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The C based gRPC (C++, Python, Ruby, Objective-C, PHP, C#)
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# Overview of performance test suite |
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For design of the tests, see https://grpc.io/docs/guides/benchmarking. |
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This document contains documentation of on how to run gRPC end-to-end benchmarks |
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using the gRPC OSS benchmarks framework (recommended) or how to run them |
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manually (for experts only). |
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## Approach 1: Use gRPC OSS benchmarks framework (Recommended) |
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### gRPC OSS benchmarks |
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The scripts in this section generate LoadTest configurations for the GKE-based |
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gRPC OSS benchmarks framework. This framework is stored in a separate |
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repository, [grpc/test-infra]. |
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These scripts, together with tools defined in [grpc/test-infra], are used in the |
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continuous integration setup defined in [grpc_e2e_performance_gke.sh] and |
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[grpc_e2e_performance_gke_experiment.sh]. |
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#### Generating scenarios |
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The benchmarks framework uses the same test scenarios as the legacy one. The |
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script [scenario_config_exporter.py](./scenario_config_exporter.py) can be used |
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to export these scenarios to files, and also to count and analyze existing |
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scenarios. |
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The language(s) and category of the scenarios are of particular importance to |
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the tests. Continuous runs will typically run tests in the `scalable` category. |
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The following example counts scenarios in the `scalable` category: |
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``` |
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$ ./tools/run_tests/performance/scenario_config_exporter.py --count_scenarios --category=scalable |
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Scenario count for all languages (category: scalable): |
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Count Language Client Server Categories |
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56 c++ scalable |
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19 python_asyncio scalable |
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16 java scalable |
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12 go scalable |
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12 node scalable |
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9 csharp scalable |
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9 dotnet scalable |
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7 python scalable |
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5 ruby scalable |
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4 csharp c++ scalable |
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4 dotnet c++ scalable |
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4 php7 c++ scalable |
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4 php7_protobuf_c c++ scalable |
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3 python_asyncio c++ scalable |
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2 ruby c++ scalable |
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2 python c++ scalable |
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1 csharp c++ scalable |
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1 dotnet c++ scalable |
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170 total scenarios (category: scalable) |
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``` |
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Client and server languages are only set for cross-language scenarios, where the |
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client or server language do not match the scenario language. |
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#### Generating load test configurations |
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The benchmarks framework uses LoadTest resources configured by YAML files. Each |
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LoadTest resource specifies a driver, a server, and one or more clients to run |
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the test. Each test runs one scenario. The scenario configuration is embedded in |
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the LoadTest configuration. Example configurations for various languages can be |
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found here: |
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https://github.com/grpc/test-infra/tree/master/config/samples |
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The script [loadtest_config.py](./loadtest_config.py) generates LoadTest |
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configurations for tests running a set of scenarios. The configurations are |
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written in multipart YAML format, either to a file or to stdout. Each |
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configuration contains a single embedded scenario. |
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The LoadTest configurations are generated from a template. Any configuration can |
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be used as a template, as long as it contains the languages required by the set |
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of scenarios we intend to run (for instance, if we are generating configurations |
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to run go scenarios, the template must contain a go client and a go server; if |
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we are generating configurations for cross-language scenarios that need a go |
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client and a C++ server, the template must also contain a C++ server; and the |
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same for all other languages). |
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The LoadTests specified in the script output all have unique names and can be |
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run by applying the test to a cluster running the LoadTest controller with |
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`kubectl apply`: |
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``` |
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$ kubectl apply -f loadtest_config.yaml |
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``` |
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> Note: The most common way of running tests generated by this script is to use |
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> a _test runner_. For details, see [running tests](#running-tests). |
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A basic template for generating tests in various languages can be found here: |
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[loadtest_template_basic_all_languages.yaml](./templates/loadtest_template_basic_all_languages.yaml). |
