/* * Copyright (c) 2019 TAOS Data, Inc. * * This program is free software: you can use, redistribute, and/or modify * it under the terms of the GNU Affero General Public License, version 3 * or later ("AGPL"), as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . */ package main import ( "database/sql" "fmt" _ "github.com/taosdata/driver-go/taosSql" "os" "sync" "runtime" "strconv" "time" "flag" "math/rand" //"golang.org/x/sys/unix" ) const ( maxLocationSize = 32 maxSqlBufSize = 65480 ) var locations = [maxLocationSize]string { "Beijing", "Shanghai", "Guangzhou", "Shenzhen", "HangZhou", "Tianjin", "Wuhan", "Changsha", "Nanjing", "Xian"} type config struct { hostName string serverPort int user string password string dbName string supTblName string tablePrefix string numOftables int numOfRecordsPerTable int numOfRecordsPerReq int numOfThreads int startTimestamp string startTs int64 keep int days int } var configPara config var taosDriverName = "taosSql" var url string func init() { flag.StringVar(&configPara.hostName, "h", "127.0.0.1","The host to connect to TDengine server.") flag.IntVar(&configPara.serverPort, "p", 6030, "The TCP/IP port number to use for the connection to TDengine server.") flag.StringVar(&configPara.user, "u", "root", "The TDengine user name to use when connecting to the server.") flag.StringVar(&configPara.password, "P", "taosdata", "The password to use when connecting to the server.") flag.StringVar(&configPara.dbName, "d", "test", "Destination database.") flag.StringVar(&configPara.tablePrefix, "m", "d", "Table prefix name.") flag.IntVar(&configPara.numOftables, "t", 2, "The number of tables.") flag.IntVar(&configPara.numOfRecordsPerTable, "n", 10, "The number of records per table.") flag.IntVar(&configPara.numOfRecordsPerReq, "r", 3, "The number of records per request.") flag.IntVar(&configPara.numOfThreads, "T", 1, "The number of threads.") flag.StringVar(&configPara.startTimestamp, "s", "2020-10-01 08:00:00", "The start timestamp for one table.") flag.Parse() configPara.keep = 365 * 20 configPara.days = 30 configPara.supTblName = "meters" startTs, err := time.ParseInLocation("2006-01-02 15:04:05", configPara.startTimestamp, time.Local) if err==nil { configPara.startTs = startTs.UnixNano() / 1e6 } } func printAllArgs() { fmt.Printf("\n============= args parse result: =============\n") fmt.Printf("dbName: %v\n", configPara.hostName) fmt.Printf("serverPort: %v\n", configPara.serverPort) fmt.Printf("usr: %v\n", configPara.user) fmt.Printf("password: %v\n", configPara.password) fmt.Printf("dbName: %v\n", configPara.dbName) fmt.Printf("tablePrefix: %v\n", configPara.tablePrefix) fmt.Printf("numOftables: %v\n", configPara.numOftables) fmt.Printf("numOfRecordsPerTable: %v\n", configPara.numOfRecordsPerTable) fmt.Printf("numOfRecordsPerReq: %v\n", configPara.numOfRecordsPerReq) fmt.Printf("numOfThreads: %v\n", configPara.numOfThreads) fmt.Printf("startTimestamp: %v[%v]\n", configPara.startTimestamp, configPara.startTs) fmt.Printf("================================================\n") } func main() { printAllArgs() fmt.Printf("Please press enter key to continue....