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移除书签TiDB 和 Golang 的简单 CRUD 应用程序
本文档将展示如何使用 TiDB 和 Golang 来构造一个简单的 CRUD 应用程序。
注意
推荐使用 Golang 1.16 以上版本进行 TiDB 的应用程序的编写。
第 1 步:启动你的 TiDB 集群
本节将介绍 TiDB 集群的启动方法。
- TiDB Cloud
- 本地集群
- Gitpod
你可以部署一个本地测试的 TiDB 集群或正式的 TiDB 集群。详细步骤,请参考:
基于 Git 的预配置的开发环境:现在就试试
该环境会自动克隆代码,并通过 TiUP 部署测试集群。
第 2 步:获取代码
git clone https://github.com/pingcap-inc/tidb-example-golang.git
- 使用 GORM(推荐)
- 使用 go-sql-driver/mysql
当前开源比较流行的 Golang ORM 为 GORM,此处将以 v1.23.5 版本进行说明。
封装一个用于适配 TiDB 事务的工具包 util,编写以下代码备用:
package utilimport ("gorm.io/gorm")// TiDBGormBegin start a TiDB and Gorm transaction as a block. If no error is returned, the transaction will be committed. Otherwise, the transaction will be rolled back.func TiDBGormBegin(db *gorm.DB, pessimistic bool, fc func(tx *gorm.DB) error) (err error) {session := db.Session(&gorm.Session{})if session.Error != nil {return session.Error}if pessimistic {session = session.Exec("set @@tidb_txn_mode=pessimistic")} else {session = session.Exec("set @@tidb_txn_mode=optimistic")}if session.Error != nil {return session.Error}return session.Transaction(fc)}
进入目录 gorm :
cd gorm
目录结构如下所示:
.├── Makefile├── go.mod├── go.sum└── gorm.go
其中,gorm.go 是 gorm 这个示例程序的主体。使用 gorm 时,相较于 go-sql-driver/mysql,gorm 屏蔽了创建数据库连接时,不同数据库差异的细节,其还封装了大量的操作,如 AutoMigrate、基本对象的 CRUD 等,极大的简化了代码量。
Player 是数据结构体,为数据库表在程序内的映射。Player 的每个属性都对应着 player 表的一个字段。相较于 go-sql-driver/mysql,gorm 的 Player 数据结构体为了给 gorm 提供更多的信息,加入了形如 `gorm:"primaryKey;type:VARCHAR(36);column:id"` 的注解,用来指示映射关系。
package mainimport ("fmt""math/rand""github.com/google/uuid""github.com/pingcap-inc/tidb-example-golang/util""gorm.io/driver/mysql""gorm.io/gorm""gorm.io/gorm/clause""gorm.io/gorm/logger")type Player struct {ID string `gorm:"primaryKey;type:VARCHAR(36);column:id"`Coins int `gorm:"column:coins"`Goods int `gorm:"column:goods"`}func (*Player) TableName() string {return "player"}func main() {// 1. Configure the example database connection.db := createDB()// AutoMigrate for player tabledb.AutoMigrate(&Player{})// 2. Run some simple examples.simpleExample(db)// 3. Explore more.tradeExample(db)}func tradeExample(db *gorm.DB) {// Player 1: id is "1", has only 100 coins.// Player 2: id is "2", has 114514 coins, and 20 goods.player1 := &Player{ID: "1", Coins: 100}player2 := &Player{ID: "2", Coins: 114514, Goods: 20}// Create two players "by hand", using the INSERT statement on the backend.db.Clauses(clause.OnConflict{UpdateAll: true}).Create(player1)db.Clauses(clause.OnConflict{UpdateAll: true}).Create(player2)// Player 1 wants to buy 10 goods from player 2.// It will cost 500 coins, but player 1 cannot afford it.fmt.Println("\nbuyGoods:\n => this trade will fail")if err := buyGoods(db, player2.ID, player1.ID, 10, 500); err == nil {panic("there shouldn't be success")}// So player 1 has to reduce the incoming quantity to two.fmt.Println("\nbuyGoods:\n => this trade will success")if err := buyGoods(db, player2.ID, player1.ID, 2, 100); err != nil {panic(err)}}func simpleExample(db *gorm.DB) {// Create a player, who has a coin and a goods..if err := db.Clauses(clause.OnConflict{UpdateAll: true}).Create(&Player{ID: "test", Coins: 1, Goods: 1}).Error; err != nil {panic(err)}// Get a player.var testPlayer