
./benchmark.sh -p pool=hikari,bone
Where pool
is a comma-separated list (hikari, bone, tomcat, c3p0, vibur). Specifying a specific pool or subset of pools will shorten run times.
Specify Pool Size
./benchmark.sh -p maxPoolSize=4
Pool size is only applicable for the Connection Cycle test, attempting to run the Statement Cycle test with a pool smaller than the number of threads (8) will result in testing failures. The Connection Cycle test runs with 8 threads, so to test a contrained pool condition set maxPoolSize to a smaller number (eg. 4). See comments about threading below.
Specify which Benchmark
There are three benchmarks in the suite currently: TRXBench, ConnectionBench and StatementBench. By default all benchmarks are run, but if you want to run one or the other you can use a JMH option using a regex (regular experession) to do so. For example, to only run the StatementBench use:
./benchmark.sh ".*Statement.*"
All of the options can be combined:
./benchmark.sh medium -p pool=hikari,bone -p maxPoolSize=4 ".*Connection.*"
With microbenchmarks, it is typically not valid to test with more threads than cores, i.e. the results are not considered reliable. An Intel Core i7 with 4-physcial cores and 4 HyperThread cores can be run with a thread count of 8 reliably. The further above that number you test, the wider the margin of error.