Bent automates downloading, compiling, and running Go tests and benchmarks from various Github repositories. By default the test/benchmark is run in a Docker container to provide some safety against accidentally making a mess on the benchmark-running machine.
Installation: go get github.com/dr2chase/bent
Depends on burntsushi/toml, and expects that Docker is installed and available on the command line. You can avoid the need for Docker with the -U
command line flag, if you're okay with running benchmarks outside containers. Alternately, if you wish to only run those benchmarks that can be compiled into a container (this is platform-dependent) use the -S flag.
Install rsync
for slightly improved copy performance.
Initial usage :
go install golang.org/x/benchmarks/cmd/bent@latest mkdir scratch cd scratch bent -I cp configurations-sample.toml configurations.toml nano configurations.toml # or use your favorite editor bent -v # will run default set of ~50 benchmarks using supplied configuration(s)
Bent now comes with several shell scripts to automate common uses. These all run using perflock
if it is available, and default to different numbers of builds (usually 1) and benchmark runs (usually 15) which can be overridden at invocation.
cmpcl.sh refs/changes/<nn>/<cl>/<patch> [options]
This checks out a particular version of a CL, and its immediate predecessor, and benchmarks the change. The refs/changes/<nn>/<cl>/<patch>
parameter is the same one that appears as a Gerrit download option for the CL. The default is to build once, benchmark 15 times. The results are also uploaded with benchsave
to perf.golang.org.
cmpjob.sh <branch-or-tag> <branch-or-tag> [options]
This checks out two particular tag or branches, and benchmarks the difference. This can be helpful when binary-searching a performance regression. The default is to build once, benchmark 15 times. The results are also uploaded with benchsave
to perf.golang.org.
cronjob.sh [options]
This checks out the current development tip and the most recent release (e.g. 1.14) and benchmarks their difference. This can be helpful for nightly performance monitoring. The default is to build 25 times and benchmark 25 times. The results are also uploaded with benchsave
to perf.golang.org. The script also contains glue to tweet the results, but by default this will silently do nothing.
cmpcl-phase.sh refs/changes/<nn>/<cl>/<patch> [options]
This checks out a particular version of a CL, and its immediate predecessor, compiles each once with the ssa phase timing flag turned on, does not run benchmarks, and feeds the log (with all the embedded phase timings) to phase-times to help spot any bad performance trends in the new CL. The resulting CSVs can be imported into a spreadsheet and graphed (select the “Test” sheet and scroll down below the vast table of numbers, there is a pretty chart).
The output binaries are placed in subdirectory testbin, and various benchmark results (from building, run, and others requested) are placed in subdirectory bench, and the binaries are also incorporated into Docker containers if Docker is used. Each benchmark and configuration has a shortname, and the generated binaries combine these shortnames, for example gonum_mat_Tip
and gonum_mat_Go1.9
. Benchmark files are prefixed with a run timestamp, and grouped by configuration, with various suffixes for the various benchmarks. Run benchmarks appears in files with suffix .stdout
. Others are more obviously named, with suffixes .build
, .benchsize
, and .benchdwarf
.
Flags for your use:
Flag | meaning | example |
---|---|---|
-v | print commands as they are run | |
-N x | benchmark/test repeat count | -N 25 |
-B file | benchmarks file | -B benchmarks-trial.toml |
-C file | configurations file | -C conf_1.9_and_tip.toml |
-S | exclude unsandboxable benchmarks | |
-U | don't sandbox benchmarks | |
-b list | run benchmarks in comma-separated list (even if normally “disabled” ) | -b uuid,gonum_topo |
-c list | use configurations from comma-separated list (even if normally “disabled”) | -c Tip,Go1.9 |
-r string | skip get and build, just run. string names Docker image if needed, if not using Docker any non-empty will do. | -r f10cecc3eaac |
-a N | repeat builds for build benchmarking | -a 10 |
-s k | (build) shuffle flag, k = 0,1,2,3. Randomizes build orders to reduce sensitivity to other machine load | -s 2 |
-g | get benchmarks, but do not build or run | |
-l | list available benchmarks and configurations, then exit | |
-T | run tests instead of benchmarks | |
-W | print benchmark information as a markdown table |
Benchmarks and configurations appear in toml format, since that is somewhat more human-friendly than JSON and in particular allows comments. A sample benchmark entry:
[[Benchmarks]] Name = "gonum_topo" Repo = "gonum.org/v1/gonum/graph/topo/" Tests = "Test" Benchmarks = "Benchmark(TarjanSCCGnp_1000_half|TarjanSCCGnp_10_tenth)" BuildFlags = ["-tags", "purego"] RunWrapper = ["tmpclr"] # this benchmark leaves messes # NotSandboxed = true # uncomment if cannot be run in a Docker container # Disabled = true # uncomment to disable benchmark
Here, Name
is a short name, Repo
is where the go get
will find the benchmark, and Tests
and Benchmarks
and the regular expressions for go test
specifying which tests or benchmarks to run.
A sample configuration entry with all the options supplied:
[[Configurations]] Name = "Go-preempt" Root = "$HOME/work/go/" # Optional flags below BuildFlags = ["-gccgoflags=all=-O3 -static-libgo","-tags=noasm"] # for Gollvm AfterBuild = ["benchsize", "benchdwarf"] GcFlags = "-d=ssa/insert_resched_checks/on" GcEnv = ["GOMAXPROCS=1","GOGC=200"] RunFlags = ["-test.short"] RunEnv = ["GOGC=1000"] RunWrapper = ["cpuprofile"] Disabled = false
The Gc...
attributes apply to the test or benchmark compilation, the Run...
attributes apply to the test or benchmark run. A RunWrapper
command receives the entire command line as arguments, plus the environment variable BENT_BINARY
set to the filename (excluding path) of the binary being run (for example, “uuid_Tip”) and BENT_I
set to the run number for this binary. One useful example is cpuprofile
:
#!/bin/bash # Run args as command, but run cpuprofile and then pprof to capture test cpuprofile output pf="${BENT_BINARY}_${BENT_I}.prof" "$@" -test.cpuprofile="$pf" echo cpuprofile in `pwd`/"$mf" go tool pprof -text -flat -nodecount=20 "$pf"
When both configuration and benchmark wrappers are used the configuration wrapper runs the benchmark wrapper runs the actual benchmark, i.e.
ConfigWrapper ConfigArg BenchWrapper BenchArg ActualBenchmark
The Disabled
attribute for both benchmarks and configurations removes them from normal use, but leaves them accessible to explicit request with -b
or -c
.