\n") fmt.Scanln() url = "root:taosdata@/tcp(" + configPara.hostName + ":" + strconv.Itoa(configPara.serverPort) + ")/" //url = fmt.Sprintf("%s:%s@/tcp(%s:%d)/%s?interpolateParams=true", configPara.user, configPara.password, configPara.hostName, configPara.serverPort, configPara.dbName) // open connect to taos server //db, err := sql.Open(taosDriverName, url) //if err != nil { // fmt.Println("Open database error: %s\n", err) // os.Exit(1) //} //defer db.Close() rand.Seed(time.Now().Unix()) createDatabase(configPara.dbName, configPara.supTblName) fmt.Printf("======== create database success! ========\n\n") //create_table(db, stblName) multiThreadCreateTable(configPara.numOfThreads, configPara.numOftables, configPara.dbName, configPara.tablePrefix) fmt.Printf("======== create super table and child tables success! ========\n\n") //insert_data(db, demot) multiThreadInsertData(configPara.numOfThreads, configPara.numOftables, configPara.dbName, configPara.tablePrefix) fmt.Printf("======== insert data into child tables success! ========\n\n") //select_data(db, demot) selectTest(configPara.dbName, configPara.tablePrefix, configPara.supTblName) fmt.Printf("======== select data success! ========\n\n") fmt.Printf("======== end demo ========\n") } func createDatabase(dbName string, supTblName string) { db, err := sql.Open(taosDriverName, url) if err != nil { fmt.Println("Open database error: %s\n", err) os.Exit(1) } defer db.Close() // drop database if exists sqlStr := "drop database if exists " + dbName _, err = db.Exec(sqlStr) checkErr(err, sqlStr) time.Sleep(time.Second) // create database sqlStr = "create database " + dbName + " keep " + strconv.Itoa(configPara.keep) + " days " + strconv.Itoa(configPara.days) _, err = db.Exec(sqlStr) checkErr(err, sqlStr) // use database //sqlStr = "use " + dbName //_, err = db.Exec(sqlStr) //checkErr(err, sqlStr) sqlStr = "create table if not exists " + dbName + "." + supTblName + " (ts timestamp, current float, voltage int, phase float) tags(location binary(64), groupId int);" _, err = db.Exec(sqlStr) checkErr(err, sqlStr) } func multiThreadCreateTable(threads int, ntables int, dbName string, tablePrefix string) { st := time.Now().UnixNano() if (threads < 1) { threads = 1; } a := ntables / threads; if (a < 1) { threads = ntables; a = 1; } b := ntables % threads; last := 0; endTblId := 0 wg := sync.WaitGroup{} for i := 0; i < threads; i++ { startTblId := last if (i < b ) { endTblId = last + a } else { endTblId = last + a - 1 } last = endTblId + 1 wg.Add(1) go createTable(dbName, tablePrefix, startTblId, endTblId, &wg) } wg.Wait() et := time.Now().UnixNano() fmt.Printf("create tables spent duration: %6.6fs\n", (float32(et-st))/1e9) } func createTable(dbName string, childTblPrefix string, startTblId int, endTblId int, wg *sync.WaitGroup) { //fmt.Printf("subThread[%d]: create table from %d to %d \n", unix.Gettid(), startTblId, endTblId) // windows.GetCurrentThreadId() db, err := sql.Open(taosDriverName, url) if err != nil { fmt.Println("Open database error: %s\n", err) os.Exit(1) } defer db.Close() for i := startTblId; i <= endTblId; i++ { sqlStr := "create table if not exists " + dbName + "." + childTblPrefix + strconv.Itoa(i) + " using " + dbName + ".meters tags('" + locations[i%maxLocationSize] + "', " + strconv.Itoa(i) + ");" //fmt.Printf("sqlStr: %v\n", sqlStr) _, err = db.Exec(sqlStr) checkErr(err, sqlStr) } wg.Done() runtime.Goexit() } func generateRowData(ts int64) string { voltage := rand.Int() % 1000 current := 200 + rand.Float32() phase := rand.Float32() values := "( " + strconv.FormatInt(ts, 10) + ", " + strconv.FormatFloat(float64(current), 'f', 6, 64) + ", " + strconv.Itoa(voltage) + ", " + strconv.FormatFloat(float64(phase), 'f', 6, 64) + " ) " return values } func insertData(dbName string, childTblPrefix string, startTblId int, endTblId int, wg *sync.WaitGroup) { //fmt.Printf("subThread[%d]: insert data to table from %d to %d \n", unix.Gettid(), startTblId, endTblId) // windows.GetCurrentThreadId() db, err := sql.Open(taosDriverName, url) if err != nil { fmt.Println("Open database error: %s\n", err) os.Exit(1) } defer db.Close() tmpTs := configPara.startTs; //rand.New(rand.NewSource(time.Now().UnixNano())) for