Playerdb.Find(&testPlayer, "id = ?", "test")fmt.Printf("getPlayer: %+v\n", testPlayer)// Create players with bulk inserts. Insert 1919 players totally, with 114 players per batch.bulkInsertPlayers := make([]Player, 1919, 1919)total, batch := 1919, 114for i := 0; i < total; i++ {bulkInsertPlayers[i] = Player{ID: uuid.New().String(),Coins: rand.Intn(10000),Goods: rand.Intn(10000),}}if err := db.Session(&gorm.Session{Logger: db.Logger.LogMode(logger.Error)}).CreateInBatches(bulkInsertPlayers, batch).Error; err != nil {panic(err)}// Count players amount.playersCount := int64(0)db.Model(&Player{}).Count(&playersCount)fmt.Printf("countPlayers: %d\n", playersCount)// Print 3 players.threePlayers := make([]Player, 3, 3)db.Limit(3).Find(&threePlayers)for index, player := range threePlayers {fmt.Printf("print %d player: %+v\n", index+1, player)}}func createDB() *gorm.DB {dsn := "root:@tcp(127.0.0.1:4000)/test?charset=utf8mb4"db, err := gorm.Open(mysql.Open(dsn), &gorm.Config{Logger: logger.Default.LogMode(logger.Info),})if err != nil {panic(err)}return db}func buyGoods(db *gorm.DB, sellID, buyID string, amount, price int) error {return util.TiDBGormBegin(db, true, func(tx *gorm.DB) error {var sellPlayer, buyPlayer Playerif err := tx.Clauses(clause.Locking{Strength: "UPDATE"}).Find(&sellPlayer, "id = ?", sellID).Error; err != nil {return err}if sellPlayer.ID != sellID || sellPlayer.Goods < amount {return fmt.Errorf("sell player %s goods not enough", sellID)}if err := tx.Clauses(clause.Locking{Strength: "UPDATE"}).Find(&buyPlayer, "id = ?", buyID).Error; err != nil {return err}if buyPlayer.ID != buyID || buyPlayer.Coins < price {return fmt.Errorf("buy player %s coins not enough", buyID)}updateSQL := "UPDATE player set goods = goods + ?, coins = coins + ? WHERE id = ?"if err := tx.Exec(updateSQL, -amount, price, sellID).Error; err != nil {return err}if err := tx.Exec(updateSQL, amount, -price, buyID).Error; err != nil {return err}fmt.Println("\n[buyGoods]:\n 'trade success'")return nil})}
使用 go-sql-driver/mysql 时,首先进入目录 sqldriver:
cd sqldriver
目录结构如下所示:
.├── Makefile├── dao.go├── go.mod├── go.sum├── sql│ └── dbinit.sql├── sql.go└── sqldriver.go
其中,dbinit.sql 为数据表初始化语句:
USE test;DROP TABLE IF EXISTS player;CREATE TABLE player (`id` VARCHAR(36),`coins` INTEGER,`goods` INTEGER,PRIMARY KEY (`id`));
sqldriver.go 是 sqldriver 这个示例程序的主体。因为 TiDB 与 MySQL 协议兼容,因此,需要初始化一个 MySQL 协议的数据源 db, err := sql.Open("mysql", dsn),以此连接到 TiDB。并在其后,调用 dao.go 中的一系列方法,用来管理数据对象,进行增删改查等操作。
package mainimport ("database/sql""fmt"_ "github.com/go-sql-driver/mysql")func main() {// 1. Configure the example database connection.dsn := "root:@tcp(127.0.0.1:4000)/test?charset=utf8mb4"openDB("mysql", dsn, func(db *sql.DB) {// 2. Run some simple examples.simpleExample(db)// 3. Explore more.tradeExample(db)})}func simpleExample(db *sql.DB) {// Create a player, who has a coin and a goods.err := createPlayer(db, Player{ID: "test", Coins: 1, Goods: 1})if err != nil {panic(err)}// Get a player.testPlayer, err := getPlayer(db, "test")if err != nil {panic(err)}fmt.Printf("getPlayer: %+v\n", testPlayer)// Create players with bulk inserts. Insert 1919 players totally, with 114 players per batch.err = bulkInsertPlayers(db, randomPlayers(1919), 114)if err != nil {panic(err)}// Count players amount.playersCount, err := getCount(db)if err != nil {panic(err)}fmt.Printf("countPlayers: %d\n", playersCount)// Print 3 players.threePlayers, err := getPlayerByLimit(db, 3)if err != nil {panic(err)}for index, player := range threePlayers {fmt.Printf("print %d player: %+v\n", index+1, player)}}func tradeExample(db *sql.DB) {// Player 1: id is "1", has only 100 coins.