// Copyright (C) 2019-2020 Zilliz. All rights reserved. // // 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 #include #include #include #include #include #include "config/Config.h" #include "config/YamlConfigMgr.h" #include "server/DBWrapper.h" #include "thirdparty/nlohmann/json.hpp" #include "utils/CommonUtil.h" #include "utils/Log.h" #include "utils/StringHelpFunctions.h" #include "utils/ValidationUtil.h" namespace milvus { namespace server { constexpr int64_t GB = 1UL << 30; static const std::unordered_map milvus_config_version_map({{"0.6.0", "0.1"}, {"0.7.0", "0.2"}, {"0.7.1", "0.2"}}); ///////////////////////////////////////////////////////////// Config::Config() { auto empty_map = std::unordered_map(); // cache config std::string node_cpu_cache_capacity = std::string(CONFIG_CACHE) + "." + CONFIG_CACHE_CPU_CACHE_CAPACITY; config_callback_[node_cpu_cache_capacity] = empty_map; std::string node_insert_buffer_size = std::string(CONFIG_CACHE) + "." + CONFIG_CACHE_INSERT_BUFFER_SIZE; config_callback_[node_insert_buffer_size] = empty_map; std::string node_cache_insert_data = std::string(CONFIG_CACHE) + "." + CONFIG_CACHE_CACHE_INSERT_DATA; config_callback_[node_cache_insert_data] = empty_map; // engine config std::string node_blas_threshold = std::string(CONFIG_ENGINE) + "." + CONFIG_ENGINE_USE_BLAS_THRESHOLD; config_callback_[node_blas_threshold] = empty_map; // gpu resources config std::string node_gpu_search_threshold = std::string(CONFIG_ENGINE) + "." + CONFIG_ENGINE_GPU_SEARCH_THRESHOLD; config_callback_[node_gpu_search_threshold] = empty_map; std::string node_gpu_enable = std::string(CONFIG_GPU_RESOURCE) + "." + CONFIG_GPU_RESOURCE_ENABLE; config_callback_[node_gpu_enable] = empty_map; std::string node_gpu_cache_capacity = std::string(CONFIG_GPU_RESOURCE) + "." + CONFIG_GPU_RESOURCE_CACHE_CAPACITY; config_callback_[node_gpu_cache_capacity] = empty_map; std::string node_gpu_search_res = std::string(CONFIG_GPU_RESOURCE) + "." + CONFIG_GPU_RESOURCE_SEARCH_RESOURCES; config_callback_[node_gpu_search_res] = empty_map; std::string node_gpu_build_res = std::string(CONFIG_GPU_RESOURCE) + "." + CONFIG_GPU_RESOURCE_BUILD_INDEX_RESOURCES; config_callback_[node_gpu_build_res] = empty_map; } Config& Config::GetInstance() { static Config config_inst; return config_inst; } Status Config::LoadConfigFile(const std::string& filename) { if (filename.empty()) { return Status(SERVER_UNEXPECTED_ERROR, "No specified config file"); } struct stat file_stat; if (stat(filename.c_str(), &file_stat) != 0) { std::string str = "Config file not exist: " + filename; return Status(SERVER_FILE_NOT_FOUND, str); } ConfigMgr* mgr = YamlConfigMgr::GetInstance(); Status s = mgr->LoadConfigFile(filename); if (!s.ok()) { return s; } // store config file path config_file_ = filename; return Status::OK(); } Status Config::ValidateConfig() { std::string config_version; CONFIG_CHECK(GetConfigVersion(config_version)); /* server config */ std::string server_addr; CONFIG_CHECK(GetServerConfigAddress(server_addr)); std::string server_port; CONFIG_CHECK(GetServerConfigPort(server_port)); std::string server_mode; CONFIG_CHECK(GetServerConfigDeployMode(server_mode)); std::string server_time_zone; CONFIG_CHECK(GetServerConfigTimeZone(server_time_zone)); std::string server_web_port; CONFIG_CHECK(GetServerConfigWebPort(server_web_port)); /* db config */ std::string db_backend_url; CONFIG_CHECK(GetDBConfigBackendUrl(db_backend_url)); std::string db_preload_table; CONFIG_CHECK(GetDBConfigPreloadCollection(db_preload_table)); int64_t db_archive_disk_threshold; CONFIG_CHECK(GetDBConfigArchiveDiskThreshold(db_archive_disk_threshold)); int64_t db_archive_days_threshold; CONFIG_CHECK(GetDBConfigArchiveDaysThreshold(db_archive_days_threshold)); int64_t auto_flush_interval; CONFIG_CHECK(GetDBConfigAutoFlushInterval(auto_flush_interval)); /* storage config */ std::string storage_primary_path; CONFIG_CHECK(GetStorageConfigPrimaryPath(storage_primary_path)); std::string storage_secondary_path; CONFIG_CHECK(GetStorageConfigSecondaryPath(storage_secondary_path)); bool storage_s3_enable; CONFIG_CHECK(GetStorageConfigS3Enable(storage_s3_enable)); // std::cout << "S3 " << (storage_s3_enable ? "ENABLED !" : "DISABLED !") << std::endl; std::string storage_s3_address; CONFIG_CHECK(GetStorageConfigS3Address(storage_s3_address)); std::string storage_s3_port; CONFIG_CHECK(GetStorageConfigS3Port(storage_s3_port)); std::string storage_s3_access_key; CONFIG_CHECK(GetStorageConfigS3AccessKey(storage_s3_access_key)); std::string storage_s3_secret_key; CONFIG_CHECK(GetStorageConfigS3SecretKey(storage_s3_secret_key)); std::string storage_s3_bucket; CONFIG_CHECK(GetStorageConfigS3Bucket(storage_s3_bucket)); /* metric config */ bool metric_enable_monitor; CONFIG_CHECK(GetMetricConfigEnableMonitor(metric_enable_monitor)); std::string metric_address; CONFIG_CHECK(GetMetricConfigAddress(metric_address)); std::string metric_port; CONFIG_CHECK(GetMetricConfigPort(metric_port)); /* cache config */ int64_t cache_cpu_cache_capacity; CONFIG_CHECK(GetCacheConfigCpuCacheCapacity(cache_cpu_cache_capacity)); float cache_cpu_cache_threshold; CONFIG_CHECK(GetCacheConfigCpuCacheThreshold(cache_cpu_cache_threshold)); int64_t cache_insert_buffer_size; CONFIG_CHECK(GetCacheConfigInsertBufferSize(cache_insert_buffer_size)); bool cache_insert_data; CONFIG_CHECK(GetCacheConfigCacheInsertData(cache_insert_data)); /* engine config */ int64_t engine_use_blas_threshold; CONFIG_CHECK(GetEngineConfigUseBlasThreshold(engine_use_blas_threshold)); int64_t engine_omp_thread_num; CONFIG_CHECK(GetEngineConfigOmpThreadNum(engine_omp_thread_num)); bool engine_use_avx512; CONFIG_CHECK(GetEngineConfigUseAVX512(engine_use_avx512)); #ifdef MILVUS_GPU_VERSION int64_t engine_gpu_search_threshold; CONFIG_CHECK(GetEngineConfigGpuSearchThreshold(engine_gpu_search_threshold)); #endif /* gpu resource config */ #ifdef MILVUS_GPU_VERSION bool gpu_resource_enable; CONFIG_CHECK(GetGpuResourceConfigEnable(gpu_resource_enable)); std::cout << "GPU resources " << (gpu_resource_enable ? "ENABLED !" : "DISABLED !") << std::endl; if (gpu_resource_enable) { int64_t resource_cache_capacity; CONFIG_CHECK(GetGpuResourceConfigCacheCapacity(resource_cache_capacity)); float resource_cache_threshold; CONFIG_CHECK(GetGpuResourceConfigCacheThreshold(resource_cache_threshold)); std::vector search_resources; CONFIG_CHECK(GetGpuResourceConfigSearchResources(search_resources)); std::vector index_build_resources; CONFIG_CHECK(GetGpuResourceConfigBuildIndexResources(index_build_resources)); } #endif /* tracing config */ std::string tracing_config_path; CONFIG_CHECK(GetTracingConfigJsonConfigPath(tracing_config_path)); /* wal config */ bool enable; CONFIG_CHECK(GetWalConfigEnable(enable)); bool recovery_error_ignore; CONFIG_CHECK(GetWalConfigRecoveryErrorIgnore(recovery_error_ignore)); int64_t buffer_size; CONFIG_CHECK(GetWalConfigBufferSize(buffer_size)); std::string wal_path; CONFIG_CHECK(GetWalConfigWalPath(wal_path)); return Status::OK(); } Status Config::ResetDefaultConfig() { /* server config */ CONFIG_CHECK(SetServerConfigAddress(CONFIG_SERVER_ADDRESS_DEFAULT)); CONFIG_CHECK(SetServerConfigPort(CONFIG_SERVER_PORT_DEFAULT)); CONFIG_CHECK(SetServerConfigDeployMode(CONFIG_SERVER_DEPLOY_MODE_DEFAULT)); CONFIG_CHECK(SetServerConfigTimeZone(CONFIG_SERVER_TIME_ZONE_DEFAULT)); CONFIG_CHECK(SetServerConfigWebPort(CONFIG_SERVER_WEB_PORT_DEFAULT)); /* db config */ CONFIG_CHECK(SetDBConfigBackendUrl(CONFIG_DB_BACKEND_URL_DEFAULT)); CONFIG_CHECK(SetDBConfigPreloadCollection(CONFIG_DB_PRELOAD_TABLE_DEFAULT)); CONFIG_CHECK(SetDBConfigArchiveDiskThreshold(CONFIG_DB_ARCHIVE_DISK_THRESHOLD_DEFAULT)); CONFIG_CHECK(SetDBConfigArchiveDaysThreshold(CONFIG_DB_ARCHIVE_DAYS_THRESHOLD_DEFAULT)); CONFIG_CHECK(SetDBConfigAutoFlushInterval(CONFIG_DB_AUTO_FLUSH_INTERVAL_DEFAULT)); /* storage config */ CONFIG_CHECK(SetStorageConfigPrimaryPath(CONFIG_STORAGE_PRIMARY_PATH_DEFAULT)); CONFIG_CHECK(SetStorageConfigSecondaryPath(CONFIG_STORAGE_SECONDARY_PATH_DEFAULT)); CONFIG_CHECK(SetStorageConfigS3Enable(CONFIG_STORAGE_S3_ENABLE_DEFAULT)); CONFIG_CHECK(SetStorageConfigS3Address(CONFIG_STORAGE_S3_ADDRESS_DEFAULT)); CONFIG_CHECK(SetStorageConfigS3Port(CONFIG_STORAGE_S3_PORT_DEFAULT)); CONFIG_CHECK(SetStorageConfigS3AccessKey(CONFIG_STORAGE_S3_ACCESS_KEY_DEFAULT)); CONFIG_CHECK(SetStorageConfigS3SecretKey(CONFIG_STORAGE_S3_SECRET_KEY_DEFAULT)); CONFIG_CHECK(SetStorageConfigS3Bucket(CONFIG_STORAGE_S3_BUCKET_DEFAULT)); /* metric config */ CONFIG_CHECK(SetMetricConfigEnableMonitor(CONFIG_METRIC_ENABLE_MONITOR_DEFAULT)); CONFIG_CHECK(SetMetricConfigAddress(CONFIG_METRIC_ADDRESS_DEFAULT)); CONFIG_CHECK(SetMetricConfigPort(CONFIG_METRIC_PORT_DEFAULT)); /* cache