// Licensed to the Apache Software Foundation (ASF) under one // or more contributor license agreements. See the NOTICE file // distributed with this work for additional information // regarding copyright ownership. The ASF licenses this file // to you 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 "config/YamlConfigMgr.h" #include "server/Config.h" #include "utils/CommonUtil.h" #include "utils/ValidationUtil.h" namespace milvus { namespace server { constexpr uint64_t GB = 1UL << 30; 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); } try { ConfigMgr* mgr = YamlConfigMgr::GetInstance(); Status s = mgr->LoadConfigFile(filename); if (!s.ok()) { return s; } } catch (YAML::Exception& e) { std::string str = "Exception occurs when loading config file: " + filename; return Status(SERVER_UNEXPECTED_ERROR, str); } return Status::OK(); } Status Config::ValidateConfig() { Status s; /* server config */ std::string server_addr; s = GetServerConfigAddress(server_addr); if (!s.ok()) { return s; } std::string server_port; s = GetServerConfigPort(server_port); if (!s.ok()) { return s; } std::string server_mode; s = GetServerConfigDeployMode(server_mode); if (!s.ok()) { return s; } std::string server_time_zone; s = GetServerConfigTimeZone(server_time_zone); if (!s.ok()) { return s; } /* db config */ std::string db_primary_path; s = GetDBConfigPrimaryPath(db_primary_path); if (!s.ok()) { return s; } std::string db_secondary_path; s = GetDBConfigSecondaryPath(db_secondary_path); if (!s.ok()) { return s; } std::string db_backend_url; s = GetDBConfigBackendUrl(db_backend_url); if (!s.ok()) { return s; } int32_t db_archive_disk_threshold; s = GetDBConfigArchiveDiskThreshold(db_archive_disk_threshold); if (!s.ok()) { return s; } int32_t db_archive_days_threshold; s = GetDBConfigArchiveDaysThreshold(db_archive_days_threshold); if (!s.ok()) { return s; } int32_t db_insert_buffer_size; s = GetDBConfigInsertBufferSize(db_insert_buffer_size); if (!s.ok()) { return s; } /* metric config */ bool metric_enable_monitor; s = GetMetricConfigEnableMonitor(metric_enable_monitor); if (!s.ok()) { return s; } std::string metric_collector; s = GetMetricConfigCollector(metric_collector); if (!s.ok()) { return s; } std::string metric_prometheus_port; s = GetMetricConfigPrometheusPort(metric_prometheus_port); if (!s.ok()) { return s; } /* cache config */ int64_t cache_cpu_cache_capacity; s = GetCacheConfigCpuCacheCapacity(cache_cpu_cache_capacity); if (!s.ok()) { return s; } float cache_cpu_cache_threshold; s = GetCacheConfigCpuCacheThreshold(cache_cpu_cache_threshold); if (!s.ok()) { return s; } int64_t cache_gpu_cache_capacity; s = GetCacheConfigGpuCacheCapacity(cache_gpu_cache_capacity); if (!s.ok()) { return s; } float cache_gpu_cache_threshold; s = GetCacheConfigGpuCacheThreshold(cache_gpu_cache_threshold); if (!s.ok()) { return s; } bool cache_insert_data; s = GetCacheConfigCacheInsertData(cache_insert_data); if (!s.ok()) { return s; } /* engine config */ int32_t engine_use_blas_threshold; s = GetEngineConfigUseBlasThreshold(engine_use_blas_threshold); if (!s.ok()) { return s; } int32_t engine_omp_thread_num; s = GetEngineConfigOmpThreadNum(engine_omp_thread_num); if (!s.ok()) { return s; } int32_t engine_gpu_search_threshold; s = GetEngineConfigGpuSearchThreshold(engine_gpu_search_threshold); if (!s.ok()) { return s; } /* resource config */ std::string resource_mode; s = GetResourceConfigMode(resource_mode); if (!s.ok()) { return s; } std::vector search_resources; s = GetResourceConfigSearchResources(search_resources); if (!s.ok()) { return s; } int32_t resource_index_build_device; s = GetResourceConfigIndexBuildDevice(resource_index_build_device); if (!s.ok()) { return s; } return Status::OK(); } Status Config::ResetDefaultConfig() { Status s; /* server config */ s = SetServerConfigAddress(CONFIG_SERVER_ADDRESS_DEFAULT); if (!s.ok()) { return s; } s = SetServerConfigPort(CONFIG_SERVER_PORT_DEFAULT); if (!s.ok()) { return s; } s = SetServerConfigDeployMode(CONFIG_SERVER_DEPLOY_MODE_DEFAULT); if (!s.ok()) { return s; } s = SetServerConfigTimeZone(CONFIG_SERVER_TIME_ZONE_DEFAULT); if (!s.ok()) { return s; } /* db config */ s = SetDBConfigPrimaryPath(CONFIG_DB_PRIMARY_PATH_DEFAULT); if (!s.ok()) { return s; } s = SetDBConfigSecondaryPath(CONFIG_DB_SECONDARY_PATH_DEFAULT); if (!s.ok()) { return s; } s = SetDBConfigBackendUrl(CONFIG_DB_BACKEND_URL_DEFAULT); if (!s.ok()) { return s; } s = SetDBConfigArchiveDiskThreshold(CONFIG_DB_ARCHIVE_DISK_THRESHOLD_DEFAULT); if (!s.ok()) { return s; } s = SetDBConfigArchiveDaysThreshold(CONFIG_DB_ARCHIVE_DAYS_THRESHOLD_DEFAULT); if (!s.ok()) { return s; } s = SetDBConfigInsertBufferSize(CONFIG_DB_INSERT_BUFFER_SIZE_DEFAULT); if (!s.ok()) { return s; } /* metric config */ s = SetMetricConfigEnableMonitor(CONFIG_METRIC_ENABLE_MONITOR_DEFAULT); if (!s.ok()) { return s; } s = SetMetricConfigCollector(CONFIG_METRIC_COLLECTOR_DEFAULT); if (!s.ok()) { return s; } s = SetMetricConfigPrometheusPort(CONFIG_METRIC_PROMETHEUS_PORT_DEFAULT); if (!s.ok()) { return s; } /* cache config */ s = SetCacheConfigCpuCacheCapacity(CONFIG_CACHE_CPU_CACHE_CAPACITY_DEFAULT); if (!s.ok()) { return s; } s = SetCacheConfigCpuCacheThreshold(CONFIG_CACHE_CPU_CACHE_THRESHOLD_DEFAULT); if (!s.ok()) { return s; } s = SetCacheConfigGpuCacheCapacity(CONFIG_CACHE_GPU_CACHE_CAPACITY_DEFAULT); if (!s.ok()) { return s; } s = SetCacheConfigGpuCacheThreshold(CONFIG_CACHE_GPU_CACHE_THRESHOLD_DEFAULT); if (!s.ok()) { return s; } s = SetCacheConfigCacheInsertData(CONFIG_CACHE_CACHE_INSERT_DATA_DEFAULT); if (!s.ok()) { return s; } /* engine config */ s = SetEngineConfigUseBlasThreshold(CONFIG_ENGINE_USE_BLAS_THRESHOLD_DEFAULT); if (!s.ok()) { return s; } s = SetEngineConfigOmpThreadNum(CONFIG_ENGINE_OMP_THREAD_NUM_DEFAULT); if (!s.ok()) { return s; } s = SetEngineConfigGpuSearchThreshold(CONFIG_ENGINE_GPU_SEARCH_THRESHOLD_DEFAULT); if (!s.ok()) { return s; } /* resource config */ s = SetResourceConfigMode(CONFIG_RESOURCE_MODE_DEFAULT); if (!s.ok()) { return s; } s = SetResourceConfigIndexBuildDevice(CONFIG_RESOURCE_INDEX_BUILD_DEVICE_DEFAULT); if (!s.ok()) { return s; } return Status::OK(); } void Config::PrintConfigSection(const std::string& config_node_name) { std::cout << std::endl; std::cout << config_node_name << ":" << std::endl; if (config_map_.find(config_node_name) != config_map_.end()) { for (auto item : config_map_[config_node_name]) { std::cout << item.first << ": " << item.second << std::endl; } } } void Config::PrintAll() { PrintConfigSection(CONFIG_SERVER); PrintConfigSection(CONFIG_DB); PrintConfigSection(CONFIG_CACHE); PrintConfigSection(CONFIG_METRIC); PrintConfigSection(CONFIG_ENGINE); PrintConfigSection(CONFIG_RESOURCE); } //////////////////////////////////////////////////////////////////////////////// Status Config::CheckServerConfigAddress(const std::string& value) { if (!ValidationUtil::ValidateIpAddress(value).ok()) { 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) { if (!ValidationUtil::ValidateStringIsNumber(value).ok()) { 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 [1025, 65534]."; return Status(SERVER_INVALID_ARGUMENT, msg); } } return Status::OK(); } Status Config::CheckServerConfigDeployMode(const std::string& value) { 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) { 