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The following example generates configurations for C# and Java tests using this |
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template, including tests against C++ clients and servers, and running each test |
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twice: |
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``` |
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$ ./tools/run_tests/performance/loadtest_config.py -l go -l java \ |
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-t ./tools/run_tests/performance/templates/loadtest_template_basic_all_languages.yaml \ |
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-s client_pool=workers-8core -s driver_pool=drivers \ |
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-s server_pool=workers-8core \ |
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-s big_query_table=e2e_benchmarks.experimental_results \ |
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-s timeout_seconds=3600 --category=scalable \ |
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-d --allow_client_language=c++ --allow_server_language=c++ \ |
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--runs_per_test=2 -o ./loadtest.yaml |
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``` |
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The script `loadtest_config.py` takes the following options: |
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- `-l`, `--language`<br> Language to benchmark. May be repeated. |
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- `-t`, `--template`<br> Template file. A template is a configuration file that |
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may contain multiple client and server configuration, and may also include |
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substitution keys. |
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- `-s`, `--substitution` Substitution keys, in the format `key=value`. These |
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keys are substituted while processing the template. Environment variables that |
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are set by the load test controller at runtime are ignored by default |
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(`DRIVER_PORT`, `KILL_AFTER`, `POD_TIMEOUT`). The user can override this |
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behavior by specifying these variables as keys. |
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- `-p`, `--prefix`<br> Test names consist of a prefix_joined with a uuid with a |
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dash. Test names are stored in `metadata.name`. The prefix is also added as |
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the `prefix` label in `metadata.labels`. The prefix defaults to the user name |
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if not set. |
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- `-u`, `--uniquifier_element`<br> Uniquifier elements may be passed to the test |
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to make the test name unique. This option may be repeated to add multiple |
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elements. The uniquifier elements (plus a date string and a run index, if |
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applicable) are joined with a dash to form a _uniquifier_. The test name uuid |
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is derived from the scenario name and the uniquifier. The uniquifier is also |
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added as the `uniquifier` annotation in `metadata.annotations`. |
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- `-d`<br> This option is a shorthand for the addition of a date string as a |
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uniquifier element. |
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- `-a`, `--annotation`<br> Metadata annotation to be stored in |
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`metadata.annotations`, in the form key=value. May be repeated. |
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- `-r`, `--regex`<br> Regex to select scenarios to run. Each scenario is |
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embedded in a LoadTest configuration containing a client and server of the |
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language(s) required for the test. Defaults to `.*`, i.e., select all |
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scenarios. |
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- `--category`<br> Select scenarios of a specified _category_, or of all |
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categories. Defaults to `all`. Continuous runs typically run tests in the |
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`scalable` category. |
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- `--allow_client_language`<br> Allows cross-language scenarios where the client |
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is of a specified language, different from the scenario language. This is |
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typically `c++`. This flag may be repeated. |
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- `--allow_server_language`<br> Allows cross-language scenarios where the server |
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is of a specified language, different from the scenario language. This is |
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typically `node` or `c++`. This flag may be repeated. |
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- `--instances_per_client`<br> This option generates multiple instances of the |
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clients for each test. The instances are named with the name of the client |
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combined with an index (or only an index, if no name is specified). If the |
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template specifies more than one client for a given language, it must also |
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specify unique names for each client. In the most common case, the template |
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contains only one unnamed client for each language, and the instances will be |
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named `0`, `1`, ... |
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- `--runs_per_test`<br> This option specifies that each test should be repeated |
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`n` times, where `n` is the value of the flag. If `n` > 1, the index of each |
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test run is added as a uniquifier element for that run. |
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- `-o`, `--output`<br> Output file name. The LoadTest configurations are added |
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to this file, in multipart YAML format. Output is streamed to `sys.stdout` if |
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not set. |
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The script adds labels and annotations to the metadata of each LoadTest |
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configuration: |
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The following labels are added to `metadata.labels`: |
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- `language`<br> The language of the LoadTest scenario. |
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- `prefix`<br> The prefix used in `metadata.name`. |
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The following annotations are added to `metadata.annotations`: |