config */ CONFIG_CHECK(SetCacheConfigCpuCacheCapacity(CONFIG_CACHE_CPU_CACHE_CAPACITY_DEFAULT)); CONFIG_CHECK(SetCacheConfigCpuCacheThreshold(CONFIG_CACHE_CPU_CACHE_THRESHOLD_DEFAULT)); CONFIG_CHECK(SetCacheConfigInsertBufferSize(CONFIG_CACHE_INSERT_BUFFER_SIZE_DEFAULT)); CONFIG_CHECK(SetCacheConfigCacheInsertData(CONFIG_CACHE_CACHE_INSERT_DATA_DEFAULT)); /* engine config */ CONFIG_CHECK(SetEngineConfigUseBlasThreshold(CONFIG_ENGINE_USE_BLAS_THRESHOLD_DEFAULT)); CONFIG_CHECK(SetEngineConfigOmpThreadNum(CONFIG_ENGINE_OMP_THREAD_NUM_DEFAULT)); CONFIG_CHECK(SetEngineConfigUseAVX512(CONFIG_ENGINE_USE_AVX512_DEFAULT)); /* wal config */ CONFIG_CHECK(SetWalConfigEnable(CONFIG_WAL_ENABLE_DEFAULT)); CONFIG_CHECK(SetWalConfigRecoveryErrorIgnore(CONFIG_WAL_RECOVERY_ERROR_IGNORE_DEFAULT)); CONFIG_CHECK(SetWalConfigBufferSize(CONFIG_WAL_BUFFER_SIZE_DEFAULT)); CONFIG_CHECK(SetWalConfigWalPath(CONFIG_WAL_WAL_PATH_DEFAULT)); #ifdef MILVUS_GPU_VERSION CONFIG_CHECK(SetEngineConfigGpuSearchThreshold(CONFIG_ENGINE_GPU_SEARCH_THRESHOLD_DEFAULT)); #endif /* gpu resource config */ #ifdef MILVUS_GPU_VERSION CONFIG_CHECK(SetGpuResourceConfigEnable(CONFIG_GPU_RESOURCE_ENABLE_DEFAULT)); CONFIG_CHECK(SetGpuResourceConfigCacheCapacity(CONFIG_GPU_RESOURCE_CACHE_CAPACITY_DEFAULT)); CONFIG_CHECK(SetGpuResourceConfigCacheThreshold(CONFIG_GPU_RESOURCE_CACHE_THRESHOLD_DEFAULT)); CONFIG_CHECK(SetGpuResourceConfigSearchResources(CONFIG_GPU_RESOURCE_SEARCH_RESOURCES_DEFAULT)); CONFIG_CHECK(SetGpuResourceConfigBuildIndexResources(CONFIG_GPU_RESOURCE_BUILD_INDEX_RESOURCES_DEFAULT)); #endif return Status::OK(); } void Config::GetConfigJsonStr(std::string& result, int64_t indent) { nlohmann::json config_json(config_map_); result = config_json.dump(indent); } Status Config::GetConfigCli(std::string& value, const std::string& parent_key, const std::string& child_key) { if (!ConfigNodeValid(parent_key, child_key)) { std::string str = "Config node invalid: " + parent_key + CONFIG_NODE_DELIMITER + child_key; return Status(SERVER_UNEXPECTED_ERROR, str); } return GetConfigValueInMem(parent_key, child_key, value); } Status Config::SetConfigCli(const std::string& parent_key, const std::string& child_key, const std::string& value) { std::string invalid_node_str = "Config node invalid: " + parent_key + CONFIG_NODE_DELIMITER + child_key; if (!ConfigNodeValid(parent_key, child_key)) { return Status(SERVER_UNEXPECTED_ERROR, invalid_node_str); } auto status = Status::OK(); if (parent_key == CONFIG_SERVER) { if (child_key == CONFIG_SERVER_ADDRESS) { status = SetServerConfigAddress(value); } else if (child_key == CONFIG_SERVER_DEPLOY_MODE) { status = SetServerConfigDeployMode(value); } else if (child_key == CONFIG_SERVER_PORT) { status = SetServerConfigPort(value); } else if (child_key == CONFIG_SERVER_TIME_ZONE) { status = SetServerConfigTimeZone(value); } else if (child_key == CONFIG_SERVER_WEB_PORT) { status = SetServerConfigWebPort(value); } else { status = Status(SERVER_UNEXPECTED_ERROR, invalid_node_str); } } else if (parent_key == CONFIG_DB) { if (child_key == CONFIG_DB_BACKEND_URL) { status = SetDBConfigBackendUrl(value); } else if (child_key == CONFIG_DB_PRELOAD_TABLE) { status = SetDBConfigPreloadCollection(value); } else if (child_key == CONFIG_DB_AUTO_FLUSH_INTERVAL) { status = SetDBConfigAutoFlushInterval(value); } else { status = Status(SERVER_UNEXPECTED_ERROR, invalid_node_str); } } else if (parent_key == CONFIG_STORAGE) { if (child_key == CONFIG_STORAGE_PRIMARY_PATH) { status = SetStorageConfigPrimaryPath(value); } else if (child_key == CONFIG_STORAGE_SECONDARY_PATH) { status = SetStorageConfigSecondaryPath(value); } else if (child_key == CONFIG_STORAGE_S3_ENABLE) { status = SetStorageConfigS3Enable(value); } else if (child_key == CONFIG_STORAGE_S3_ADDRESS) { status = SetStorageConfigS3Address(value); } else if (child_key == CONFIG_STORAGE_S3_PORT) { status = SetStorageConfigS3Port(value); } else if (child_key == CONFIG_STORAGE_S3_ACCESS_KEY) { status = SetStorageConfigS3AccessKey(value); } else if (child_key == CONFIG_STORAGE_S3_SECRET_KEY) { status = SetStorageConfigS3SecretKey(value); } else if (child_key == CONFIG_STORAGE_S3_BUCKET) { status = SetStorageConfigS3Bucket(value); } else { status = Status(SERVER_UNEXPECTED_ERROR, invalid_node_str); } } else if (parent_key == CONFIG_METRIC) { if (child_key == CONFIG_METRIC_ENABLE_MONITOR) { status = SetMetricConfigEnableMonitor(value); } else if (child_key == CONFIG_METRIC_ADDRESS) { status = SetMetricConfigAddress(value); } else if (child_key == CONFIG_METRIC_PORT) { status = SetMetricConfigPort(value); } else { status = Status(SERVER_UNEXPECTED_ERROR, invalid_node_str); } } else if (parent_key == CONFIG_CACHE) { if (child_key == CONFIG_CACHE_CPU_CACHE_CAPACITY) { status = SetCacheConfigCpuCacheCapacity(value); } else if (child_key == CONFIG_CACHE_CPU_CACHE_THRESHOLD) { status = SetCacheConfigCpuCacheThreshold(value); } else if (child_key == CONFIG_CACHE_CACHE_INSERT_DATA) { status = SetCacheConfigCacheInsertData(value); } else if (child_key == CONFIG_CACHE_INSERT_BUFFER_SIZE) { status = SetCacheConfigInsertBufferSize(value); } else { status = Status(SERVER_UNEXPECTED_ERROR, invalid_node_str); } } else if (parent_key == CONFIG_ENGINE) { if (child_key == CONFIG_ENGINE_USE_BLAS_THRESHOLD) { status = SetEngineConfigUseBlasThreshold(value); } else if (child_key == CONFIG_ENGINE_OMP_THREAD_NUM) { status = SetEngineConfigOmpThreadNum(value); } else if (child_key == CONFIG_ENGINE_USE_AVX512) { status = SetEngineConfigUseAVX512(value); #ifdef MILVUS_GPU_VERSION } else if (child_key == CONFIG_ENGINE_GPU_SEARCH_THRESHOLD) { status = SetEngineConfigGpuSearchThreshold(value); #endif } else { status = Status(SERVER_UNEXPECTED_ERROR, invalid_node_str); } #ifdef MILVUS_GPU_VERSION } else if (parent_key == CONFIG_GPU_RESOURCE) { if (child_key == CONFIG_GPU_RESOURCE_ENABLE) { status = SetGpuResourceConfigEnable(value); } else if (child_key == CONFIG_GPU_RESOURCE_CACHE_CAPACITY) { status = SetGpuResourceConfigCacheCapacity(value); } else if (child_key == CONFIG_GPU_RESOURCE_CACHE_THRESHOLD) { status = SetGpuResourceConfigCacheThreshold(value); } else if (child_key == CONFIG_GPU_RESOURCE_SEARCH_RESOURCES) { status = SetGpuResourceConfigSearchResources(value); } else if (child_key == CONFIG_GPU_RESOURCE_BUILD_INDEX_RESOURCES) { status = SetGpuResourceConfigBuildIndexResources(value); } else { status = Status(SERVER_UNEXPECTED_ERROR, invalid_node_str); } #endif } else if (parent_key == CONFIG_TRACING) { if (child_key == CONFIG_TRACING_JSON_CONFIG_PATH) { status = SetTracingConfigJsonConfigPath(value); } else { status = Status(SERVER_UNEXPECTED_ERROR, invalid_node_str); } } else if (parent_key == CONFIG_WAL) { if (child_key == CONFIG_WAL_ENABLE) { status = SetWalConfigEnable(value); } else if (child_key == CONFIG_WAL_RECOVERY_ERROR_IGNORE) { status = SetWalConfigRecoveryErrorIgnore(value); } else if (child_key == CONFIG_WAL_BUFFER_SIZE) { status = SetWalConfigBufferSize(value); } else if (child_key == CONFIG_WAL_WAL_PATH) { status = SetWalConfigWalPath(value); } else { status = Status(SERVER_UNEXPECTED_ERROR, invalid_node_str); } } if (status.ok()) { status = UpdateFileConfigFromMem(parent_key, child_key); if (status.ok() && !(parent_key == CONFIG_CACHE || parent_key == CONFIG_ENGINE || parent_key == CONFIG_GPU_RESOURCE)) { restart_required_ = true; } } return status; } ////////////////////////////////////////////////////////////// Status Config::ProcessConfigCli(std::string& result, const std::string& cmd) { std::vector tokens; std::vector nodes; server::StringHelpFunctions::SplitStringByDelimeter(cmd, " ", tokens); if (tokens[0] == "get_config") { if (tokens.size() != 2) { return Status(SERVER_UNEXPECTED_ERROR, "Invalid command: " + cmd); } if (tokens[1] == "*") { GetConfigJsonStr(result); return Status::OK(); } else { server::StringHelpFunctions::SplitStringByDelimeter(tokens[1], CONFIG_NODE_DELIMITER, nodes); if (nodes.size() != 2) { return Status(SERVER_UNEXPECTED_ERROR, "Invalid command: " + cmd); } return GetConfigCli(result, nodes[0], nodes[1]); } } else if (tokens[0] == "set_config") { if (tokens.size() != 3) { return Status(SERVER_UNEXPECTED_ERROR, "Invalid command: " + cmd); } server::StringHelpFunctions::SplitStringByDelimeter(tokens[1], CONFIG_NODE_DELIMITER, nodes); if (nodes.size() != 2) { return Status(SERVER_UNEXPECTED_ERROR, "Invalid command: " + cmd); } return SetConfigCli(nodes[0], nodes[1], tokens[2]); } else { return Status(SERVER_UNEXPECTED_ERROR, "Invalid command: " + cmd); } } Status Config::GenUniqueIdentityID(const std::string& identity, std::string& uid) { std::vector elements; elements.push_back(identity); // get