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::CheckDBConfigPrimaryPath(const std::string& value) { if (value.empty()) { return Status(SERVER_INVALID_ARGUMENT, "db_config.db_path is empty."); } return Status::OK(); } Status Config::CheckDBConfigSecondaryPath(const std::string& value) { return Status::OK(); } Status Config::CheckDBConfigBackendUrl(const std::string& value) { if (!ValidationUtil::ValidateDbURI(value).ok()) { 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::CheckDBConfigArchiveDiskThreshold(const std::string& value) { if (!ValidationUtil::ValidateStringIsNumber(value).ok()) { 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) { if (!ValidationUtil::ValidateStringIsNumber(value).ok()) { 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::CheckDBConfigInsertBufferSize(const std::string& value) { if (!ValidationUtil::ValidateStringIsNumber(value).ok()) { std::string msg = "Invalid insert buffer size: " + value + ". Possible reason: db_config.insert_buffer_size is not a positive integer."; return Status(SERVER_INVALID_ARGUMENT, msg); } else { int64_t buffer_size = std::stoi(value) * GB; if (buffer_size <= 0) { std::string msg = "Invalid insert buffer size: " + value + ". Possible reason: db_config.insert_buffer_size 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 (buffer_size >= total_mem) { std::string msg = "Invalid insert buffer size: " + value + ". Possible reason: db_config.insert_buffer_size exceeds system memory."; return Status(SERVER_INVALID_ARGUMENT, msg); } } return Status::OK(); } Status Config::CheckMetricConfigEnableMonitor(const std::string& value) { if (!ValidationUtil::ValidateStringIsBool(value).ok()) { 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::CheckMetricConfigCollector(const std::string& value) { if (value != "prometheus") { std::string msg = "Invalid metric collector: " + value + ". Possible reason: metric_config.collector is invalid."; return Status(SERVER_INVALID_ARGUMENT, msg); } return Status::OK(); } Status Config::CheckMetricConfigPrometheusPort(const std::string& value) { if (!ValidationUtil::ValidateStringIsNumber(value).ok()) { std::string msg = "Invalid metric port: " + value + ". Possible reason: metric_config.prometheus_config.port is not in range [1025, 65534]."; return Status(SERVER_INVALID_ARGUMENT, "Invalid metric config prometheus_port: " + value); } return Status::OK(); } Status Config::CheckCacheConfigCpuCacheCapacity(const std::string& value) { 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::stoi(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; } int32_t buffer_value; Status s = GetDBConfigInsertBufferSize(buffer_value); if (!s.ok()) { return s; } int64_t insert_buffer_size = buffer_value * GB; 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 " "db_config.insert_buffer_size exceeds system memory."; return Status(SERVER_INVALID_ARGUMENT, msg); } } return Status::OK(); } Status Config::CheckCacheConfigCpuCacheThreshold(const std::string& value) { 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::CheckCacheConfigGpuCacheCapacity(const std::string& value) { if (!ValidationUtil::ValidateStringIsNumber(value).ok()) { std::string msg = "Invalid gpu cache capacity: " + value + ". Possible reason: cache_config.gpu_cache_capacity is not a positive integer."; return Status(SERVER_INVALID_ARGUMENT, msg); } else { uint64_t gpu_cache_capacity = std::stoi(value) * GB; int gpu_index; Status s = GetResourceConfigIndexBuildDevice(gpu_index); if (!s.ok()) { return s; } size_t gpu_memory; if (!ValidationUtil::GetGpuMemory(gpu_index, gpu_memory).ok()) { std::string msg = "Fail to get GPU memory for GPU device: " + std::to_string(gpu_index); return