// Player 2: id is "2", has 114514 coins, and 20 goods.player1 := Player{ID: "1", Coins: 100}player2 := Player{ID: "2", Coins: 114514, Goods: 20}// Create two players "by hand", using the INSERT statement on the backend.if err := createPlayer(db, player1); err != nil {panic(err)}if err := createPlayer(db, player2); err != nil {panic(err)}// Player 1 wants to buy 10 goods from player 2.// It will cost 500 coins, but player 1 cannot afford it.fmt.Println("\nbuyGoods:\n => this trade will fail")if err := buyGoods(db, player2.ID, player1.ID, 10, 500); err == nil {panic("there shouldn't be success")}// So player 1 has to reduce the incoming quantity to two.fmt.Println("\nbuyGoods:\n => this trade will success")if err := buyGoods(db, player2.ID, player1.ID, 2, 100); err != nil {panic(err)}}func openDB(driverName, dataSourceName string, runnable func(db *sql.DB)) {db, err := sql.Open(driverName, dataSourceName)if err != nil {panic(err)}defer db.Close()runnable(db)}
随后,封装一个用于适配 TiDB 事务的工具包 util,编写以下代码备用:
package utilimport ("context""database/sql")type TiDBSqlTx struct {*sql.Txconn *sql.Connpessimistic bool}func TiDBSqlBegin(db *sql.DB, pessimistic bool) (*TiDBSqlTx, error) {ctx := context.Background()conn, err := db.Conn(ctx)if err != nil {return nil, err}if pessimistic {_, err = conn.ExecContext(ctx, "set @@tidb_txn_mode=?", "pessimistic")} else {_, err = conn.ExecContext(ctx, "set @@tidb_txn_mode=?", "optimistic")}if err != nil {return nil, err}tx, err := conn.BeginTx(ctx, nil)if err != nil {return nil, err}return &TiDBSqlTx{conn: conn,Tx: tx,pessimistic: pessimistic,}, nil}func (tx *TiDBSqlTx) Commit() error {defer tx.conn.Close()return tx.Tx.Commit()}func (tx *TiDBSqlTx) Rollback() error {defer tx.conn.Close()return tx.Tx.Rollback()}
在 dao.go 中定义一系列数据的操作方法,用来对提供数据的写入能力。这也是本例子中和核心部分。
package mainimport ("database/sql""fmt""math/rand""strings""github.com/google/uuid""github.com/pingcap-inc/tidb-example-golang/util")type Player struct {ID stringCoins intGoods int}// createPlayer create a playerfunc createPlayer(db *sql.DB, player Player) error {_, err := db.Exec(CreatePlayerSQL, player.ID, player.Coins, player.Goods)return err}// getPlayer get a playerfunc getPlayer(db *sql.DB, id string) (Player, error) {var player Playerrows, err := db.Query(GetPlayerSQL, id)if err != nil {return player, err}defer rows.Close()if rows.Next() {err = rows.Scan(&player.ID, &player.Coins, &player.Goods)if err == nil {return player, nil} else {return player, err}}return player, fmt.Errorf("can not found player")}// getPlayerByLimit get players by limitfunc getPlayerByLimit(db *sql.DB, limit int) ([]Player, error) {var players []Playerrows, err := db.Query(GetPlayerByLimitSQL, limit)if err != nil {return players, err}defer rows.Close()for rows.Next() {player := Player{}err = rows.Scan(&player.ID, &player.Coins, &player.Goods)if err == nil {players = append(players, player)} else {return players, err}}return players, nil}// bulk-insert playersfunc bulkInsertPlayers(db *sql.DB, players []Player, batchSize int) error {tx, err := util.TiDBSqlBegin(db, true)if err != nil {return err}stmt, err := tx.Prepare(buildBulkInsertSQL(batchSize))if err != nil {return err}defer stmt.Close()for len(players) > batchSize {if _, err := stmt.Exec(playerToArgs(players[:batchSize])...); err != nil {tx.Rollback()return err}players = players[batchSize:]}if len(players) != 0 {if _, err := tx.Exec(buildBulkInsertSQL(len(players)), playerToArgs(players)...); err != nil {tx.Rollback()return err}}if err := tx.Commit(); err != nil {tx.Rollback()return err}return nil}func getCount(db *sql.DB) (int, error) {count := 0rows, err := db.Query(GetCountSQL)if err != nil {return count, err}defer rows.Close()if rows.Next() {if err := rows.Scan(&count); err != nil {return count, err}}return count, nil}func buyGoods(db *sql.DB, sellID, buyID string, amount, price int) error {var sellPlayer, buyPlayer Playertx, err := util.TiDBSqlBegin(db, true)if err != nil {return err}buyExec := func() error {stmt, err := tx.Prepare(GetPlayerWithLockSQL)if err != nil {return err}defer stmt.Close()sellRows, err := stmt.Query(sellID)if err != nil {return err}defer sellRows.Close()if sellRows.Next() {if err := sellRows.Scan(&sellPlayer.ID, &sellPlayer.Coins, &sellPlayer.Goods); err != nil {return err}}sellRows.Close()if sellPlayer.ID != sellID || sellPlayer.Goods < amount {return fmt.Errorf("sell player %s goods not enough", sellID)}buyRows, err := stmt.Query(buyID)if err != nil {return err}defer buyRows.Close()if buyRows.Next() {if err := buyRows.Scan(&buyPlayer.ID, &buyPlayer.Coins, &buyPlayer.Goods); err != nil {return err}}buyRows.Close()if buyPlayer.ID != buyID || buyPlayer.Coins < price {return fmt.Errorf("buy player %s coins not enough", buyID)}updateStmt, err := tx.Prepare(UpdatePlayerSQL)if err != nil {return err}defer updateStmt.Close()if _, err := updateStmt.Exec(-amount, price, sellID); err != nil {return err}if _, err := updateStmt.Exec(amount, -price, buyID); err != nil {return err}return nil}err = buyExec()if err == nil {fmt.Println("\n[buyGoods]:\n 'trade success'")tx.Commit()} else {tx.Rollback()}return err}func playerToArgs(players []Player) []interface{} {var args []interface{}for _, player := range players {args = append(args, player.ID, player.Coins, player.Goods)}return args}func buildBulkInsertSQL(amount int) string {return CreatePlayerSQL + strings.Repeat(",(?,?,?)", amount-1)}func randomPlayers(amount int) []Player {players := make([]Player, amount, amount)for i := 0; i < amount; i++ {players[i] = Player{ID: uuid.New().String(),Coins: rand.Intn(10000),Goods: rand.Intn(10000),}}return players}
sql.go 中存放了 SQL 语句的常量。
package mainconst (CreatePlayerSQL = "INSERT INTO player (id, coins, goods) VALUES (?, ?, ?)"GetPlayerSQL = "SELECT id, coins, goods FROM player WHERE id = ?"GetCountSQL = "SELECT count(*) FROM player"GetPlayerWithLockSQL = GetPlayerSQL + " FOR UPDATE"UpdatePlayerSQL = "UPDATE player set goods = goods + ?, coins = coins + ? WHERE id = ?"GetPlayerByLimitSQL = "SELECT id, coins, goods FROM player LIMIT ?")