current process id int64_t pid = getpid(); elements.push_back(std::to_string(pid)); // get current thread id std::stringstream ss; ss << std::this_thread::get_id(); elements.push_back(ss.str()); // get current timestamp auto time_now = std::chrono::system_clock::now(); auto duration_in_ms = std::chrono::duration_cast(time_now.time_since_epoch()); elements.push_back(std::to_string(duration_in_ms.count())); StringHelpFunctions::MergeStringWithDelimeter(elements, "-", uid); return Status::OK(); } Status Config::UpdateFileConfigFromMem(const std::string& parent_key, const std::string& child_key) { if (access(config_file_.c_str(), F_OK | R_OK) != 0) { return Status(SERVER_UNEXPECTED_ERROR, "Cannot find configure file: " + config_file_); } // Store original configure file std::string ori_file = config_file_ + ".ori"; if (access(ori_file.c_str(), F_OK) != 0) { std::fstream fin(config_file_, std::ios::in); std::ofstream fout(ori_file); if (!fin.is_open() || !fout.is_open()) { return Status(SERVER_UNEXPECTED_ERROR, "Cannot open conf file. Store original conf file failed"); } fout << fin.rdbuf(); fout.flush(); fout.close(); fin.close(); } std::string value; auto status = GetConfigValueInMem(parent_key, child_key, value); if (!status.ok()) { return status; } // convert value string to standard string stored in yaml file std::string value_str; if (child_key == CONFIG_CACHE_CACHE_INSERT_DATA || child_key == CONFIG_STORAGE_S3_ENABLE || child_key == CONFIG_METRIC_ENABLE_MONITOR || child_key == CONFIG_GPU_RESOURCE_ENABLE || child_key == CONFIG_WAL_ENABLE || child_key == CONFIG_WAL_RECOVERY_ERROR_IGNORE) { bool ok = false; status = StringHelpFunctions::ConvertToBoolean(value, ok); if (!status.ok()) { return status; } value_str = ok ? "true" : "false"; } else if (child_key == CONFIG_GPU_RESOURCE_SEARCH_RESOURCES || child_key == CONFIG_GPU_RESOURCE_BUILD_INDEX_RESOURCES) { std::vector vec; StringHelpFunctions::SplitStringByDelimeter(value, ",", vec); for (auto& s : vec) { std::transform(s.begin(), s.end(), s.begin(), ::tolower); value_str += "\n - " + s; } } else { value_str = value; } std::fstream conf_fin(config_file_, std::ios::in); if (!conf_fin.is_open()) { return Status(SERVER_UNEXPECTED_ERROR, "Cannot open conf file: " + config_file_); } bool parent_key_read = false; std::string conf_str, line; while (getline(conf_fin, line)) { if (!parent_key_read) { conf_str += line + "\n"; if (!(line.empty() || line.find_first_of('#') == 0 || line.find(parent_key) == std::string::npos)) parent_key_read = true; continue; } if (line.find_first_of('#') == 0) { status = Status(SERVER_UNEXPECTED_ERROR, "Cannot find child key: " + child_key); break; } if (line.find(child_key) != std::string::npos) { // may loss comments here, need to extract comments from line conf_str += " " + child_key + ": " + value_str + "\n"; break; } conf_str += line + "\n"; } // values of gpu resources are sequences, need to remove old here if (child_key == CONFIG_GPU_RESOURCE_SEARCH_RESOURCES || child_key == CONFIG_GPU_RESOURCE_BUILD_INDEX_RESOURCES) { while (getline(conf_fin, line)) { if (line.find("- gpu") != std::string::npos) continue; conf_str += line + "\n"; if (!line.empty() && line.size() > 2 && isalnum(line.at(2))) { break; } } } if (status.ok()) { while (getline(conf_fin, line)) { conf_str += line + "\n"; } conf_fin.close(); std::fstream fout(config_file_, std::ios::out | std::ios::trunc); fout << conf_str; fout.flush(); fout.close(); } return status; } Status Config::RegisterCallBack(const std::string& node, const std::string& sub_node, const std::string& key, ConfigCallBackF& cb) { std::string cb_node = node + "." + sub_node; if (config_callback_.find(cb_node) == config_callback_.end()) { return Status(SERVER_UNEXPECTED_ERROR, cb_node + " is not supported changed in mem"); } auto& callback_map = config_callback_.at(cb_node); callback_map[key] = cb; return Status::OK(); } Status Config::CancelCallBack(const std::string& node, const std::string& sub_node, const std::string& key) { if (config_callback_.empty() || key.empty()) { return Status::OK(); } std::string cb_node = node + "." + sub_node; if (config_callback_.find(cb_node) == config_callback_.end()) { return Status(SERVER_UNEXPECTED_ERROR, cb_node + " cannot found in callback map"); } auto& cb_map = config_callback_.at(cb_node); cb_map.erase(key); return Status::OK(); } //////////////////////////////////////////////////////////////////////////////// Status Config::CheckConfigVersion(const std::string& value) { if (milvus_config_version_map.find(MILVUS_VERSION) != milvus_config_version_map.end()) { bool exist_error = milvus_config_version_map.at(MILVUS_VERSION) != value; fiu_do_on("check_config_version_fail", exist_error = true); if (exist_error) { std::string msg = "Invalid config version: " + value + ". Expected config version: " + milvus_config_version_map.at(MILVUS_VERSION); SERVER_LOG_ERROR << msg; return Status(SERVER_INVALID_ARGUMENT, msg); } } return Status::OK(); } /* server config */ Status Config::CheckServerConfigAddress(const std::string& value) { auto exist_error = !ValidationUtil::ValidateIpAddress(value).ok(); fiu_do_on("check_config_address_fail", exist_error = true); if (exist_error) { std::string msg = "Invalid server IP address: " + value + ". Possible reason: server_config.address is invalid."; return Status(SERVER_INVALID_ARGUMENT, msg); } return Status::OK(); } Status Config::CheckServerConfigPort(const std::string& value) { auto exist_error = !ValidationUtil::ValidateStringIsNumber(value).ok(); fiu_do_on("check_config_port_fail", exist_error = true); if (exist_error) { std::string msg = "Invalid server port: " + value + ". Possible reason: server_config.port is not a number."; return Status(SERVER_INVALID_ARGUMENT, msg); } else { int32_t port = std::stoi(value); if (!(port > 1024 && port < 65535)) { std::string msg = "Invalid server port: " + value + ". Possible reason: server_config.port is not in range (1024, 65535)."; return Status(SERVER_INVALID_ARGUMENT, msg); } } return Status::OK(); } Status Config::CheckServerConfigDeployMode(const std::string& value) { fiu_return_on("check_config_deploy_mode_fail", Status(SERVER_INVALID_ARGUMENT, "server_config.deploy_mode is not one of single, cluster_readonly, and cluster_writable.")); if (value != "single" && value != "cluster_readonly" && value != "cluster_writable") { return Status(SERVER_INVALID_ARGUMENT, "server_config.deploy_mode is not one of single, cluster_readonly, and cluster_writable."); } return Status::OK(); } Status Config::CheckServerConfigTimeZone(const std::string& value) { fiu_return_on("check_config_time_zone_fail", Status(SERVER_INVALID_ARGUMENT, "Invalid server_config.time_zone: " + value)); if (value.length() <= 3) { return Status(SERVER_INVALID_ARGUMENT, "Invalid server_config.time_zone: " + value); } else { if (value.substr(0, 3) != "UTC") { return Status(SERVER_INVALID_ARGUMENT, "Invalid server_config.time_zone: " + value); } else { try { stoi(value.substr(3)); } catch (...) { return Status(SERVER_INVALID_ARGUMENT, "Invalid server_config.time_zone: " + value); } } } return Status::OK(); } Status Config::CheckServerConfigWebPort(const std::string& value) { if (!ValidationUtil::ValidateStringIsNumber(value).ok()) { std::string msg = "Invalid web server port: " + value + ". Possible reason: server_config.web_port is not a number."; return Status(SERVER_INVALID_ARGUMENT, msg); } else { int32_t port = std::stoi(value); if (!(port > 1024 && port < 65535)) { std::string msg = "Invalid web server port: " + value + ". Possible reason: server_config.web_port is not in range [1025, 65534]."; return Status(SERVER_INVALID_ARGUMENT, msg); } } return Status::OK(); } /* DB config */ Status Config::CheckDBConfigBackendUrl(const std::string& value) { auto exist_error = !ValidationUtil::ValidateDbURI(value).ok(); fiu_do_on("check_config_backend_url_fail", exist_error = true); if (exist_error) { std::string msg = "Invalid backend url: " + value + ". Possible reason: db_config.db_backend_url is invalid. " + "The correct format should be like sqlite://:@:/ or mysql://root:123456@127.0.0.1:3306/milvus."; return Status(SERVER_INVALID_ARGUMENT, "invalid db_backend_url: " + value); } return Status::OK(); } Status Config::CheckDBConfigPreloadCollection(const std::string& value) { fiu_return_on("check_config_preload_table_fail", Status(SERVER_INVALID_ARGUMENT, "")); if (value.empty() || value == "*") { return Status::OK(); } std::vector tables; StringHelpFunctions::SplitStringByDelimeter(value, ",", tables); std::unordered_set table_set; for (auto& collection : tables) { if (!ValidationUtil::ValidateCollectionName(collection).ok()) { return Status(SERVER_INVALID_ARGUMENT, "Invalid collection name: " + collection); } bool exist = false; auto status = DBWrapper::DB()->HasNativeCollection(collection, exist); if (!