Status(SERVER_UNEXPECTED_ERROR, msg); } else if (gpu_cache_capacity >= gpu_memory) { std::string msg = "Invalid gpu cache capacity: " + value + ". Possible reason: cache_config.gpu_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::CheckCacheConfigGpuCacheThreshold(const std::string& value) { if (!ValidationUtil::ValidateStringIsFloat(value).ok()) { std::string msg = "Invalid gpu cache threshold: " + value + ". Possible reason: cache_config.gpu_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: cache_config.gpu_cache_threshold is not in range (0.0, 1.0]."; return Status(SERVER_INVALID_ARGUMENT, msg); } } return Status::OK(); } Status Config::CheckCacheConfigCacheInsertData(const std::string& value) { 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(); } Status Config::CheckEngineConfigUseBlasThreshold(const std::string& value) { 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) { 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); } int32_t omp_thread = std::stoi(value); uint32_t sys_thread_cnt = 8; CommonUtil::GetSystemAvailableThreads(sys_thread_cnt); if (omp_thread > static_cast(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::CheckEngineConfigGpuSearchThreshold(const std::string& value) { 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(); } Status Config::CheckResourceConfigMode(const std::string& value) { if (value != "simple") { std::string msg = "Invalid resource mode: " + value + ". Possible reason: resource_config.mode is invalid."; return Status(SERVER_INVALID_ARGUMENT, msg); } return Status::OK(); } Status CheckGpuDevice(const std::string& value) { const std::regex pat("gpu(\\d+)"); std::cmatch m; if (!std::regex_match(value.c_str(), m, pat)) { std::string msg = "Invalid gpu device: " + value + ". Possible reason: resource_config.search_resources does not match your hardware."; return Status(SERVER_INVALID_ARGUMENT, msg); } int32_t gpu_index = std::stoi(value.substr(3)); if (!ValidationUtil::ValidateGpuIndex(gpu_index).ok()) { std::string msg = "Invalid gpu device: " + value + ". Possible reason: resource_config.search_resources does not match your hardware."; return Status(SERVER_INVALID_ARGUMENT, msg); } return Status::OK(); } Status Config::CheckResourceConfigSearchResources(const std::vector& value) { if (value.empty()) { std::string msg = "Invalid search resource. " "Possible reason: resource_config.search_resources is empty."; return Status(SERVER_INVALID_ARGUMENT, msg); } for (auto& device : value) { if (device == "cpu") { continue; } if (!CheckGpuDevice(device).ok()) { std::string msg = "Invalid search resource: " + device + ". Possible reason: resource_config.search_resources does not match your hardware."; return Status(SERVER_INVALID_ARGUMENT, msg); } } return Status::OK(); } Status Config::CheckResourceConfigIndexBuildDevice(const std::string& value) { if (value == "cpu") { return Status::OK(); } if (!CheckGpuDevice(value).ok()) { std::string msg = "Invalid index build device: " + value + ". Possible reason: resource_config.index_build_device does not match your hardware."; return Status(SERVER_INVALID_ARGUMENT, msg); } return Status::OK(); } //////////////////////////////////////////////////////////////////////////////// ConfigNode& Config::GetConfigNode(const std::string& name) { ConfigMgr* mgr = YamlConfigMgr::GetInstance(); ConfigNode& root_node = mgr->GetRootNode(); return root_node.GetChild(name); } 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"); } void 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; } //////////////////////////////////////////////////////////////////////////////// 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; } 