/******************************************************************************* * Copyright 上海赜睿信息科技有限公司(Zilliz) - All Rights Reserved * Unauthorized copying of this file, via any medium is strictly prohibited. * Proprietary and confidential. ******************************************************************************/ #include "Utils.h" #include "utils/CommonUtil.h" #include "Log.h" #include #include #include namespace zilliz { namespace milvus { namespace engine { namespace utils { namespace { const char* TABLES_FOLDER = "/tables/"; uint64_t index_file_counter = 0; std::mutex index_file_counter_mutex; std::string ConstructParentFolder(const std::string& db_path, const meta::TableFileSchema& table_file) { std::string table_path = db_path + TABLES_FOLDER + table_file.table_id_; std::string partition_path = table_path + "/" + std::to_string(table_file.date_); return partition_path; } std::string GetTableFileParentFolder(const DBMetaOptions& options, const meta::TableFileSchema& table_file) { uint64_t path_count = options.slave_paths.size() + 1; std::string target_path = options.path; uint64_t index = 0; if(meta::TableFileSchema::NEW_INDEX == table_file.file_type_) { // index file is large file and to be persisted permanently // we need to distribute index files to each db_path averagely // round robin according to a file counter std::lock_guard lock(index_file_counter_mutex); index = index_file_counter % path_count; index_file_counter++; } else { // for other type files, they could be merged or deleted // so we round robin according to their file id index = table_file.id_ % path_count; } if (index > 0) { target_path = options.slave_paths[index - 1]; } return ConstructParentFolder(target_path, table_file); } } long GetMicroSecTimeStamp() { auto now = std::chrono::system_clock::now(); auto micros = std::chrono::duration_cast( now.time_since_epoch()).count(); return micros; } Status CreateTablePath(const DBMetaOptions& options, const std::string& table_id) { std::string db_path = options.path; std::string table_path = db_path + TABLES_FOLDER + table_id; auto status = server::CommonUtil::CreateDirectory(table_path); if (status != 0) { ENGINE_LOG_ERROR << "Create directory " << table_path << " Error"; return Status::Error("Failed to create table path"); } for(auto& path : options.slave_paths) { table_path = path + TABLES_FOLDER + table_id; status = server::CommonUtil::CreateDirectory(table_path); if (status != 0) { ENGINE_LOG_ERROR << "Create directory " << table_path << " Error"; return Status::Error("Failed to create table path"); } } return Status::OK(); } Status DeleteTablePath(const DBMetaOptions& options, const std::string& table_id, bool force) { std::vector paths = options.slave_paths; paths.push_back(options.path); for(auto& path : paths) { std::string table_path = path + TABLES_FOLDER + table_id; if(force) { boost::filesystem::remove_all(table_path); ENGINE_LOG_DEBUG << "Remove table folder: " << table_path; } else if(boost::filesystem::exists(table_path) && boost::filesystem::is_empty(table_path)) { boost::filesystem::remove_all(table_path); ENGINE_LOG_DEBUG << "Remove table folder: " << table_path; } } return Status::OK(); } Status CreateTableFilePath(const DBMetaOptions& options, meta::TableFileSchema& table_file) { std::string parent_path = GetTableFileParentFolder(options, table_file); auto status = server::CommonUtil::CreateDirectory(parent_path); if (status != 0) { ENGINE_LOG_ERROR << "Create directory " << parent_path << " Error"; return Status::DBTransactionError("Failed to create partition directory"); } table_file.location_ = parent_path + "/" + table_file.file_id_; return Status::OK(); } Status GetTableFilePath(const DBMetaOptions& options, meta::TableFileSchema& table_file) { std::string parent_path = ConstructParentFolder(options.path, table_file); std::string file_path = parent_path + "/" + table_file.file_id_; if(boost::filesystem::exists(file_path)) { table_file.location_ = file_path; return Status::OK(); } else { for(auto& path : options.slave_paths) { parent_path = ConstructParentFolder(path, table_file); file_path = parent_path + "/" + table_file.file_id_; if(boost::filesystem::exists(file_path)) { table_file.location_ = file_path; return Status::OK(); } } } std::string msg = "Table file doesn't exist: " + table_file.file_id_; ENGINE_LOG_ERROR << msg; return Status::Error(msg); } Status DeleteTableFilePath(const DBMetaOptions& options, meta::TableFileSchema& table_file) { utils::GetTableFilePath(options, table_file); boost::filesystem::remove(table_file.location_); return Status::OK(); } bool IsSameIndex(const TableIndex& index1, const TableIndex& index2) { return index1.engine_type_ == index2.engine_type_ && index1.nlist_ == index2.nlist_ && index1.metric_type_ == index2.metric_type_; } meta::DateT GetDate(const std::time_t& t, int day_delta) { struct tm ltm; localtime_r(&t, <m); if (day_delta > 0) { do { ++ltm.tm_mday; --day_delta; } while(day_delta > 0); mktime(<m); } else if (day_delta < 0) { do { --ltm.tm_mday; ++day_delta; } while(day_delta < 0); mktime(<m); } else { ltm.tm_mday; } return ltm.tm_year*10000 + ltm.tm_mon*100 + ltm.tm_mday; } meta::DateT GetDateWithDelta(int day_delta) { return GetDate(std::time(nullptr), day_delta); } meta::DateT GetDate() { return GetDate(std::time(nullptr), 0); } } // namespace utils } // namespace engine } // namespace milvus } // namespace zilliz