(status.ok() && exist)) { return Status(SERVER_TABLE_NOT_EXIST, "Collection " + collection + " not exist"); } table_set.insert(collection); } if (table_set.size() != tables.size()) { std::string msg = "Invalid preload tables. " "Possible reason: db_config.preload_table contains duplicate collection."; return Status(SERVER_INVALID_ARGUMENT, msg); } return Status::OK(); } Status Config::CheckDBConfigArchiveDiskThreshold(const std::string& value) { auto exist_error = !ValidationUtil::ValidateStringIsNumber(value).ok(); fiu_do_on("check_config_archive_disk_threshold_fail", exist_error = true); if (exist_error) { std::string msg = "Invalid archive disk threshold: " + value + ". Possible reason: db_config.archive_disk_threshold is invalid."; return Status(SERVER_INVALID_ARGUMENT, msg); } return Status::OK(); } Status Config::CheckDBConfigArchiveDaysThreshold(const std::string& value) { auto exist_error = !ValidationUtil::ValidateStringIsNumber(value).ok(); fiu_do_on("check_config_archive_days_threshold_fail", exist_error = true); if (exist_error) { std::string msg = "Invalid archive days threshold: " + value + ". Possible reason: db_config.archive_days_threshold is invalid."; return Status(SERVER_INVALID_ARGUMENT, msg); } return Status::OK(); } Status Config::CheckDBConfigAutoFlushInterval(const std::string& value) { auto exist_error = !ValidationUtil::ValidateStringIsNumber(value).ok(); fiu_do_on("check_config_auto_flush_interval_fail", exist_error = true); if (exist_error) { std::string msg = "Invalid db configuration auto_flush_interval: " + value + ". Possible reason: db.auto_flush_interval is not a natural number."; return Status(SERVER_INVALID_ARGUMENT, msg); } return Status::OK(); } /* storage config */ Status Config::CheckStorageConfigPrimaryPath(const std::string& value) { fiu_return_on("check_config_primary_path_fail", Status(SERVER_INVALID_ARGUMENT, "")); if (value.empty()) { return Status(SERVER_INVALID_ARGUMENT, "storage_config.db_path is empty."); } return ValidationUtil::ValidateStoragePath(value); } Status Config::CheckStorageConfigSecondaryPath(const std::string& value) { fiu_return_on("check_config_secondary_path_fail", Status(SERVER_INVALID_ARGUMENT, "")); auto status = Status::OK(); if (value.empty()) { return status; } std::vector vec; StringHelpFunctions::SplitStringByDelimeter(value, ",", vec); std::unordered_set path_set; for (auto& path : vec) { StringHelpFunctions::TrimStringBlank(path); status = ValidationUtil::ValidateStoragePath(path); if (!status.ok()) { return status; } path_set.insert(path); } if (path_set.size() != vec.size()) { return Status(SERVER_INVALID_ARGUMENT, "Path value is duplicated"); } return Status::OK(); } Status Config::CheckStorageConfigS3Enable(const std::string& value) { if (!ValidationUtil::ValidateStringIsBool(value).ok()) { std::string msg = "Invalid storage config: " + value + ". Possible reason: storage_config.s3_enable is not a boolean."; return Status(SERVER_INVALID_ARGUMENT, msg); } return Status::OK(); } Status Config::CheckStorageConfigS3Address(const std::string& value) { if (!ValidationUtil::ValidateIpAddress(value).ok()) { std::string msg = "Invalid s3 address: " + value + ". Possible reason: storage_config.s3_address is invalid."; return Status(SERVER_INVALID_ARGUMENT, msg); } return Status::OK(); } Status Config::CheckStorageConfigS3Port(const std::string& value) { if (!ValidationUtil::ValidateStringIsNumber(value).ok()) { std::string msg = "Invalid s3 port: " + value + ". Possible reason: storage_config.s3_port is not a number."; return Status(SERVER_INVALID_ARGUMENT, msg); } else { int32_t port = std::stoi(value); if (!(port > 1024 && port < 65535)) { std::string msg = "Invalid s3 port: " + value + ". Possible reason: storage_config.s3_port is not in range (1024, 65535)."; return Status(SERVER_INVALID_ARGUMENT, msg); } } return Status::OK(); } Status Config::CheckStorageConfigS3AccessKey(const std::string& value) { if (value.empty()) { return Status(SERVER_INVALID_ARGUMENT, "storage_config.s3_access_key is empty."); } return Status::OK(); } Status Config::CheckStorageConfigS3SecretKey(const std::string& value) { if (value.empty()) { return Status(SERVER_INVALID_ARGUMENT, "storage_config.s3_secret_key is empty."); } return Status::OK(); } Status Config::CheckStorageConfigS3Bucket(const std::string& value) { if (value.empty()) { return Status(SERVER_INVALID_ARGUMENT, "storage_config.s3_bucket is empty."); } return Status::OK(); } /* metric config */ Status Config::CheckMetricConfigEnableMonitor(const std::string& value) { auto exist_error = !ValidationUtil::ValidateStringIsBool(value).ok(); fiu_do_on("check_config_enable_monitor_fail", exist_error = true); if (exist_error) { std::string msg = "Invalid metric config: " + value + ". Possible reason: metric_config.enable_monitor is not a boolean."; return Status(SERVER_INVALID_ARGUMENT, msg); } return Status::OK(); } Status Config::CheckMetricConfigAddress(const std::string& value) { if (!ValidationUtil::ValidateIpAddress(value).ok()) { std::string msg = "Invalid metric ip: " + value + ". Possible reason: metric_config.ip is invalid."; return Status(SERVER_INVALID_ARGUMENT, "Invalid metric config ip: " + value); } return Status::OK(); } Status Config::CheckMetricConfigPort(const std::string& value) { if (!ValidationUtil::ValidateStringIsNumber(value).ok()) { std::string msg = "Invalid metric port: " + value + ". Possible reason: metric_config.port is not a number."; return Status(SERVER_INVALID_ARGUMENT, msg); } else { int32_t port = std::stoi(value); if (!(port > 1024 && port < 65535)) { std::string msg = "Invalid metric port: " + value + ". Possible reason: metric_config.port is not in range (1024, 65535)."; return Status(SERVER_INVALID_ARGUMENT, msg); } } return Status::OK(); } /* cache config */ Status Config::CheckCacheConfigCpuCacheCapacity(const std::string& value) { fiu_return_on("check_config_cpu_cache_capacity_fail", Status(SERVER_INVALID_ARGUMENT, "")); if (!ValidationUtil::ValidateStringIsNumber(value).ok()) { std::string msg = "Invalid cpu cache capacity: " + value + ". Possible reason: cache_config.cpu_cache_capacity is not a positive integer."; return Status(SERVER_INVALID_ARGUMENT, msg); } else { int64_t cpu_cache_capacity = std::stoll(value) * GB; if (cpu_cache_capacity <= 0) { std::string msg = "Invalid cpu cache capacity: " + value + ". Possible reason: cache_config.cpu_cache_capacity is not a positive integer."; return Status(SERVER_INVALID_ARGUMENT, msg); } uint64_t total_mem = 0, free_mem = 0; CommonUtil::GetSystemMemInfo(total_mem, free_mem); if (static_cast(cpu_cache_capacity) >= total_mem) { std::string msg = "Invalid cpu cache capacity: " + value + ". Possible reason: cache_config.cpu_cache_capacity exceeds system memory."; return Status(SERVER_INVALID_ARGUMENT, msg); } else if (static_cast(cpu_cache_capacity) > static_cast(total_mem * 0.9)) { std::cerr << "WARNING: cpu cache capacity value is too big" << std::endl; } std::string str = GetConfigStr(CONFIG_CACHE, CONFIG_CACHE_INSERT_BUFFER_SIZE, "0"); int64_t buffer_value = std::stoll(str); int64_t insert_buffer_size = buffer_value * GB; fiu_do_on("Config.CheckCacheConfigCpuCacheCapacity.large_insert_buffer", insert_buffer_size = total_mem + 1); if (insert_buffer_size + cpu_cache_capacity >= total_mem) { std::string msg = "Invalid cpu cache capacity: " + value + ". Possible reason: sum of cache_config.cpu_cache_capacity and " "cache_config.insert_buffer_size exceeds system memory."; return Status(SERVER_INVALID_ARGUMENT, msg); } } return Status::OK(); } Status Config::CheckCacheConfigCpuCacheThreshold(const std::string& value) { fiu_return_on("check_config_cpu_cache_threshold_fail", Status(SERVER_INVALID_ARGUMENT, "")); if (!ValidationUtil::ValidateStringIsFloat(value).ok()) { std::string msg = "Invalid cpu cache threshold: " + value + ". Possible reason: cache_config.cpu_cache_threshold is not in range (0.0, 1.0]."; return Status(SERVER_INVALID_ARGUMENT, msg); } else { float cpu_cache_threshold = std::stof(value); if (cpu_cache_threshold <= 0.0 || cpu_cache_threshold >= 1.0) { std::string msg = "Invalid cpu cache threshold: " + value + ". Possible reason: cache_config.cpu_cache_threshold is not in range (0.0, 1.0]."; return Status(SERVER_INVALID_ARGUMENT, msg); } } return Status::OK(); } Status Config::CheckCacheConfigInsertBufferSize(const std::string& value) { fiu_return_on("check_config_insert_buffer_size_fail", Status(SERVER_INVALID_ARGUMENT, "")); if (!ValidationUtil::ValidateStringIsNumber(value).ok()) { std::string msg = "Invalid insert