使用go語言操作mysql資料庫
1.下載並匯入資料庫驅動包
官方不提供實現,先下載第三方的實現,點選這裡檢視各種各樣的實現版本。
這裡選擇了Go-MySQL-Driver這個實現。地址是:https://github.com/go-sql-driver/mysql/。
然後按照裡面的說明下載驅動包:
$ go get github.com/go-sql-driver/mysql
最後匯入包即可:
import "database/sql" import _ "github.com/go-sql-driver/mysql"
2.連線至資料庫
db, err := sql.Open("mysql", "root:[email protected]
3.執行查詢
(1)Exec
result, err := db.Exec(
"INSERT INTO users (name, age) VALUES (?, ?)",
"gopher",
27,
)
(2)Query
rows, err := db.Query("SELECT name FROM users WHERE age = ?", age)
if err != nil {
log.Fatal(err)
}
for rows.Next() {
var name string
if err := rows.Scan(&name); err != nil {
log.Fatal(err)
}
fmt.Printf("%s is %d\n", name, age)
}
if err := rows.Err(); err != nil {
log.Fatal(err)
}
(3)QueryRow
var age int64
row := db.QueryRow("SELECT age FROM users WHERE name = ?", name)
err := row.Scan(&age)
(4)Prepared statements
age := 27
stmt, err := db.Prepare("SELECT name FROM users WHERE age = ?")
if err != nil {
log.Fatal(err)
}
rows, err := stmt.Query(age)
// process rows
4. 事務
tx, err := db.Begin()
if err != nil {
log.Fatal(err)
}
5. 各種方式效率分析
問題:db.exec和statement.exec和tx.exec的區別?
例項如下:
package main
import (
"strconv"
"database/sql"
_ "github.com/go-sql-driver/mysql"
"fmt"
"time"
"log"
)
var db = &sql.DB{}
func init(){
db,_ = sql.Open("mysql", "root:[email protected]/book")
}
func main() {
insert()
query()
update()
query()
delete()
}
func update(){
//方式1 update
start := time.Now()
for i := 1001;i<=1100;i++{
db.Exec("UPdate user set age=? where uid=? ",i,i)
}
end := time.Now()
fmt.Println("方式1 update total time:",end.Sub(start).Seconds())
//方式2 update
start = time.Now()
for i := 1101;i<=1200;i++{
stm,_ := db.Prepare("UPdate user set age=? where uid=? ")
stm.Exec(i,i)
stm.Close()
}
end = time.Now()
fmt.Println("方式2 update total time:",end.Sub(start).Seconds())
//方式3 update
start = time.Now()
stm,_ := db.Prepare("UPdate user set age=? where uid=?")
for i := 1201;i<=1300;i++{
stm.Exec(i,i)
}
stm.Close()
end = time.Now()
fmt.Println("方式3 update total time:",end.Sub(start).Seconds())
//方式4 update
start = time.Now()
tx,_ := db.Begin()
for i := 1301;i<=1400;i++{
tx.Exec("UPdate user set age=? where uid=?",i,i)
}
tx.Commit()
end = time.Now()
fmt.Println("方式4 update total time:",end.Sub(start).Seconds())
//方式5 update
start = time.Now()
for i := 1401;i<=1500;i++{
tx,_ := db.Begin()
tx.Exec("UPdate user set age=? where uid=?",i,i)
tx.Commit()
}
end = time.Now()
fmt.Println("方式5 update total time:",end.Sub(start).Seconds())
}
func delete(){
//方式1 delete
start := time.Now()
for i := 1001;i<=1100;i++{
db.Exec("DELETE FROM USER WHERE uid=?",i)
}
end := time.Now()
fmt.Println("方式1 delete total time:",end.Sub(start).Seconds())
//方式2 delete
start = time.Now()
for i := 1101;i<=1200;i++{
stm,_ := db.Prepare("DELETE FROM USER WHERE uid=?")
stm.Exec(i)
stm.Close()
}
end = time.Now()
fmt.Println("方式2 delete total time:",end.Sub(start).Seconds())
//方式3 delete
start = time.Now()
stm,_ := db.Prepare("DELETE FROM USER WHERE uid=?")
