/* * * Copyright 2015-2016 gRPC authors. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * */ #include #include #include #include #include #include #include #include "test/core/util/test_config.h" #include "test/cpp/qps/benchmark_config.h" #include "test/cpp/qps/driver.h" #include "test/cpp/qps/parse_json.h" #include "test/cpp/qps/report.h" #include "test/cpp/qps/server.h" #include "test/cpp/util/test_config.h" #include "test/cpp/util/test_credentials_provider.h" DEFINE_string(scenarios_file, "", "JSON file containing an array of Scenario objects"); DEFINE_string(scenarios_json, "", "JSON string containing an array of Scenario objects"); DEFINE_bool(quit, false, "Quit the workers"); DEFINE_string(search_param, "", "The parameter, whose value is to be searched for to achieve " "targeted cpu load. For now, we have 'offered_load'. Later, " "'num_channels', 'num_outstanding_requests', etc. shall be " "added."); DEFINE_double( initial_search_value, 0.0, "initial parameter value to start the search with (i.e. lower bound)"); DEFINE_double(targeted_cpu_load, 70.0, "Targeted cpu load (unit: %, range [0,100])"); DEFINE_double(stride, 1, "Defines each stride of the search. The larger the stride is, " "the coarser the result will be, but will also be faster."); DEFINE_double(error_tolerance, 0.01, "Defines threshold for stopping the search. When current search " "range is narrower than the error_tolerance computed range, we " "stop the search."); DEFINE_string(qps_server_target_override, "", "Override QPS server target to configure in client configs." "Only applicable if there is a single benchmark server."); DEFINE_string(json_file_out, "", "File to write the JSON output to."); DEFINE_string(credential_type, grpc::testing::kInsecureCredentialsType, "Credential type for communication with workers"); DEFINE_string( per_worker_credential_types, "", "A map of QPS worker addresses to credential types. When creating a " "channel to a QPS worker's driver port, the qps_json_driver first checks " "if the 'name:port' string is in the map, and it uses the corresponding " "credential type if so. If the QPS worker's 'name:port' string is not " "in the map, then the driver -> worker channel will be created with " "the credentials specified in --credential_type. The value of this flag " "is a semicolon-separated list of map entries, where each map entry is " "a comma-separated pair."); DEFINE_bool(run_inproc, false, "Perform an in-process transport test"); DEFINE_int32( median_latency_collection_interval_millis, 0, "Specifies the period between gathering latency medians in " "milliseconds. The medians will be logged out on the client at the " "end of the benchmark run. If 0, this periodic collection is disabled."); namespace grpc { namespace testing { static std::map ConstructPerWorkerCredentialTypesMap() { // Parse a list of the form: "addr1,cred_type1;addr2,cred_type2;..." into // a map. std::string remaining = FLAGS_per_worker_credential_types; std::map out; while (!remaining.empty()) { size_t next_semicolon = remaining.find(';'); std::string next_entry = remaining.substr(0, next_semicolon); if (next_semicolon == std::string::npos) { remaining = ""; } else { remaining = remaining.substr(next_semicolon + 1, std::string::npos); } size_t comma = next_entry.find(','); if (comma == std::string::npos) { gpr_log(GPR_ERROR, "Expectd --per_worker_credential_types to be a list " "of the form: 'addr1,cred_type1;addr2,cred_type2;...' " "into."); abort(); } std::string addr = next_entry.substr(0, comma); std::string cred_type = next_entry.substr(comma + 1, std::string::npos); if (out.find(addr) != out.end()) { gpr_log(GPR_ERROR, "Found duplicate addr in per_worker_credential_types."); abort(); } out[addr] = cred_type; } return out; } static std::unique_ptr RunAndReport( const Scenario& scenario, const std::map& per_worker_credential_types, bool* success) { std::cerr << "RUNNING SCENARIO: " << scenario.name() << "\n"; auto result = RunScenario(scenario.client_config(), scenario.num_clients(), scenario.server_config(), scenario.num_servers(), scenario.warmup_seconds(), scenario.benchmark_seconds(), !FLAGS_run_inproc ? scenario.spawn_local_worker_count() : -2, FLAGS_qps_server_target_override, FLAGS_credential_type, per_worker_credential_types, FLAGS_run_inproc, FLAGS_median_latency_collection_interval_millis); // Amend the result with scenario config. Eventually we should adjust // RunScenario contract so we don't need to touch the result here. result->mutable_scenario()->CopyFrom(scenario); GetReporter()->ReportQPS(*result); GetReporter()->ReportQPSPerCore(*result); GetReporter()->ReportLatency(*result); GetReporter()->ReportTimes(*result); GetReporter()->ReportCpuUsage(*result); GetReporter()->ReportPollCount(*result); GetReporter()->ReportQueriesPerCpuSec(*result); for (int i = 0; *success && i < result->client_success_size(); i++) { *success = result->client_success(i); } for (int i = 0; *success && i < result->server_success_size(); i++) { *success = result->server_success(i); } if (!FLAGS_json_file_out.empty()) { std::ofstream json_outfile; json_outfile.open(FLAGS_json_file_out); json_outfile << "{\"qps\": " << result->summary().qps() << "}\n"; json_outfile.close(); } return result; } static double GetCpuLoad( Scenario* scenario, double offered_load, const std::map& per_worker_credential_types, bool* success) { scenario->mutable_client_config() ->mutable_load_params() ->mutable_poisson() ->set_offered_load(offered_load); auto result = RunAndReport(*scenario, per_worker_credential_types, success); return result->summary().server_cpu_usage(); } static double BinarySearch( Scenario* scenario, double targeted_cpu_load, double low, double high, const std::map& per_worker_credential_types, bool* success) { while (low <= high * (1 - FLAGS_error_tolerance)) { double mid = low + (high - low) / 2; double current_cpu_load = GetCpuLoad(scenario, mid, per_worker_credential_types, success); gpr_log(GPR_DEBUG, "Binary Search: current_offered_load %.0f", mid); if (!*success) { gpr_log(GPR_ERROR, "Client/Server Failure"); break; } if (targeted_cpu_load <= current_cpu_load) { high = mid - FLAGS_stride; } else { low = mid + FLAGS_stride; } } return low; } static double SearchOfferedLoad( double initial_offered_load, double targeted_cpu_load, Scenario* scenario, const std::map& per_worker_credential_types, bool* success) { std::cerr << "RUNNING SCENARIO: " << scenario->name() << "\n"; double current_offered_load = initial_offered_load; double current_cpu_load = GetCpuLoad(scenario, current_offered_load, per_worker_credential_types, success); if (current_cpu_load > targeted_cpu_load) { gpr_log(GPR_ERROR, "Initial offered load too high"); return -1; } while (*success && (current_cpu_load < targeted_cpu_load)) { current_offered_load *= 2; current_cpu_load = GetCpuLoad(scenario, current_offered_load, per_worker_credential_types, success); gpr_log(GPR_DEBUG, "Binary Search: current_offered_load %.0f", current_offered_load); } double targeted_offered_load = BinarySearch(scenario, targeted_cpu_load, current_offered_load / 2, current_offered_load, per_worker_credential_types, success); return targeted_offered_load; } static bool QpsDriver() { std::string json; bool scfile = (!FLAGS_scenarios_file.empty()); bool scjson = (!FLAGS_scenarios_json.empty()); if ((!scfile && !scjson && !FLAGS_quit) || (scfile && (scjson || FLAGS_quit)) || (scjson && FLAGS_quit)) { gpr_log(GPR_ERROR, "Exactly one of --scenarios_file, --scenarios_json, " "or --quit must be set"); abort(); } auto per_worker_credential_types = ConstructPerWorkerCredentialTypesMap(); if (scfile) { // Read the json data from disk FILE* json_file = fopen(FLAGS_scenarios_file.c_str(), "r"); GPR_ASSERT(json_file != nullptr); fseek(json_file, 0, SEEK_END); long len = ftell(json_file); char* data = new char[len]; fseek(json_file, 0, SEEK_SET); GPR_ASSERT(len == (long)fread(data, 1, len, json_file)); fclose(json_file); json = std::string(data, data + len); delete[] data; } else if (scjson) { json = FLAGS_scenarios_json.c_str(); } else if (FLAGS_quit) { return RunQuit(FLAGS_credential_type, per_worker_credential_types); } // Parse into an array of scenarios Scenarios scenarios; ParseJson(json.c_str(), "grpc.testing.Scenarios", &scenarios); bool success = true; // Make sure that there is at least some valid scenario here GPR_ASSERT(scenarios.scenarios_size() > 0); for (int i = 0; i < scenarios.scenarios_size(); i++) { if (FLAGS_search_param.empty()) { const Scenario& scenario = scenarios.scenarios(i); RunAndReport(scenario, per_worker_credential_types, &success); } else { if (FLAGS_search_param == "offered_load") { Scenario* scenario = scenarios.mutable_scenarios(i); double targeted_offered_load = SearchOfferedLoad( FLAGS_initial_search_value, FLAGS_targeted_cpu_load, scenario, per_worker_credential_types, &success); gpr_log(GPR_INFO, "targeted_offered_load %f", targeted_offered_load); GetCpuLoad(scenario, targeted_offered_load, per_worker_credential_types, &success); } else { gpr_log(GPR_ERROR, "Unimplemented search param"); } } } return success; } } // namespace testing } // namespace grpc int main(int argc, char** argv) { grpc::testing::TestEnvironment env(argc, argv); grpc::testing::InitTest(&argc, &argv, true); bool ok = grpc::testing::QpsDriver(); return ok ? 0 : 1; }