buffer size: " + value + ". Possible reason: cache_config.insert_buffer_size is not a positive integer."; return Status(SERVER_INVALID_ARGUMENT, msg); } else { int64_t buffer_size = std::stoll(value) * GB; if (buffer_size <= 0) { std::string msg = "Invalid insert buffer size: " + value + ". Possible reason: cache_config.insert_buffer_size is not a positive integer."; return Status(SERVER_INVALID_ARGUMENT, msg); } std::string str = GetConfigStr(CONFIG_CACHE, CONFIG_CACHE_CPU_CACHE_CAPACITY, "0"); int64_t cache_size = std::stoll(str) * GB; uint64_t total_mem = 0, free_mem = 0; CommonUtil::GetSystemMemInfo(total_mem, free_mem); if (buffer_size + cache_size >= total_mem) { std::string msg = "Invalid insert buffer size: " + value + ". Possible reason: cache_config.insert_buffer_size exceeds system memory."; return Status(SERVER_INVALID_ARGUMENT, msg); } } return Status::OK(); } Status Config::CheckCacheConfigCacheInsertData(const std::string& value) { fiu_return_on("check_config_cache_insert_data_fail", Status(SERVER_INVALID_ARGUMENT, "")); if (!ValidationUtil::ValidateStringIsBool(value).ok()) { std::string msg = "Invalid cache insert data option: " + value + ". Possible reason: cache_config.cache_insert_data is not a boolean."; return Status(SERVER_INVALID_ARGUMENT, msg); } return Status::OK(); } /* engine config */ Status Config::CheckEngineConfigUseBlasThreshold(const std::string& value) { fiu_return_on("check_config_use_blas_threshold_fail", Status(SERVER_INVALID_ARGUMENT, "")); if (!ValidationUtil::ValidateStringIsNumber(value).ok()) { std::string msg = "Invalid use blas threshold: " + value + ". Possible reason: engine_config.use_blas_threshold is not a positive integer."; return Status(SERVER_INVALID_ARGUMENT, msg); } return Status::OK(); } Status Config::CheckEngineConfigOmpThreadNum(const std::string& value) { fiu_return_on("check_config_omp_thread_num_fail", Status(SERVER_INVALID_ARGUMENT, "")); if (!ValidationUtil::ValidateStringIsNumber(value).ok()) { std::string msg = "Invalid omp thread num: " + value + ". Possible reason: engine_config.omp_thread_num is not a positive integer."; return Status(SERVER_INVALID_ARGUMENT, msg); } int64_t omp_thread = std::stoll(value); int64_t sys_thread_cnt = 8; CommonUtil::GetSystemAvailableThreads(sys_thread_cnt); if (omp_thread > sys_thread_cnt) { std::string msg = "Invalid omp thread num: " + value + ". Possible reason: engine_config.omp_thread_num exceeds system cpu cores."; return Status(SERVER_INVALID_ARGUMENT, msg); } return Status::OK(); } Status Config::CheckEngineConfigUseAVX512(const std::string& value) { if (!ValidationUtil::ValidateStringIsBool(value).ok()) { std::string msg = "Invalid engine config: " + value + ". Possible reason: engine_config.use_avx512 is not a boolean."; return Status(SERVER_INVALID_ARGUMENT, msg); } return Status::OK(); } #ifdef MILVUS_GPU_VERSION Status Config::CheckEngineConfigGpuSearchThreshold(const std::string& value) { fiu_return_on("check_config_gpu_search_threshold_fail", Status(SERVER_INVALID_ARGUMENT, "")); if (!ValidationUtil::ValidateStringIsNumber(value).ok()) { std::string msg = "Invalid gpu search threshold: " + value + ". Possible reason: engine_config.gpu_search_threshold is not a positive integer."; return Status(SERVER_INVALID_ARGUMENT, msg); } return Status::OK(); } /* gpu resource config */ Status Config::CheckGpuResourceConfigEnable(const std::string& value) { fiu_return_on("check_config_gpu_resource_enable_fail", Status(SERVER_INVALID_ARGUMENT, "")); if (!ValidationUtil::ValidateStringIsBool(value).ok()) { std::string msg = "Invalid gpu resource config: " + value + ". Possible reason: gpu_resource_config.enable is not a boolean."; return Status(SERVER_INVALID_ARGUMENT, msg); } return Status::OK(); } Status Config::CheckGpuResourceConfigCacheCapacity(const std::string& value) { fiu_return_on("check_gpu_resource_config_cache_capacity_fail", Status(SERVER_INVALID_ARGUMENT, "")); if (!ValidationUtil::ValidateStringIsNumber(value).ok()) { std::string msg = "Invalid gpu cache capacity: " + value + ". Possible reason: gpu_resource_config.cache_capacity is not a positive integer."; return Status(SERVER_INVALID_ARGUMENT, msg); } else { int64_t gpu_cache_capacity = std::stoll(value) * GB; std::vector gpu_ids; CONFIG_CHECK(GetGpuResourceConfigBuildIndexResources(gpu_ids)); for (int64_t gpu_id : gpu_ids) { size_t gpu_memory; if (!ValidationUtil::GetGpuMemory(gpu_id, gpu_memory).ok()) { std::string msg = "Fail to get GPU memory for GPU device: " + std::to_string(gpu_id); return Status(SERVER_UNEXPECTED_ERROR, msg); } else if (gpu_cache_capacity >= gpu_memory) { std::string msg = "Invalid gpu cache capacity: " + value + ". Possible reason: gpu_resource_config.cache_capacity exceeds GPU memory."; return Status(SERVER_INVALID_ARGUMENT, msg); } else if (gpu_cache_capacity > (double)gpu_memory * 0.9) { std::cerr << "Warning: gpu cache capacity value is too big" << std::endl; } } } return Status::OK(); } Status Config::CheckGpuResourceConfigCacheThreshold(const std::string& value) { fiu_return_on("check_config_gpu_resource_cache_threshold_fail", Status(SERVER_INVALID_ARGUMENT, "")); if (!ValidationUtil::ValidateStringIsFloat(value).ok()) { std::string msg = "Invalid gpu cache threshold: " + value + ". Possible reason: gpu_resource_config.cache_threshold is not in range (0.0, 1.0]."; return Status(SERVER_INVALID_ARGUMENT, msg); } else { float gpu_cache_threshold = std::stof(value); if (gpu_cache_threshold <= 0.0 || gpu_cache_threshold >= 1.0) { std::string msg = "Invalid gpu cache threshold: " + value + ". Possible reason: gpu_resource_config.cache_threshold is not in range (0.0, 1.0]."; return Status(SERVER_INVALID_ARGUMENT, msg); } } return Status::OK(); } Status CheckGpuResource(const std::string& value) { std::string s = value; std::transform(s.begin(), s.end(), s.begin(), ::tolower); const std::regex pat("gpu(\\d+)"); std::smatch m; if (!std::regex_match(s, m, pat)) { std::string msg = "Invalid gpu resource: " + value + ". Possible reason: gpu_resource_config is not in the format of cpux or gpux"; return Status(SERVER_INVALID_ARGUMENT, msg); } if (s.compare(0, 3, "gpu") == 0) { int32_t gpu_index = std::stoi(s.substr(3)); if (!ValidationUtil::ValidateGpuIndex(gpu_index).ok()) { std::string msg = "Invalid gpu resource: " + value + ". Possible reason: gpu_resource_config does not match with the hardware."; return Status(SERVER_INVALID_ARGUMENT, msg); } } return Status::OK(); } Status Config::CheckGpuResourceConfigSearchResources(const std::vector& value) { fiu_return_on("check_gpu_resource_config_search_fail", Status(SERVER_INVALID_ARGUMENT, "")); if (value.empty()) { std::string msg = "Invalid gpu search resource. " "Possible reason: gpu_resource_config.search_resources is empty."; return Status(SERVER_INVALID_ARGUMENT, msg); } std::unordered_set value_set; for (auto& resource : value) { CONFIG_CHECK(CheckGpuResource(resource)); value_set.insert(resource); } if (value_set.size() != value.size()) { std::string msg = "Invalid gpu build search resource. " "Possible reason: gpu_resource_config.gpu_search_resources contains duplicate resources."; return Status(SERVER_INVALID_ARGUMENT, msg); } return Status::OK(); } Status Config::CheckGpuResourceConfigBuildIndexResources(const std::vector& value) { fiu_return_on("check_gpu_resource_config_build_index_fail", Status(SERVER_INVALID_ARGUMENT, "")); if (value.empty()) { std::string msg = "Invalid gpu build index resource. " "Possible reason: gpu_resource_config.build_index_resources is empty."; return Status(SERVER_INVALID_ARGUMENT, msg); } std::unordered_set value_set; for (auto& resource : value) { CONFIG_CHECK(CheckGpuResource(resource)); value_set.insert(resource); } if (value_set.size() != value.size()) { std::string msg = "Invalid gpu build index resource. " "Possible reason: gpu_resource_config.build_index_resources contains duplicate resources."; return Status(SERVER_INVALID_ARGUMENT, msg); } return Status::OK(); } #endif /* tracing config */ Status Config::CheckTracingConfigJsonConfigPath(const std::string& value) { std::string msg = "Invalid wal config: " + value + ". Possible reason: tracing_config.json_config_path is not supported to configure."; return Status(SERVER_INVALID_ARGUMENT, msg); } /* wal config */ Status Config::CheckWalConfigEnable(const std::string& value) { auto exist_error = !ValidationUtil::ValidateStringIsBool(value).ok(); fiu_do_on("check_config_wal_enable_fail", exist_error = true); if (exist_error) { std::string msg = "Invalid wal config: " + value + ". Possible reason: wal_config.enable is not a boolean."; return Status(SERVER_INVALID_ARGUMENT, msg); } return Status::OK(); } Status