第 3 步:运行代码
本节将逐步介绍代码的运行方法。
第 3 步第 1 部分:go-sql-driver/mysql 表初始化
- 使用 GORM(推荐)
- 使用 go-sql-driver/mysql
注意
在 Gitpod Playground 中尝试 GORM: 现在就试试
无需手动初始化表。
注意
在 Gitpod Playground 中尝试 go-sql-driver/mysql: 现在就试试
使用 go-sql-driver/mysql 时,需手动初始化数据库表,若你本地已经安装了 mysql-client,且使用本地集群,可直接在 sqldriver 目录下运行:
make mysql
或直接执行:
mysql --host 127.0.0.1 --port 4000 -u root<sql/dbinit.sql
若你不使用本地集群,或未安装 mysql-client,请直接登录你的集群,并运行 sql/dbinit.sql 文件内的 SQL 语句。
第 3 步第 2 部分:TiDB Cloud 更改参数
- 使用 GORM(推荐)
- 使用 go-sql-driver/mysql
若你使用 TiDB Cloud Serverless Tier 集群,更改 gorm.go 内 dsn 参数值:
dsn := "root:@tcp(127.0.0.1:4000)/test?charset=utf8mb4"
若你设定的密码为 123456,而且从 TiDB Cloud Serverless Tier 集群面板中得到的连接信息为:
- Endpoint:
xxx.tidbcloud.com - Port:
4000 - User:
2aEp24QWEDLqRFs.root
那么此处应将 mysql.RegisterTLSConfig 和 dsn 更改为:
mysql.RegisterTLSConfig("register-tidb-tls", &tls.Config {MinVersion: tls.VersionTLS12,ServerName: "xxx.tidbcloud.com",})dsn := "2aEp24QWEDLqRFs.root:123456@tcp(xxx.tidbcloud.com:4000)/test?charset=utf8mb4&tls=register-tidb-tls"
若你使用 TiDB Cloud Serverless Tier 集群,更改 sqldriver.go 内 dsn 参数的值:
dsn := "root:@tcp(127.0.0.1:4000)/test?charset=utf8mb4"
若你设定的密码为 123456,而且从 TiDB Cloud Serverless Tier 集群面板中得到的连接信息为:
- Endpoint:
xxx.tidbcloud.com - Port:
4000 - User:
2aEp24QWEDLqRFs.root
那么此处应将 mysql.RegisterTLSConfig 和 dsn 更改为:
mysql.RegisterTLSConfig("register-tidb-tls", &tls.Config {MinVersion: tls.VersionTLS12,ServerName: "xxx.tidbcloud.com",})dsn := "2aEp24QWEDLqRFs.root:123456@tcp(xxx.tidbcloud.com:4000)/test?charset=utf8mb4&tls=register-tidb-tls"
第 3 步第 3 部分:运行
- 使用 GORM(推荐)
- 使用 go-sql-driver/mysql
运行 make all,这是以下两个操作的组合:
- 构建二进制 (make build):
go build -o bin/gorm-example - 运行 (make run):
./bin/gorm-example
你也可以单独运行这两个 make 命令或原生命令。
运行 make all,这是以下三个操作的组合:
- 创建表 (make mysql):
mysql --host 127.0.0.1 --port 4000 -u root<sql/dbinit.sql - 构建二进制 (make build):
go build -o bin/sql-driver-example - 运行 (make run):
./bin/sql-driver-example
你也可以单独运行这三个 make 命令或原生命令。
第 4 步:预期输出
- 使用 GORM(推荐)
- 使用 go-sql-driver/mysql