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- `scenario`<br> The name of the LoadTest scenario. |
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- `uniquifier`<br> The uniquifier used to generate the LoadTest name, including |
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the run index if applicable. |
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[Labels](https://kubernetes.io/docs/concepts/overview/working-with-objects/labels/) |
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can be used in selectors in resource queries. Adding the prefix, in particular, |
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allows the user (or an automation script) to select the resources started from a |
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given run of the config generator. |
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[Annotations](https://kubernetes.io/docs/concepts/overview/working-with-objects/annotations/) |
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contain additional information that is available to the user (or an automation |
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script) but is not indexed and cannot be used to select objects. Scenario name |
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and uniquifier are added to provide the elements of the LoadTest name uuid in |
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human-readable form. Additional annotations may be added later for automation. |
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#### Concatenating load test configurations |
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The LoadTest configuration generator can process multiple languages at a time, |
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assuming that they are supported by the template. The convenience script |
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[loadtest_concat_yaml.py](./loadtest_concat_yaml.py) is provided to concatenate |
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several YAML files into one, so configurations generated by multiple generator |
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invocations can be concatenated into one and run with a single command. The |
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script can be invoked as follows: |
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``` |
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$ loadtest_concat_yaml.py -i infile1.yaml infile2.yaml -o outfile.yaml |
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``` |
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#### Generating load test examples |
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The script [loadtest_examples.sh](./loadtest_examples.sh) is provided to |
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generate example load test configurations in all supported languages. This |
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script takes only one argument, which is the output directory where the |
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configurations will be created. The script produces a set of basic |
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configurations, as well as a set of template configurations intended to be used |
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with prebuilt images. |
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The [examples](https://github.com/grpc/test-infra/tree/master/config/samples) in |
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the repository [grpc/test-infra] are generated by this script. |
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#### Generating configuration templates |
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The script [loadtest_template.py](./loadtest_template.py) generates a load test |
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configuration template from a set of load test configurations. The source files |
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may be load test configurations or load test configuration templates. The |
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generated template supports all languages supported in any of the input |
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configurations or templates. |
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The example template in |
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[loadtest_template_basic_template_all_languages.yaml](./templates/loadtest_template_basic_all_languages.yaml) |
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was generated from the example configurations in [grpc/test-infra] by the |
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following command: |
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``` |
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$ ./tools/run_tests/performance/loadtest_template.py \ |
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-i ../test-infra/config/samples/*_example_loadtest.yaml \ |
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--inject_client_pool --inject_server_pool \ |
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--inject_big_query_table --inject_timeout_seconds \ |
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-o ./tools/run_tests/performance/templates/loadtest_template_basic_all_languages.yaml \ |
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--name basic_all_languages |
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``` |
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The example template with prebuilt images in |
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[loadtest_template_prebuilt_all_languages.yaml](./templates/loadtest_template_prebuilt_all_languages.yaml) |
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was generated by the following command: |
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``` |
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$ ./tools/run_tests/performance/loadtest_template.py \ |
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-i ../test-infra/config/samples/templates/*_example_loadtest_with_prebuilt_workers.yaml \ |
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--inject_client_pool --inject_driver_image --inject_driver_pool \ |
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--inject_server_pool --inject_big_query_table --inject_timeout_seconds \ |
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-o ./tools/run_tests/performance/templates/loadtest_template_prebuilt_all_languages.yaml \ |
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--name prebuilt_all_languages |
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``` |
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The script `loadtest_template.py` takes the following options: |
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- `-i`, `--inputs`<br> Space-separated list of the names of input files |
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containing LoadTest configurations. May be repeated. |
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- `-o`, `--output`<br> Output file name. Outputs to `sys.stdout` if not set. |
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- `--inject_client_pool`<br> If this option is set, the pool attribute of all |
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clients in `spec.clients` is set to `${client_pool}`, for later substitution. |
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- `--inject_driver_image`<br> If this option is set, the image attribute of the |
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driver(s) in `spec.drivers` is set to `${driver_image}`, for later |
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substitution. |
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- `--inject_driver_pool`<br> If this attribute is set, the pool attribute of the |