Config::CheckWalConfigRecoveryErrorIgnore(const std::string& value) { auto exist_error = !ValidationUtil::ValidateStringIsBool(value).ok(); fiu_do_on("check_config_wal_recovery_error_ignore_fail", exist_error = true); if (exist_error) { std::string msg = "Invalid wal config: " + value + ". Possible reason: wal_config.recovery_error_ignore is not a boolean."; return Status(SERVER_INVALID_ARGUMENT, msg); } return Status::OK(); } Status Config::CheckWalConfigBufferSize(const std::string& value) { auto exist_error = !ValidationUtil::ValidateStringIsNumber(value).ok(); fiu_do_on("check_config_wal_buffer_size_fail", exist_error = true); if (exist_error) { std::string msg = "Invalid wal buffer size: " + value + ". Possible reason: wal_config.buffer_size is not a positive integer."; return Status(SERVER_INVALID_ARGUMENT, msg); } return Status::OK(); } Status Config::CheckWalConfigWalPath(const std::string& value) { fiu_return_on("check_wal_path_fail", Status(SERVER_INVALID_ARGUMENT, "")); if (value.empty()) { return Status(SERVER_INVALID_ARGUMENT, "wal_config.wal_path is empty!"); } return ValidationUtil::ValidateStoragePath(value); } //////////////////////////////////////////////////////////////////////////////// ConfigNode& Config::GetConfigRoot() { ConfigMgr* mgr = YamlConfigMgr::GetInstance(); return mgr->GetRootNode(); } ConfigNode& Config::GetConfigNode(const std::string& name) { return GetConfigRoot().GetChild(name); } bool Config::ConfigNodeValid(const std::string& parent_key, const std::string& child_key) { if (config_map_.find(parent_key) == config_map_.end()) { return false; } return config_map_[parent_key].count(child_key) != 0; } Status Config::GetConfigValueInMem(const std::string& parent_key, const std::string& child_key, std::string& value) { std::lock_guard lock(mutex_); if (config_map_.find(parent_key) != config_map_.end() && config_map_[parent_key].find(child_key) != config_map_[parent_key].end()) { value = config_map_[parent_key][child_key]; return Status::OK(); } return Status(SERVER_UNEXPECTED_ERROR, "key not exist"); } Status Config::SetConfigValueInMem(const std::string& parent_key, const std::string& child_key, const std::string& value) { std::lock_guard lock(mutex_); config_map_[parent_key][child_key] = value; return Status::OK(); } //////////////////////////////////////////////////////////////////////////////// std::string Config::GetConfigStr(const std::string& parent_key, const std::string& child_key, const std::string& default_value) { std::string value; if (!GetConfigValueInMem(parent_key, child_key, value).ok()) { value = GetConfigNode(parent_key).GetValue(child_key, default_value); SetConfigValueInMem(parent_key, child_key, value); } return value; } std::string Config::GetConfigSequenceStr(const std::string& parent_key, const std::string& child_key, const std::string& delim, const std::string& default_value) { std::string value; if (!GetConfigValueInMem(parent_key, child_key, value).ok()) { std::vector sequence = GetConfigNode(parent_key).GetSequence(child_key); if (sequence.empty()) { value = default_value; } else { server::StringHelpFunctions::MergeStringWithDelimeter(sequence, delim, value); } SetConfigValueInMem(parent_key, child_key, value); } return value; } Status Config::GetConfigVersion(std::string& value) { value = GetConfigRoot().GetValue(CONFIG_VERSION); return CheckConfigVersion(value); } Status Config::ExecCallBacks(const std::string& node, const std::string& sub_node, const std::string& value) { auto status = Status::OK(); if (config_callback_.empty()) { return Status(SERVER_UNEXPECTED_ERROR, "Callback map is empty. Cannot take effect in-service"); } std::string cb_node = node + "." + sub_node; if (config_callback_.find(cb_node) == config_callback_.end()) { return Status(SERVER_UNEXPECTED_ERROR, "Cannot find " + cb_node + " in callback map, cannot take effect in-service"); } auto& cb_map = config_callback_.at(cb_node); for (auto& cb_kv : cb_map) { auto& cd = cb_kv.second; status = cd(value); if (!status.ok()) { break; } } return status; } /* server config */ Status Config::GetServerConfigAddress(std::string& value) { value = GetConfigStr(CONFIG_SERVER, CONFIG_SERVER_ADDRESS, CONFIG_SERVER_ADDRESS_DEFAULT); return CheckServerConfigAddress(value); } Status Config::GetServerConfigPort(std::string& value) { value = GetConfigStr(CONFIG_SERVER, CONFIG_SERVER_PORT, CONFIG_SERVER_PORT_DEFAULT); return CheckServerConfigPort(value); } Status Config::GetServerConfigDeployMode(std::string& value) { value = GetConfigStr(CONFIG_SERVER, CONFIG_SERVER_DEPLOY_MODE, CONFIG_SERVER_DEPLOY_MODE_DEFAULT); return CheckServerConfigDeployMode(value); } Status Config::GetServerConfigTimeZone(std::string& value) { value = GetConfigStr(CONFIG_SERVER, CONFIG_SERVER_TIME_ZONE, CONFIG_SERVER_TIME_ZONE_DEFAULT); return CheckServerConfigTimeZone(value); } Status Config::GetServerConfigWebPort(std::string& value) { value = GetConfigStr(CONFIG_SERVER, CONFIG_SERVER_WEB_PORT, CONFIG_SERVER_WEB_PORT_DEFAULT); return CheckServerConfigWebPort(value); } /* DB config */ Status Config::GetDBConfigBackendUrl(std::string& value) { value = GetConfigStr(CONFIG_DB, CONFIG_DB_BACKEND_URL, CONFIG_DB_BACKEND_URL_DEFAULT); return CheckDBConfigBackendUrl(value); } Status Config::GetDBConfigArchiveDiskThreshold(int64_t& value) { std::string str = GetConfigStr(CONFIG_DB, CONFIG_DB_ARCHIVE_DISK_THRESHOLD, CONFIG_DB_ARCHIVE_DISK_THRESHOLD_DEFAULT); CONFIG_CHECK(CheckDBConfigArchiveDiskThreshold(str)); value = std::stoll(str); return Status::OK(); } Status Config::GetDBConfigArchiveDaysThreshold(int64_t& value) { std::string str = GetConfigStr(CONFIG_DB, CONFIG_DB_ARCHIVE_DAYS_THRESHOLD, CONFIG_DB_ARCHIVE_DAYS_THRESHOLD_DEFAULT); CONFIG_CHECK(CheckDBConfigArchiveDaysThreshold(str)); value = std::stoll(str); return Status::OK(); } Status Config::GetDBConfigPreloadCollection(std::string& value) { value = GetConfigStr(CONFIG_DB, CONFIG_DB_PRELOAD_TABLE); return Status::OK(); } Status Config::GetDBConfigAutoFlushInterval(int64_t& value) { std::string str = GetConfigStr(CONFIG_DB, CONFIG_DB_AUTO_FLUSH_INTERVAL, CONFIG_DB_AUTO_FLUSH_INTERVAL_DEFAULT); CONFIG_CHECK(CheckDBConfigAutoFlushInterval(str)); value = std::stoll(str); return Status::OK(); } /* storage config */ Status Config::GetStorageConfigPrimaryPath(std::string& value) { value = GetConfigStr(CONFIG_STORAGE, CONFIG_STORAGE_PRIMARY_PATH, CONFIG_STORAGE_PRIMARY_PATH_DEFAULT); return CheckStorageConfigPrimaryPath(value); } Status Config::GetStorageConfigSecondaryPath(std::string& value) { value = GetConfigStr(CONFIG_STORAGE, CONFIG_STORAGE_SECONDARY_PATH, CONFIG_STORAGE_SECONDARY_PATH_DEFAULT); return CheckStorageConfigSecondaryPath(value); } Status Config::GetStorageConfigS3Enable(bool& value) { std::string str = GetConfigStr(CONFIG_STORAGE, CONFIG_STORAGE_S3_ENABLE, CONFIG_STORAGE_S3_ENABLE_DEFAULT); CONFIG_CHECK(CheckStorageConfigS3Enable(str)); CONFIG_CHECK(StringHelpFunctions::ConvertToBoolean(str, value)); return Status::OK(); } Status Config::GetStorageConfigS3Address(std::string& value) { value = GetConfigStr(CONFIG_STORAGE, CONFIG_STORAGE_S3_ADDRESS, CONFIG_STORAGE_S3_ADDRESS_DEFAULT); return CheckStorageConfigS3Address(value); } Status Config::GetStorageConfigS3Port(std::string& value) { value = GetConfigStr(CONFIG_STORAGE, CONFIG_STORAGE_S3_PORT, CONFIG_STORAGE_S3_PORT_DEFAULT); return CheckStorageConfigS3Port(value); } Status Config::GetStorageConfigS3AccessKey(std::string& value) { value = GetConfigStr(CONFIG_STORAGE, CONFIG_STORAGE_S3_ACCESS_KEY, CONFIG_STORAGE_S3_ACCESS_KEY_DEFAULT); return Status::OK(); } Status Config::GetStorageConfigS3SecretKey(std::string& value) { value = GetConfigStr(CONFIG_STORAGE, CONFIG_STORAGE_S3_SECRET_KEY, CONFIG_STORAGE_S3_SECRET_KEY_DEFAULT); return Status::OK(); } Status Config::GetStorageConfigS3Bucket(std::string& value) { value = GetConfigStr(CONFIG_STORAGE, CONFIG_STORAGE_S3_BUCKET, CONFIG_STORAGE_S3_BUCKET_DEFAULT); return Status::OK(); } /* metric config */ Status Config::GetMetricConfigEnableMonitor(bool& value) { std::string str = GetConfigStr(CONFIG_METRIC, CONFIG_METRIC_ENABLE_MONITOR, CONFIG_METRIC_ENABLE_MONITOR_DEFAULT); CONFIG_CHECK(CheckMetricConfigEnableMonitor(str)); CONFIG_CHECK(StringHelpFunctions::ConvertToBoolean(str, value)); return Status::OK(); } Status Config::GetMetricConfigAddress(std::string& value) { value = GetConfigStr(CONFIG_METRIC, CONFIG_METRIC_ADDRESS, CONFIG_METRIC_ADDRESS_DEFAULT); return Status::OK(); } Status Config::GetMetricConfigPort(std::string& value) { value = GetConfigStr(CONFIG_METRIC, CONFIG_METRIC_PORT, CONFIG_METRIC_PORT_DEFAULT); return CheckMetricConfigPort(value); } /* cache config */ Status Config::GetCacheConfigCpuCacheCapacity(int64_t& value) { std::string