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::GetDBConfigPrimaryPath(std::string& value) { value = GetConfigStr(CONFIG_DB, CONFIG_DB_PRIMARY_PATH, CONFIG_DB_PRIMARY_PATH_DEFAULT); return CheckDBConfigPrimaryPath(value); } Status Config::GetDBConfigSecondaryPath(std::string& value) { value = GetConfigStr(CONFIG_DB, CONFIG_DB_SECONDARY_PATH, CONFIG_DB_SECONDARY_PATH_DEFAULT); return Status::OK(); } 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(int32_t& value) { std::string str = GetConfigStr(CONFIG_DB, CONFIG_DB_ARCHIVE_DISK_THRESHOLD, CONFIG_DB_ARCHIVE_DISK_THRESHOLD_DEFAULT); Status s = CheckDBConfigArchiveDiskThreshold(str); if (!s.ok()) { return s; } value = std::stoi(str); return Status::OK(); } Status Config::GetDBConfigArchiveDaysThreshold(int32_t& value) { std::string str = GetConfigStr(CONFIG_DB, CONFIG_DB_ARCHIVE_DAYS_THRESHOLD, CONFIG_DB_ARCHIVE_DAYS_THRESHOLD_DEFAULT); Status s = CheckDBConfigArchiveDaysThreshold(str); if (!s.ok()) { return s; } value = std::stoi(str); return Status::OK(); } Status Config::GetDBConfigInsertBufferSize(int32_t& value) { std::string str = GetConfigStr(CONFIG_DB, CONFIG_DB_INSERT_BUFFER_SIZE, CONFIG_DB_INSERT_BUFFER_SIZE_DEFAULT); Status s = CheckDBConfigInsertBufferSize(str); if (!s.ok()) { return s; } value = std::stoi(str); return Status::OK(); } Status Config::GetDBConfigPreloadTable(std::string& value) { value = GetConfigStr(CONFIG_DB, CONFIG_DB_PRELOAD_TABLE); return Status::OK(); } Status Config::GetMetricConfigEnableMonitor(bool& value) { std::string str = GetConfigStr(CONFIG_METRIC, CONFIG_METRIC_ENABLE_MONITOR, CONFIG_METRIC_ENABLE_MONITOR_DEFAULT); Status s = CheckMetricConfigEnableMonitor(str); if (!s.ok()) { return s; } std::transform(str.begin(), str.end(), str.begin(), ::tolower); value = (str == "true" || str == "on" || str == "yes" || str == "1"); return Status::OK(); } Status Config::GetMetricConfigCollector(std::string& value) { value = GetConfigStr(CONFIG_METRIC, CONFIG_METRIC_COLLECTOR, CONFIG_METRIC_COLLECTOR_DEFAULT); return Status::OK(); } Status Config::GetMetricConfigPrometheusPort(std::string& value) { value = GetConfigStr(CONFIG_METRIC, CONFIG_METRIC_PROMETHEUS_PORT, CONFIG_METRIC_PROMETHEUS_PORT_DEFAULT); return CheckMetricConfigPrometheusPort(value); } Status Config::GetCacheConfigCpuCacheCapacity(int64_t& value) { std::string str = GetConfigStr(CONFIG_CACHE, CONFIG_CACHE_CPU_CACHE_CAPACITY, CONFIG_CACHE_CPU_CACHE_CAPACITY_DEFAULT); Status s = CheckCacheConfigCpuCacheCapacity(str); if (!s.ok()) { return s; } value = std::stoi(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); Status s = CheckCacheConfigCpuCacheThreshold(str); if (!s.ok()) { return s; } value = std::stof(str); return Status::OK(); } Status Config::GetCacheConfigGpuCacheCapacity(int64_t& value) { std::string str = GetConfigStr(CONFIG_CACHE, CONFIG_CACHE_GPU_CACHE_CAPACITY, CONFIG_CACHE_GPU_CACHE_CAPACITY_DEFAULT); Status s = CheckCacheConfigGpuCacheCapacity(str); if (!s.ok()) { return s; } value = std::stoi(str); return Status::OK(); } Status Config::GetCacheConfigGpuCacheThreshold(float& value) { std::string str = GetConfigStr(CONFIG_CACHE, CONFIG_CACHE_GPU_CACHE_THRESHOLD, CONFIG_CACHE_GPU_CACHE_THRESHOLD_DEFAULT); Status s = CheckCacheConfigGpuCacheThreshold(str); if (!s.ok()) { return s; } value = std::stof(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); Status s = CheckCacheConfigCacheInsertData(str); if (!s.ok()) { return s; } std::transform(str.begin(), str.end(), str.begin(), ::tolower); value = (str == "true" || str == "on" || str == "yes" || str == "1"); return Status::OK(); } Status Config::GetEngineConfigUseBlasThreshold(int32_t& value) { std::string str = GetConfigStr(CONFIG_ENGINE, CONFIG_ENGINE_USE_BLAS_THRESHOLD, CONFIG_ENGINE_USE_BLAS_THRESHOLD_DEFAULT); Status s = CheckEngineConfigUseBlasThreshold(str); if (!s.ok()) { return s; } value = std::stoi(str); return Status::OK(); } Status Config::GetEngineConfigOmpThreadNum(int32_t& value) { std::string str = GetConfigStr(CONFIG_ENGINE, CONFIG_ENGINE_OMP_THREAD_NUM, CONFIG_ENGINE_OMP_THREAD_NUM_DEFAULT); Status s = CheckEngineConfigOmpThreadNum(str); if (!s.ok()) { return s; } value = std::stoi(str); return Status::OK(); } Status Config::GetEngineConfigGpuSearchThreshold(int32_t& value) { std::string str = GetConfigStr(CONFIG_ENGINE, CONFIG_ENGINE_GPU_SEARCH_THRESHOLD, CONFIG_ENGINE_GPU_SEARCH_THRESHOLD_DEFAULT); Status s = CheckEngineConfigGpuSearchThreshold(str); if (!s.ok()) { return s; } value = std::stoi(str); return Status::OK(); } Status Config::GetResourceConfigMode(std::string& value) { value = GetConfigStr(CONFIG_RESOURCE, CONFIG_RESOURCE_MODE, CONFIG_RESOURCE_MODE_DEFAULT); return CheckResourceConfigMode(value); } Status Config::GetResourceConfigSearchResources(std::vector& value) { ConfigNode resource_config = GetConfigNode(CONFIG_RESOURCE); value = resource_config.GetSequence(CONFIG_RESOURCE_SEARCH_RESOURCES); return CheckResourceConfigSearchResources(value); } Status Config::GetResourceConfigIndexBuildDevice(int32_t& value) { std::string str = GetConfigStr(CONFIG_RESOURCE, CONFIG_RESOURCE_INDEX_BUILD_DEVICE, CONFIG_RESOURCE_INDEX_BUILD_DEVICE_DEFAULT); Status s = CheckResourceConfigIndexBuildDevice(str); if (!s.ok()) { return s; } value = std::stoi(str.substr(3)); return Status::OK(); } /////////////////////////////////////////////////////////////////////////////// /* server config */ Status Config::SetServerConfigAddress(const std::string& value) { Status s = CheckServerConfigAddress(value); if (!s.ok()) { return s; } SetConfigValueInMem(CONFIG_SERVER, CONFIG_SERVER_ADDRESS, value); return Status::OK(); } Status Config::SetServerConfigPort(const std::string& value) { Status s = CheckServerConfigPort(value); if (!s.ok()) { return s; } SetConfigValueInMem(CONFIG_SERVER, CONFIG_SERVER_PORT, value); return Status::OK(); } Status Config::SetServerConfigDeployMode(const std::string& value) { Status s = CheckServerConfigDeployMode(value); if (!s.ok()) { return s; } SetConfigValueInMem(CONFIG_SERVER, CONFIG_SERVER_DEPLOY_MODE, value); return Status::OK(); } Status Config::SetServerConfigTimeZone(const std::string& value) { Status s = CheckServerConfigTimeZone(value); if (!s.ok()) { return s; } SetConfigValueInMem(CONFIG_SERVER, CONFIG_SERVER_TIME_ZONE, value); return Status::OK(); } /* db config */ Status Config::SetDBConfigPrimaryPath(const std::string& value) { Status s = CheckDBConfigPrimaryPath(value); if (!s.ok()) { return s; } SetConfigValueInMem(CONFIG_DB, CONFIG_DB_PRIMARY_PATH, value); return Status::OK(); } Status Config::SetDBConfigSecondaryPath(const std::string& value) { Status s = CheckDBConfigSecondaryPath(value); if (!s.ok()) { return s; } SetConfigValueInMem(CONFIG_DB, CONFIG_DB_SECONDARY_PATH, value); return Status::OK(); } Status Config::SetDBConfigBackendUrl(const std::string& value) { Status s = CheckDBConfigBackendUrl(value); if (!s.ok()) { return s; } SetConfigValueInMem(CONFIG_DB, CONFIG_DB_BACKEND_URL, value); return Status::OK(); } Status Config::SetDBConfigArchiveDiskThreshold(const std::string& value) { Status s = CheckDBConfigArchiveDiskThreshold(value); if (!s.ok()) { return s; } SetConfigValueInMem(CONFIG_DB, CONFIG_DB_ARCHIVE_DISK_THRESHOLD, value); return Status::OK(); } Status Config::SetDBConfigArchiveDaysThreshold(const std::string& value) { Status s = CheckDBConfigArchiveDaysThreshold(value); if (!s.ok()) { return s; } SetConfigValueInMem(CONFIG_DB, CONFIG_DB_ARCHIVE_DAYS_THRESHOLD, value); return Status::OK(); } Status Config::SetDBConfigInsertBufferSize(const std::string& value) { Status s = CheckDBConfigInsertBufferSize(value); if (!s.ok()) { return s; } SetConfigValueInMem(CONFIG_DB, CONFIG_DB_INSERT_BUFFER_SIZE, value); return Status::OK(); } /* metric config */ Status Config::SetMetricConfigEnableMonitor(const std::string& value) { Status s = CheckMetricConfigEnableMonitor(value); if (!s.ok()) { return s; } SetConfigValueInMem(CONFIG_DB, CONFIG_METRIC_ENABLE_MONITOR, value); return Status::OK(); } Status Config::SetMetricConfigCollector(const std::string& value) { Status s = CheckMetricConfigCollector(value); if (!s.ok()) { return s; } SetConfigValueInMem(CONFIG_DB, CONFIG_METRIC_COLLECTOR, value); return Status::OK(); } Status Config::SetMetricConfigPrometheusPort(const std::string& value) { Status s = CheckMetricConfigPrometheusPort(value); if (!s.ok()) { return s; } SetConfigValueInMem(CONFIG_DB, CONFIG_METRIC_PROMETHEUS_PORT, value); return Status::OK(); } /* cache config */ Status Config::SetCacheConfigCpuCacheCapacity(const std::string& value) { Status s = CheckCacheConfigCpuCacheCapacity(value); if (!s.ok()) { return s; } SetConfigValueInMem(CONFIG_DB, CONFIG_CACHE_CPU_CACHE_CAPACITY, value); return Status::OK(); } Status Config::SetCacheConfigCpuCacheThreshold(const std::string& value) { Status s = CheckCacheConfigCpuCacheThreshold(value); if (!s.ok()) { return s; } SetConfigValueInMem(CONFIG_DB, CONFIG_CACHE_CPU_CACHE_THRESHOLD, value); return Status::OK(); } Status Config::SetCacheConfigGpuCacheCapacity(const std::string& value) { Status s = CheckCacheConfigGpuCacheCapacity(value); if (!s.ok()) { return s; } SetConfigValueInMem(CONFIG_DB, CONFIG_CACHE_GPU_CACHE_CAPACITY, value); return Status::OK(); } Status Config::SetCacheConfigGpuCacheThreshold(const std::string& value) { Status s = CheckCacheConfigGpuCacheThreshold(value); if (!s.ok()) { return s; } SetConfigValueInMem(CONFIG_DB, CONFIG_CACHE_GPU_CACHE_THRESHOLD, value); return Status::OK(); } Status Config::SetCacheConfigCacheInsertData(const std::string& value) { Status s = CheckCacheConfigCacheInsertData(value); if (!s.ok()) { return s; } SetConfigValueInMem(CONFIG_DB, CONFIG_CACHE_CACHE_INSERT_DATA, value); return Status::OK(); } /* engine config */ Status Config::SetEngineConfigUseBlasThreshold(const std::string& value) { Status s = CheckEngineConfigUseBlasThreshold(value); if (!s.ok()) { return s; } SetConfigValueInMem(CONFIG_DB, CONFIG_ENGINE_USE_BLAS_THRESHOLD, value); return Status::OK(); } Status Config::SetEngineConfigOmpThreadNum(const std::string& value) { Status s = CheckEngineConfigOmpThreadNum(value); if (!s.ok()) { return s; } SetConfigValueInMem(CONFIG_DB, CONFIG_ENGINE_OMP_THREAD_NUM, value); return Status::OK(); } Status Config::SetEngineConfigGpuSearchThreshold(const std::string& value) { Status s = CheckEngineConfigGpuSearchThreshold(value); if (!s.ok()) { return s; } SetConfigValueInMem(CONFIG_DB, CONFIG_ENGINE_GPU_SEARCH_THRESHOLD, value); return Status::OK(); } /* resource config */ Status Config::SetResourceConfigMode(const std::string& value) { Status s = CheckResourceConfigMode(value); if (!s.ok()) { return s; } SetConfigValueInMem(CONFIG_DB, CONFIG_RESOURCE_MODE, value); return Status::OK(); } Status Config::SetResourceConfigIndexBuildDevice(const std::string& value) { Status s = CheckResourceConfigIndexBuildDevice(value); if (!s.ok()) { return s; } SetConfigValueInMem(CONFIG_DB, CONFIG_RESOURCE_INDEX_BUILD_DEVICE, value); return Status::OK(); } } // namespace server } // namespace milvus