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driver(s) is set to `${driver_pool}`, for later substitution. |
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- `--inject_server_pool`<br> If this option is set, the pool attribute of all |
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servers in `spec.servers` is set to `${server_pool}`, for later substitution. |
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- `--inject_big_query_table`<br> If this option is set, |
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spec.results.bigQueryTable is set to `${big_query_table}`. |
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- `--inject_timeout_seconds`<br> If this option is set, `spec.timeoutSeconds` is |
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set to `${timeout_seconds}`. |
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- `--inject_ttl_seconds`<br> If this option is set, `spec.ttlSeconds` is set to |
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`${ttl_seconds}`. |
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- `-n`, `--name`<br> Name to be set in `metadata.name`. |
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- `-a`, `--annotation`<br> Metadata annotation to be stored in |
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`metadata.annotations`, in the form key=value. May be repeated. |
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The options that inject substitution keys are the most useful for template |
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reuse. When running tests on different node pools, it becomes necessary to set |
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the pool, and usually also to store the data on a different table. When running |
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as part of a larger collection of tests, it may also be necessary to adjust test |
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timeout and time-to-live, to ensure that all tests have time to complete. |
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The template name is replaced again by `loadtest_config.py`, and so is set only |
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as a human-readable memo. |
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Annotations, on the other hand, are passed on to the test configurations, and |
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may be set to values or to substitution keys in themselves, allowing future |
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automation scripts to process the tests generated from these configurations in |
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different ways. |
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#### Running tests |
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Collections of tests generated by `loadtest_config.py` are intended to be run |
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with a test runner. The code for the test runner is stored in a separate |
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repository, [grpc/test-infra]. |
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The test runner applies the tests to the cluster, and monitors the tests for |
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completion while they are running. The test runner can also be set up to run |
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collections of tests in parallel on separate node pools, and to limit the number |
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of tests running in parallel on each pool. |
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For more information, see the |
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[tools README](https://github.com/grpc/test-infra/blob/master/tools/README.md) |
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in [grpc/test-infra]. |
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For usage examples, see the continuous integration setup defined in |
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[grpc_e2e_performance_gke.sh] and [grpc_e2e_performance_gke_experiment.sh]. |
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[grpc/test-infra]: https://github.com/grpc/test-infra |
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[grpc_e2e_performance_gke.sh]: ../../internal_ci/linux/grpc_e2e_performance_gke.sh |
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[grpc_e2e_performance_gke_experiment.sh]: ../../internal_ci/linux/grpc_e2e_performance_gke_experiment.sh |
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## Approach 2: Running benchmarks locally via legacy tooling (still useful sometimes) |
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This approach is much more involved than using the gRPC OSS benchmarks framework |
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(see above), but can still be useful for hands-on low-level experiments |
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(especially when you know what you are doing). |
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### Prerequisites for running benchmarks manually: |
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In general the benchmark workers and driver build scripts expect |
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[linux_performance_worker_init.sh](../../gce/linux_performance_worker_init.sh) |
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to have been ran already. |
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### To run benchmarks locally: |
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- From the grpc repo root, start the |
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[run_performance_tests.py](../run_performance_tests.py) runner script. |
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### On remote machines, to start the driver and workers manually: |
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The [run_performance_test.py](../run_performance_tests.py) top-level runner |
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script can also be used with remote machines, but for e.g., profiling the |
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server, it might be useful to run workers manually. |
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1. You'll need a "driver" and separate "worker" machines. For example, you might |
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use one GCE "driver" machine and 3 other GCE "worker" machines that are in |
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the same zone. |
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2. Connect to each worker machine and start up a benchmark worker with a |
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"driver_port". |
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- For example, to start the grpc-go benchmark worker: |
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[grpc-go worker main.go](https://github.com/grpc/grpc-go/blob/master/benchmark/worker/main.go) |
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--driver_port <driver_port> |
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#### Commands to start workers in different languages: |
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- Note that these commands are what the top-level |
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[run_performance_test.py](../run_performance_tests.py) script uses to build |
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and run different workers through the |
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[build_performance.sh](./build_performance.sh) script and "run worker" scripts |
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(such as the [run_worker_java.sh](./run_worker_java.sh)). |
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##### Running benchmark workers for C-core wrapped languages (C++, Python, C#, Node, Ruby): |
