# Overview of performance test suite, with steps for manual runs: For design of the tests, see https://grpc.io/docs/guides/benchmarking.html. ## Pre-reqs for running these manually: In general the benchmark workers and driver build scripts expect [linux_performance_worker_init.sh](../../gce/linux_performance_worker_init.sh) to have been ran already. ### To run benchmarks locally: * From the grpc repo root, start the [run_performance_tests.py](../run_performance_tests.py) runner script. ### On remote machines, to start the driver and workers manually: The [run_performance_test.py](../run_performance_tests.py) top-level runner script can also be used with remote machines, but for e.g., profiling the server, it might be useful to run workers manually. 1. You'll need a "driver" and separate "worker" machines. For example, you might use one GCE "driver" machine and 3 other GCE "worker" machines that are in the same zone. 2. Connect to each worker machine and start up a benchmark worker with a "driver_port". * For example, to start the grpc-go benchmark worker: [grpc-go worker main.go](https://github.com/grpc/grpc-go/blob/master/benchmark/worker/main.go) --driver_port #### Commands to start workers in different languages: * Note that these commands are what the top-level [run_performance_test.py](../run_performance_tests.py) script uses to build and run different workers through the [build_performance.sh](./build_performance.sh) script and "run worker" scripts (such as the [run_worker_java.sh](./run_worker_java.sh)). ##### Running benchmark workers for C-core wrapped languages (C++, Python, C#, Node, Ruby): * These are more simple since they all live in the main grpc repo. ``` $ cd $ tools/run_tests/performance/build_performance.sh $ tools/run_tests/performance/run_worker_.sh ``` * Note that there is one "run_worker" script per language, e.g., [run_worker_csharp.sh](./run_worker_csharp.sh) for c#. ##### Running benchmark workers for gRPC-Java: * You'll need the [grpc-java](https://github.com/grpc/grpc-java) repo. ``` $ cd $ ./gradlew -PskipCodegen=true :grpc-benchmarks:installDist $ benchmarks/build/install/grpc-benchmarks/bin/benchmark_worker --driver_port ``` ##### Running benchmark workers for gRPC-Go: * You'll need the [grpc-go repo](https://github.com/grpc/grpc-go) ``` $ cd /benchmark/worker && go install $ # if profiling, it might be helpful to turn off inlining by building with "-gcflags=-l" $ $GOPATH/bin/worker --driver_port ``` #### Build the driver: * Connect to the driver machine (if using a remote driver) and from the grpc repo root: ``` $ tools/run_tests/performance/build_performance.sh ``` #### Run the driver: 1. Get the 'scenario_json' relevant for the scenario to run. Note that "scenario json" configs are generated from [scenario_config.py](./scenario_config.py). The [driver](../../../test/cpp/qps/qps_json_driver.cc) takes a list of these configs as a json string of the form: `{scenario: }` in its `--scenarios_json` command argument. One quick way to get a valid json string to pass to the driver is by running the [run_performance_tests.py](./run_performance_tests.py) locally and copying the logged scenario json command arg. 2. From the grpc repo root: * Set `QPS_WORKERS` environment variable to a comma separated list of worker machines. Note that the driver will start the "benchmark server" on the first entry in the list, and the rest will be told to run as clients against the benchmark server. Example running and profiling of go benchmark server: ``` $ export QPS_WORKERS=:<10000>,,10000,:10000 $ bins/opt/qps_json_driver --scenario_json='' ``` ### Example profiling commands While running the benchmark, a profiler can be attached to the server. Example to count syscalls in grpc-go server during a benchmark: * Connect to server machine and run: ``` $ netstat -tulpn | grep # to get pid of worker $ perf stat -p -e syscalls:sys_enter_write # stop after test complete ``` Example memory profile of grpc-go server, with `go tools pprof`: * After a run is done on the server, see its alloc profile with: ``` $ go tool pprof --text --alloc_space http://localhost:/debug/heap ``` ### Configuration environment variables: * QPS_WORKER_CHANNEL_CONNECT_TIMEOUT Consuming process: qps_worker Type: integer (number of seconds) This can be used to configure the amount of time that benchmark clients wait for channels to the benchmark server to become ready. This is useful in certain benchmark environments in which the server can take a long time to become ready. Note: if setting this to a high value, then the scenario config under test should probably also have a large "warmup_seconds". * QPS_WORKERS Consuming process: qps_json_driver Type: comma separated list of host:port Set this to a comma separated list of QPS worker processes/machines. Each scenario in a scenario config has specifies a certain number of servers, `num_servers`, and the driver will start "benchmark servers"'s on the first `num_server` `host:port` pairs in the comma separated list. The rest will be told to run as clients against the benchmark server.