str = GetConfigStr(CONFIG_CACHE, CONFIG_CACHE_CPU_CACHE_CAPACITY, CONFIG_CACHE_CPU_CACHE_CAPACITY_DEFAULT); CONFIG_CHECK(CheckCacheConfigCpuCacheCapacity(str)); value = std::stoll(str); return Status::OK(); } Status Config::GetCacheConfigCpuCacheThreshold(float& value) { std::string str = GetConfigStr(CONFIG_CACHE, CONFIG_CACHE_CPU_CACHE_THRESHOLD, CONFIG_CACHE_CPU_CACHE_THRESHOLD_DEFAULT); CONFIG_CHECK(CheckCacheConfigCpuCacheThreshold(str)); value = std::stof(str); return Status::OK(); } Status Config::GetCacheConfigInsertBufferSize(int64_t& value) { std::string str = GetConfigStr(CONFIG_CACHE, CONFIG_CACHE_INSERT_BUFFER_SIZE, CONFIG_CACHE_INSERT_BUFFER_SIZE_DEFAULT); CONFIG_CHECK(CheckCacheConfigInsertBufferSize(str)); value = std::stoll(str); return Status::OK(); } Status Config::GetCacheConfigCacheInsertData(bool& value) { std::string str = GetConfigStr(CONFIG_CACHE, CONFIG_CACHE_CACHE_INSERT_DATA, CONFIG_CACHE_CACHE_INSERT_DATA_DEFAULT); CONFIG_CHECK(CheckCacheConfigCacheInsertData(str)); std::transform(str.begin(), str.end(), str.begin(), ::tolower); value = (str == "true" || str == "on" || str == "yes" || str == "1"); return Status::OK(); } /* engine config */ Status Config::GetEngineConfigUseBlasThreshold(int64_t& value) { std::string str = GetConfigStr(CONFIG_ENGINE, CONFIG_ENGINE_USE_BLAS_THRESHOLD, CONFIG_ENGINE_USE_BLAS_THRESHOLD_DEFAULT); CONFIG_CHECK(CheckEngineConfigUseBlasThreshold(str)); value = std::stoll(str); return Status::OK(); } Status Config::GetEngineConfigOmpThreadNum(int64_t& value) { std::string str = GetConfigStr(CONFIG_ENGINE, CONFIG_ENGINE_OMP_THREAD_NUM, CONFIG_ENGINE_OMP_THREAD_NUM_DEFAULT); CONFIG_CHECK(CheckEngineConfigOmpThreadNum(str)); value = std::stoll(str); return Status::OK(); } Status Config::GetEngineConfigUseAVX512(bool& value) { std::string str = GetConfigStr(CONFIG_ENGINE, CONFIG_ENGINE_USE_AVX512, CONFIG_ENGINE_USE_AVX512_DEFAULT); CONFIG_CHECK(CheckEngineConfigUseAVX512(str)); std::transform(str.begin(), str.end(), str.begin(), ::tolower); value = (str == "true" || str == "on" || str == "yes" || str == "1"); return Status::OK(); } #ifdef MILVUS_GPU_VERSION Status Config::GetEngineConfigGpuSearchThreshold(int64_t& value) { std::string str = GetConfigStr(CONFIG_ENGINE, CONFIG_ENGINE_GPU_SEARCH_THRESHOLD, CONFIG_ENGINE_GPU_SEARCH_THRESHOLD_DEFAULT); CONFIG_CHECK(CheckEngineConfigGpuSearchThreshold(str)); value = std::stoll(str); return Status::OK(); } #endif /* gpu resource config */ #ifdef MILVUS_GPU_VERSION Status Config::GetGpuResourceConfigEnable(bool& value) { std::string str = GetConfigStr(CONFIG_GPU_RESOURCE, CONFIG_GPU_RESOURCE_ENABLE, CONFIG_GPU_RESOURCE_ENABLE_DEFAULT); CONFIG_CHECK(CheckGpuResourceConfigEnable(str)); CONFIG_CHECK(StringHelpFunctions::ConvertToBoolean(str, value)); return Status::OK(); } Status Config::GetGpuResourceConfigCacheCapacity(int64_t& value) { bool gpu_resource_enable = false; CONFIG_CHECK(GetGpuResourceConfigEnable(gpu_resource_enable)); fiu_do_on("Config.GetGpuResourceConfigCacheCapacity.diable_gpu_resource", gpu_resource_enable = false); if (!gpu_resource_enable) { std::string msg = "GPU not supported. Possible reason: gpu_resource_config.enable is set to false."; return Status(SERVER_UNSUPPORTED_ERROR, msg); } std::string str = GetConfigStr(CONFIG_GPU_RESOURCE, CONFIG_GPU_RESOURCE_CACHE_CAPACITY, CONFIG_GPU_RESOURCE_CACHE_CAPACITY_DEFAULT); CONFIG_CHECK(CheckGpuResourceConfigCacheCapacity(str)); value = std::stoll(str); return Status::OK(); } Status Config::GetGpuResourceConfigCacheThreshold(float& value) { bool gpu_resource_enable = false; CONFIG_CHECK(GetGpuResourceConfigEnable(gpu_resource_enable)); fiu_do_on("Config.GetGpuResourceConfigCacheThreshold.diable_gpu_resource", gpu_resource_enable = false); if (!gpu_resource_enable) { std::string msg = "GPU not supported. Possible reason: gpu_resource_config.enable is set to false."; return Status(SERVER_UNSUPPORTED_ERROR, msg); } std::string str = GetConfigStr(CONFIG_GPU_RESOURCE, CONFIG_GPU_RESOURCE_CACHE_THRESHOLD, CONFIG_GPU_RESOURCE_CACHE_THRESHOLD_DEFAULT); CONFIG_CHECK(CheckGpuResourceConfigCacheThreshold(str)); value = std::stof(str); return Status::OK(); } Status Config::GetGpuResourceConfigSearchResources(std::vector& value) { bool gpu_resource_enable = false; CONFIG_CHECK(GetGpuResourceConfigEnable(gpu_resource_enable)); fiu_do_on("get_gpu_config_search_resources.disable_gpu_resource_fail", gpu_resource_enable = false); if (!gpu_resource_enable) { std::string msg = "GPU not supported. Possible reason: gpu_resource_config.enable is set to false."; return Status(SERVER_UNSUPPORTED_ERROR, msg); } std::string str = GetConfigSequenceStr(CONFIG_GPU_RESOURCE, CONFIG_GPU_RESOURCE_SEARCH_RESOURCES, CONFIG_GPU_RESOURCE_DELIMITER, CONFIG_GPU_RESOURCE_SEARCH_RESOURCES_DEFAULT); std::vector res_vec; server::StringHelpFunctions::SplitStringByDelimeter(str, CONFIG_GPU_RESOURCE_DELIMITER, res_vec); CONFIG_CHECK(CheckGpuResourceConfigSearchResources(res_vec)); value.clear(); for (std::string& res : res_vec) { value.push_back(std::stoll(res.substr(3))); } return Status::OK(); } Status Config::GetGpuResourceConfigBuildIndexResources(std::vector& value) { bool gpu_resource_enable = false; CONFIG_CHECK(GetGpuResourceConfigEnable(gpu_resource_enable)); fiu_do_on("get_gpu_config_build_index_resources.disable_gpu_resource_fail", gpu_resource_enable = false); if (!gpu_resource_enable) { std::string msg = "GPU not supported. Possible reason: gpu_resource_config.enable is set to false."; return Status(SERVER_UNSUPPORTED_ERROR, msg); } std::string str = GetConfigSequenceStr(CONFIG_GPU_RESOURCE, CONFIG_GPU_RESOURCE_BUILD_INDEX_RESOURCES, CONFIG_GPU_RESOURCE_DELIMITER, CONFIG_GPU_RESOURCE_BUILD_INDEX_RESOURCES_DEFAULT); std::vector res_vec; server::StringHelpFunctions::SplitStringByDelimeter(str, CONFIG_GPU_RESOURCE_DELIMITER, res_vec); CONFIG_CHECK(CheckGpuResourceConfigBuildIndexResources(res_vec)); value.clear(); for (std::string& res : res_vec) { value.push_back(std::stoll(res.substr(3))); } return Status::OK(); } #endif /* tracing config */ Status Config::GetTracingConfigJsonConfigPath(std::string& value) { value = GetConfigStr(CONFIG_TRACING, CONFIG_TRACING_JSON_CONFIG_PATH, ""); fiu_do_on("get_config_json_config_path_fail", value = "error_config_json_path"); if (!value.empty()) { std::ifstream tracer_config(value); Status s = tracer_config.good() ? Status::OK() : Status(SERVER_INVALID_ARGUMENT, "Failed to open tracer config file " + value + ": " + std::strerror(errno)); tracer_config.close(); return s; } return Status::OK(); } /* wal config */ Status Config::GetWalConfigEnable(bool& wal_enable) { std::string str = GetConfigStr(CONFIG_WAL, CONFIG_WAL_ENABLE, CONFIG_WAL_ENABLE_DEFAULT); CONFIG_CHECK(CheckWalConfigEnable(str)); CONFIG_CHECK(StringHelpFunctions::ConvertToBoolean(str, wal_enable)); return Status::OK(); } Status Config::GetWalConfigRecoveryErrorIgnore(bool& recovery_error_ignore) { std::string str = GetConfigStr(CONFIG_WAL, CONFIG_WAL_RECOVERY_ERROR_IGNORE, CONFIG_WAL_RECOVERY_ERROR_IGNORE_DEFAULT); CONFIG_CHECK(CheckWalConfigRecoveryErrorIgnore(str)); CONFIG_CHECK(StringHelpFunctions::ConvertToBoolean(str, recovery_error_ignore)); return Status::OK(); } Status Config::GetWalConfigBufferSize(int64_t& buffer_size) { std::string str = GetConfigStr(CONFIG_WAL, CONFIG_WAL_BUFFER_SIZE, CONFIG_WAL_BUFFER_SIZE_DEFAULT); CONFIG_CHECK(CheckWalConfigBufferSize(str)); buffer_size = std::stoll(str); if (buffer_size > CONFIG_WAL_BUFFER_SIZE_MAX) { buffer_size = CONFIG_WAL_BUFFER_SIZE_MAX; } else if (buffer_size < CONFIG_WAL_BUFFER_SIZE_MIN) { buffer_size = CONFIG_WAL_BUFFER_SIZE_MIN; } return Status::OK(); } Status Config::GetWalConfigWalPath(std::string& wal_path) { wal_path = GetConfigStr(CONFIG_WAL, CONFIG_WAL_WAL_PATH, CONFIG_WAL_WAL_PATH_DEFAULT); CONFIG_CHECK(CheckWalConfigWalPath(wal_path)); return Status::OK(); } Status Config::GetServerRestartRequired(bool& required) { required = restart_required_; return Status::OK(); } /////////////////////////////////////////////////////////////////////////////// /* server config */ Status Config::SetServerConfigAddress(const std::string& value) { CONFIG_CHECK(CheckServerConfigAddress(value)); return SetConfigValueInMem(CONFIG_SERVER, CONFIG_SERVER_ADDRESS, value); } Status Config::SetServerConfigPort(const std::string& value) { CONFIG_CHECK(CheckServerConfigPort(value)); return SetConfigValueInMem(CONFIG_SERVER, CONFIG_SERVER_PORT, value); } Status Config::SetServerConfigDeployMode(const std::string& value) { CONFIG_CHECK(CheckServerConfigDeployMode(value)); return SetConfigValueInMem(CONFIG_SERVER, CONFIG_SERVER_DEPLOY_MODE, value); } Status Config::SetServerConfigTimeZone(const