tID := startTblId; tID <= endTblId; tID++{ totalNum := 0 for { sqlStr := "insert into " + dbName + "." + childTblPrefix + strconv.Itoa(tID) + " values " currRowNum := 0 for { tmpTs += 1000 valuesOfRow := generateRowData(tmpTs) currRowNum += 1 totalNum += 1 sqlStr = fmt.Sprintf("%s %s", sqlStr, valuesOfRow) if (currRowNum >= configPara.numOfRecordsPerReq || totalNum >= configPara.numOfRecordsPerTable) { break } } res, err := db.Exec(sqlStr) checkErr(err, sqlStr) count, err := res.RowsAffected() checkErr(err, "rows affected") if (count != int64(currRowNum)) { fmt.Printf("insert data, expect affected:%d, actual:%d\n", currRowNum, count) os.Exit(1) } if (totalNum >= configPara.numOfRecordsPerTable) { break } } } wg.Done() runtime.Goexit() } func multiThreadInsertData(threads int, ntables int, dbName string, tablePrefix string) { st := time.Now().UnixNano() if (threads < 1) { threads = 1; } a := ntables / threads; if (a < 1) { threads = ntables; a = 1; } b := ntables % threads; last := 0; endTblId := 0 wg := sync.WaitGroup{} for i := 0; i < threads; i++ { startTblId := last if (i < b ) { endTblId = last + a } else { endTblId = last + a - 1 } last = endTblId + 1 wg.Add(1) go insertData(dbName, tablePrefix, startTblId , endTblId, &wg) } wg.Wait() et := time.Now().UnixNano() fmt.Printf("insert data spent duration: %6.6fs\n", (float32(et-st))/1e9) } func selectTest(dbName string, tbPrefix string, supTblName string){ db, err := sql.Open(taosDriverName, url) if err != nil { fmt.Println("Open database error: %s\n", err) os.Exit(1) } defer db.Close() // select sql 1 limit := 3 offset := 0 sqlStr := "select * from " + dbName + "." + supTblName + " limit " + strconv.Itoa(limit) + " offset " + strconv.Itoa(offset) rows, err := db.Query(sqlStr) checkErr(err, sqlStr) defer rows.Close() fmt.Printf("query sql: %s\n", sqlStr) for rows.Next() { var ( ts string current float32 voltage int phase float32 location string groupid int ) err := rows.Scan(&ts, ¤t, &voltage, &phase, &location, &groupid) if err != nil { checkErr(err, "rows scan fail") } fmt.Printf("ts:%s\t current:%f\t voltage:%d\t phase:%f\t location:%s\t groupid:%d\n", ts, current, voltage, phase, location, groupid) } // check iteration error if rows.Err() != nil { checkErr(err, "rows next iteration error") } // select sql 2 sqlStr = "select avg(voltage), min(voltage), max(voltage) from " + dbName + "." + tbPrefix + strconv.Itoa( rand.Int() % configPara.numOftables) rows, err = db.Query(sqlStr) checkErr(err, sqlStr) defer rows.Close() fmt.Printf("\nquery sql: %s\n", sqlStr) for rows.Next() { var ( voltageAvg float32 voltageMin int voltageMax int ) err := rows.Scan(&voltageAvg, &voltageMin, &voltageMax) if err != nil { checkErr(err, "rows scan fail") } fmt.Printf("avg(voltage):%f\t min(voltage):%d\t max(voltage):%d\n", voltageAvg, voltageMin, voltageMax) } // check iteration error if rows.Err() != nil { checkErr(err, "rows next iteration error") } // select sql 3 sqlStr = "select last(*) from " + dbName + "." + supTblName rows, err = db.Query(sqlStr) checkErr(err, sqlStr) defer rows.Close() fmt.Printf("\nquery sql: %s\n", sqlStr) for rows.Next() { var ( lastTs string lastCurrent float32 lastVoltage int lastPhase float32 ) err := rows.Scan(&lastTs, &lastCurrent, &lastVoltage, &lastPhase) if err != nil { checkErr(err, "rows scan fail") } fmt.Printf("last(ts):%s\t last(current):%f\t last(voltage):%d\t last(phase):%f\n", lastTs, lastCurrent, lastVoltage, lastPhase) } // check iteration error if rows.Err() != nil { checkErr(err, "rows next iteration error") } } func checkErr(err error, prompt string) { if err != nil { fmt.Printf("%s\n", prompt) panic(err) } }