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- These are more simple since they all live in the main grpc repo. |
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``` |
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$ cd <grpc_repo_root> |
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$ tools/run_tests/performance/build_performance.sh |
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$ tools/run_tests/performance/run_worker_<language>.sh |
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``` |
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- Note that there is one "run_worker" script per language, e.g., |
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[run_worker_csharp.sh](./run_worker_csharp.sh) for c#. |
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##### Running benchmark workers for gRPC-Java: |
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- You'll need the [grpc-java](https://github.com/grpc/grpc-java) repo. |
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``` |
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$ cd <grpc-java-repo> |
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$ ./gradlew -PskipCodegen=true -PskipAndroid=true :grpc-benchmarks:installDist |
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$ benchmarks/build/install/grpc-benchmarks/bin/benchmark_worker --driver_port <driver_port> |
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``` |
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##### Running benchmark workers for gRPC-Go: |
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- You'll need the [grpc-go repo](https://github.com/grpc/grpc-go) |
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``` |
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$ cd <grpc-go-repo>/benchmark/worker && go install |
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$ # if profiling, it might be helpful to turn off inlining by building with "-gcflags=-l" |
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$ $GOPATH/bin/worker --driver_port <driver_port> |
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``` |
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#### Build the driver: |
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- Connect to the driver machine (if using a remote driver) and from the grpc |
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repo root: |
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``` |
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$ tools/run_tests/performance/build_performance.sh |
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``` |
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#### Run the driver: |
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1. Get the 'scenario_json' relevant for the scenario to run. Note that "scenario |
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json" configs are generated from [scenario_config.py](./scenario_config.py). |
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The [driver](../../../test/cpp/qps/qps_json_driver.cc) takes a list of these |
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configs as a json string of the form: `{scenario: <json_list_of_scenarios> }` |
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in its `--scenarios_json` command argument. One quick way to get a valid json |
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string to pass to the driver is by running the |
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[run_performance_tests.py](./run_performance_tests.py) locally and copying |
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the logged scenario json command arg. |
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2. From the grpc repo root: |
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- Set `QPS_WORKERS` environment variable to a comma separated list of worker |
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machines. Note that the driver will start the "benchmark server" on the first |
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entry in the list, and the rest will be told to run as clients against the |
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benchmark server. |
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Example running and profiling of go benchmark server: |
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``` |
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$ export QPS_WORKERS=<host1>:<10000>,<host2>,10000,<host3>:10000 |
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$ bins/opt/qps_json_driver --scenario_json='<scenario_json_scenario_config_string>' |
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``` |
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### Example profiling commands |
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While running the benchmark, a profiler can be attached to the server. |
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Example to count syscalls in grpc-go server during a benchmark: |
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- Connect to server machine and run: |
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``` |
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$ netstat -tulpn | grep <driver_port> # to get pid of worker |
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$ perf stat -p <worker_pid> -e syscalls:sys_enter_write # stop after test complete |
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``` |
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Example memory profile of grpc-go server, with `go tools pprof`: |
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- After a run is done on the server, see its alloc profile with: |
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``` |
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$ go tool pprof --text --alloc_space http://localhost:<pprof_port>/debug/heap |
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``` |
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### Configuration environment variables: |
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- QPS_WORKER_CHANNEL_CONNECT_TIMEOUT |
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Consuming process: qps_worker |
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Type: integer (number of seconds) |
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This can be used to configure the amount of time that benchmark clients wait |
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for channels to the benchmark server to become ready. This is useful in |
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certain benchmark environments in which the server can take a long time to |
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become ready. Note: if setting this to a high value, then the scenario config |
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under test should probably also have a large "warmup_seconds". |
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- QPS_WORKERS |
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Consuming process: qps_json_driver |
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Type: comma separated list of host:port |
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Set this to a comma separated list of QPS worker processes/machines. Each |
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scenario in a scenario config has specifies a certain number of servers, |
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`num_servers`, and the driver will start "benchmark servers"'s on the first |
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`num_server` `host:port` pairs in the comma separated list. The rest will be |
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told to run as clients against the benchmark server.
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