std::string& value) { CONFIG_CHECK(CheckServerConfigTimeZone(value)); return SetConfigValueInMem(CONFIG_SERVER, CONFIG_SERVER_TIME_ZONE, value); } Status Config::SetServerConfigWebPort(const std::string& value) { CONFIG_CHECK(CheckServerConfigWebPort(value)); return SetConfigValueInMem(CONFIG_SERVER, CONFIG_SERVER_WEB_PORT, value); } /* db config */ Status Config::SetDBConfigBackendUrl(const std::string& value) { CONFIG_CHECK(CheckDBConfigBackendUrl(value)); return SetConfigValueInMem(CONFIG_DB, CONFIG_DB_BACKEND_URL, value); } Status Config::SetDBConfigPreloadCollection(const std::string& value) { CONFIG_CHECK(CheckDBConfigPreloadCollection(value)); std::string cor_value = value == "*" ? "\'*\'" : value; return SetConfigValueInMem(CONFIG_DB, CONFIG_DB_PRELOAD_TABLE, cor_value); } Status Config::SetDBConfigArchiveDiskThreshold(const std::string& value) { CONFIG_CHECK(CheckDBConfigArchiveDiskThreshold(value)); return SetConfigValueInMem(CONFIG_DB, CONFIG_DB_ARCHIVE_DISK_THRESHOLD, value); } Status Config::SetDBConfigArchiveDaysThreshold(const std::string& value) { CONFIG_CHECK(CheckDBConfigArchiveDaysThreshold(value)); return SetConfigValueInMem(CONFIG_DB, CONFIG_DB_ARCHIVE_DAYS_THRESHOLD, value); } Status Config::SetDBConfigAutoFlushInterval(const std::string& value) { CONFIG_CHECK(CheckDBConfigAutoFlushInterval(value)); return SetConfigValueInMem(CONFIG_DB, CONFIG_DB_AUTO_FLUSH_INTERVAL, value); } /* storage config */ Status Config::SetStorageConfigPrimaryPath(const std::string& value) { CONFIG_CHECK(CheckStorageConfigPrimaryPath(value)); return SetConfigValueInMem(CONFIG_STORAGE, CONFIG_STORAGE_PRIMARY_PATH, value); } Status Config::SetStorageConfigSecondaryPath(const std::string& value) { CONFIG_CHECK(CheckStorageConfigSecondaryPath(value)); return SetConfigValueInMem(CONFIG_STORAGE, CONFIG_STORAGE_SECONDARY_PATH, value); } Status Config::SetStorageConfigS3Enable(const std::string& value) { CONFIG_CHECK(CheckStorageConfigS3Enable(value)); return SetConfigValueInMem(CONFIG_STORAGE, CONFIG_STORAGE_S3_ENABLE, value); } Status Config::SetStorageConfigS3Address(const std::string& value) { CONFIG_CHECK(CheckStorageConfigS3Address(value)); return SetConfigValueInMem(CONFIG_STORAGE, CONFIG_STORAGE_S3_ADDRESS, value); } Status Config::SetStorageConfigS3Port(const std::string& value) { CONFIG_CHECK(CheckStorageConfigS3Port(value)); return SetConfigValueInMem(CONFIG_STORAGE, CONFIG_STORAGE_S3_PORT, value); } Status Config::SetStorageConfigS3AccessKey(const std::string& value) { CONFIG_CHECK(CheckStorageConfigS3AccessKey(value)); return SetConfigValueInMem(CONFIG_STORAGE, CONFIG_STORAGE_S3_ACCESS_KEY, value); } Status Config::SetStorageConfigS3SecretKey(const std::string& value) { CONFIG_CHECK(CheckStorageConfigS3SecretKey(value)); return SetConfigValueInMem(CONFIG_STORAGE, CONFIG_STORAGE_S3_SECRET_KEY, value); } Status Config::SetStorageConfigS3Bucket(const std::string& value) { CONFIG_CHECK(CheckStorageConfigS3Bucket(value)); return SetConfigValueInMem(CONFIG_STORAGE, CONFIG_STORAGE_S3_BUCKET, value); } /* metric config */ Status Config::SetMetricConfigEnableMonitor(const std::string& value) { CONFIG_CHECK(CheckMetricConfigEnableMonitor(value)); return SetConfigValueInMem(CONFIG_METRIC, CONFIG_METRIC_ENABLE_MONITOR, value); } Status Config::SetMetricConfigAddress(const std::string& value) { CONFIG_CHECK(CheckMetricConfigAddress(value)); return SetConfigValueInMem(CONFIG_METRIC, CONFIG_METRIC_ADDRESS, value); } Status Config::SetMetricConfigPort(const std::string& value) { CONFIG_CHECK(CheckMetricConfigPort(value)); return SetConfigValueInMem(CONFIG_METRIC, CONFIG_METRIC_PORT, value); } /* cache config */ Status Config::SetCacheConfigCpuCacheCapacity(const std::string& value) { CONFIG_CHECK(CheckCacheConfigCpuCacheCapacity(value)); CONFIG_CHECK(SetConfigValueInMem(CONFIG_CACHE, CONFIG_CACHE_CPU_CACHE_CAPACITY, value)); return ExecCallBacks(CONFIG_CACHE, CONFIG_CACHE_CPU_CACHE_CAPACITY, value); } Status Config::SetCacheConfigCpuCacheThreshold(const std::string& value) { CONFIG_CHECK(CheckCacheConfigCpuCacheThreshold(value)); return SetConfigValueInMem(CONFIG_CACHE, CONFIG_CACHE_CPU_CACHE_THRESHOLD, value); } Status Config::SetCacheConfigInsertBufferSize(const std::string& value) { CONFIG_CHECK(CheckCacheConfigInsertBufferSize(value)); CONFIG_CHECK(SetConfigValueInMem(CONFIG_CACHE, CONFIG_CACHE_INSERT_BUFFER_SIZE, value)); return ExecCallBacks(CONFIG_CACHE, CONFIG_CACHE_INSERT_BUFFER_SIZE, value); } Status Config::SetCacheConfigCacheInsertData(const std::string& value) { CONFIG_CHECK(CheckCacheConfigCacheInsertData(value)); CONFIG_CHECK(SetConfigValueInMem(CONFIG_CACHE, CONFIG_CACHE_CACHE_INSERT_DATA, value)); return ExecCallBacks(CONFIG_CACHE, CONFIG_CACHE_CACHE_INSERT_DATA, value); } /* engine config */ Status Config::SetEngineConfigUseBlasThreshold(const std::string& value) { CONFIG_CHECK(CheckEngineConfigUseBlasThreshold(value)); CONFIG_CHECK(SetConfigValueInMem(CONFIG_ENGINE, CONFIG_ENGINE_USE_BLAS_THRESHOLD, value)); return ExecCallBacks(CONFIG_ENGINE, CONFIG_ENGINE_USE_BLAS_THRESHOLD, value); } Status Config::SetEngineConfigOmpThreadNum(const std::string& value) { CONFIG_CHECK(CheckEngineConfigOmpThreadNum(value)); return SetConfigValueInMem(CONFIG_ENGINE, CONFIG_ENGINE_OMP_THREAD_NUM, value); } Status Config::SetEngineConfigUseAVX512(const std::string& value) { CONFIG_CHECK(CheckEngineConfigUseAVX512(value)); return SetConfigValueInMem(CONFIG_ENGINE, CONFIG_ENGINE_USE_AVX512, value); } /* tracing config */ Status Config::SetTracingConfigJsonConfigPath(const std::string& value) { CONFIG_CHECK(CheckTracingConfigJsonConfigPath(value)); return SetConfigValueInMem(CONFIG_TRACING, CONFIG_TRACING_JSON_CONFIG_PATH, value); } /* wal config */ Status Config::SetWalConfigEnable(const std::string& value) { CONFIG_CHECK(CheckWalConfigEnable(value)); return SetConfigValueInMem(CONFIG_WAL, CONFIG_WAL_ENABLE, value); } Status Config::SetWalConfigRecoveryErrorIgnore(const std::string& value) { CONFIG_CHECK(CheckWalConfigRecoveryErrorIgnore(value)); return SetConfigValueInMem(CONFIG_WAL, CONFIG_WAL_RECOVERY_ERROR_IGNORE, value); } Status Config::SetWalConfigBufferSize(const std::string& value) { CONFIG_CHECK(CheckWalConfigBufferSize(value)); return SetConfigValueInMem(CONFIG_WAL, CONFIG_WAL_BUFFER_SIZE, value); } Status Config::SetWalConfigWalPath(const std::string& value) { CONFIG_CHECK(CheckWalConfigWalPath(value)); return SetConfigValueInMem(CONFIG_WAL, CONFIG_WAL_WAL_PATH, value); } #ifdef MILVUS_GPU_VERSION Status Config::SetEngineConfigGpuSearchThreshold(const std::string& value) { CONFIG_CHECK(CheckEngineConfigGpuSearchThreshold(value)); CONFIG_CHECK(SetConfigValueInMem(CONFIG_ENGINE, CONFIG_ENGINE_GPU_SEARCH_THRESHOLD, value)); return ExecCallBacks(CONFIG_ENGINE, CONFIG_ENGINE_GPU_SEARCH_THRESHOLD, value); } #endif /* gpu resource config */ #ifdef MILVUS_GPU_VERSION Status Config::SetGpuResourceConfigEnable(const std::string& value) { CONFIG_CHECK(CheckGpuResourceConfigEnable(value)); CONFIG_CHECK(SetConfigValueInMem(CONFIG_GPU_RESOURCE, CONFIG_GPU_RESOURCE_ENABLE, value)); return ExecCallBacks(CONFIG_GPU_RESOURCE, CONFIG_GPU_RESOURCE_ENABLE, value); } Status Config::SetGpuResourceConfigCacheCapacity(const std::string& value) { CONFIG_CHECK(CheckGpuResourceConfigCacheCapacity(value)); CONFIG_CHECK(SetConfigValueInMem(CONFIG_GPU_RESOURCE, CONFIG_GPU_RESOURCE_CACHE_CAPACITY, value)); return ExecCallBacks(CONFIG_GPU_RESOURCE, CONFIG_GPU_RESOURCE_CACHE_CAPACITY, value); } Status Config::SetGpuResourceConfigCacheThreshold(const std::string& value) { CONFIG_CHECK(CheckGpuResourceConfigCacheThreshold(value)); return SetConfigValueInMem(CONFIG_GPU_RESOURCE, CONFIG_GPU_RESOURCE_CACHE_THRESHOLD, value); } Status Config::SetGpuResourceConfigSearchResources(const std::string& value) { std::vector res_vec; server::StringHelpFunctions::SplitStringByDelimeter(value, CONFIG_GPU_RESOURCE_DELIMITER, res_vec); CONFIG_CHECK(CheckGpuResourceConfigSearchResources(res_vec)); CONFIG_CHECK(SetConfigValueInMem(CONFIG_GPU_RESOURCE, CONFIG_GPU_RESOURCE_SEARCH_RESOURCES, value)); return ExecCallBacks(CONFIG_GPU_RESOURCE, CONFIG_GPU_RESOURCE_SEARCH_RESOURCES, value); } Status Config::SetGpuResourceConfigBuildIndexResources(const std::string& value) { std::vector res_vec; server::StringHelpFunctions::SplitStringByDelimeter(value, CONFIG_GPU_RESOURCE_DELIMITER, res_vec); CONFIG_CHECK(CheckGpuResourceConfigBuildIndexResources(res_vec)); CONFIG_CHECK(SetConfigValueInMem(CONFIG_GPU_RESOURCE, CONFIG_GPU_RESOURCE_BUILD_INDEX_RESOURCES, value)); return ExecCallBacks(CONFIG_GPU_RESOURCE, CONFIG_GPU_RESOURCE_BUILD_INDEX_RESOURCES, value); } #endif } // namespace server } // namespace milvus