for i := 1201;i<=1300;i++{
stm.Exec(i)
}
stm.Close()
end = time.Now()
fmt.Println("方式3 delete total time:",end.Sub(start).Seconds())
//方式4 delete
start = time.Now()
tx,_ := db.Begin()
for i := 1301;i<=1400;i++{
tx.Exec("DELETE FROM USER WHERE uid=?",i)
}
tx.Commit()
end = time.Now()
fmt.Println("方式4 delete total time:",end.Sub(start).Seconds())
//方式5 delete
start = time.Now()
for i := 1401;i<=1500;i++{
tx,_ := db.Begin()
tx.Exec("DELETE FROM USER WHERE uid=?",i)
tx.Commit()
}
end = time.Now()
fmt.Println("方式5 delete total time:",end.Sub(start).Seconds())
}
func query(){
//方式1 query
start := time.Now()
rows,_ := db.Query("SELECT uid,username FROM USER")
defer rows.Close()
for rows.Next(){
var name string
var id int
if err := rows.Scan(&id,&name); err != nil {
log.Fatal(err)
}
//fmt.Printf("name:%s ,id:is %d\n", name, id)
}
end := time.Now()
fmt.Println("方式1 query total time:",end.Sub(start).Seconds())
//方式2 query
start = time.Now()
stm,_ := db.Prepare("SELECT uid,username FROM USER")
defer stm.Close()
rows,_ = stm.Query()
defer rows.Close()
for rows.Next(){
var name string
var id int
if err := rows.Scan(&id,&name); err != nil {
log.Fatal(err)
}
// fmt.Printf("name:%s ,id:is %d\n", name, id)
}
end = time.Now()
fmt.Println("方式2 query total time:",end.Sub(start).Seconds())
//方式3 query
start = time.Now()
tx,_ := db.Begin()
defer tx.Commit()
rows,_ = tx.Query("SELECT uid,username FROM USER")
defer rows.Close()
for rows.Next(){
var name string
var id int
if err := rows.Scan(&id,&name); err != nil {
log.Fatal(err)
}
//fmt.Printf("name:%s ,id:is %d\n", name, id)
}
end = time.Now()
fmt.Println("方式3 query total time:",end.Sub(start).Seconds())
}
func insert() {
//方式1 insert
//strconv,int轉string:strconv.Itoa(i)
start := time.Now()
for i := 1001;i<=1100;i++{
//每次迴圈內部都會去連線池獲取一個新的連線,效率低下
db.Exec("INSERT INTO user(uid,username,age) values(?,?,?)",i,"user"+strconv.Itoa(i),i-1000)
}
end := time.Now()
fmt.Println("方式1 insert total time:",end.Sub(start).Seconds())
//方式2 insert
start = time.Now()
for i := 1101;i<=1200;i++{
//Prepare函式每次迴圈內部都會去連線池獲取一個新的連線,效率低下
stm,_ := db.Prepare("INSERT INTO user(uid,username,age) values(?,?,?)")
stm.Exec(i,"user"+strconv.Itoa(i),i-1000)
stm.Close()
}
end = time.Now()
fmt.Println("方式2 insert total time:",end.Sub(start).Seconds())
//方式3 insert
start = time.Now()
stm,_ := db.Prepare("INSERT INTO user(uid,username,age) values(?,?,?)")
for i := 1201;i<=1300;i++{
//Exec內部並沒有去獲取連線,為什麼效率還是低呢?
stm.Exec(i,"user"+strconv.Itoa(i),i-1000)
}
stm.Close()
end = time.Now()
fmt.Println("方式3 insert total time:",end.Sub(start).Seconds())
//方式4 insert
start = time.Now()
//Begin函式內部會去獲取連線
tx,_ := db.Begin()
for i := 1301;i<=1400;i++{
//每次迴圈用的都是tx內部的連線,沒有新建連線,效率高
tx.Exec("INSERT INTO user(uid,username,age) values(?,?,?)",i,"user"+strconv.Itoa(i),i-1000)
}
//最後釋放tx內部的連線
tx.Commit()
end = time.Now()
fmt.Println("方式4 insert total time:",end.Sub(start).Seconds())
//方式5 insert
start = time.Now()
for i := 1401;i<=1500;i++{
//Begin函式每次迴圈內部都會去連線池獲取一個新的連線,效率低下
tx,_ := db.Begin()
tx.Exec("INSERT INTO user(uid,username,age) values(?,?,?)",i,"user"+strconv.Itoa(i),i-1000)
//Commit執行後連線也釋放了
tx.Commit()
}
end = time.Now()
fmt.Println("方式5 insert total time:",end.Sub(start).Seconds())
}
程式輸出結果:
方式1 insert total time: 3.7952171
方式2 insert total time: 4.3162468
方式3 insert total time: 4.3392482
方式4 insert total time: 0.3970227
方式5 insert total time: 7.3894226
方式1 query total time: 0.0070004
方式2 query total time: 0.0100006
方式3 query total time: 0.0100006
方式1 update total time: 7.3394198
方式2 update total time: 7.8464488
方式3 update total time: 6.0053435
方式4 update total time: 0.6630379000000001
方式5 update total time: 4.5402597
方式1 query total time: 0.0070004
方式2 query total time: 0.0060004
方式3 query total time: 0.008000400000000001
方式1 delete total time: 3.8652211000000003
方式2 delete total time: 3.8582207
方式3 delete total time: 3.6972114
方式4 delete total time: 0.43202470000000004
方式5 delete total time: 3.7972172
6. 深入內部分析原因分析
(1)sql.Open("mysql", "username:[email protected]/databasename")
功能:返回一個DB物件,DB物件對於多個goroutines併發使用是安全的,DB物件內部封裝了連線池。
實現:open函式並沒有建立連線,它只是驗證引數是否合法。然後開啟一個單獨goroutines去監聽是否需要建立新的連線,當有請求建立新連線時就建立新連線。
注意:open函式應該被呼叫一次,通常是沒必要close的。
(2)DB.Exec()
功能:執行不返回行(row)的查詢,比如INSERT,UPDATE,DELETE
實現:DB交給內部的exec方法負責查詢。exec會首先呼叫DB內部的conn方法從連線池裡面獲得一個連線。然後檢查內部的driver.Conn實現了Execer介面沒有,如果實現了該介面,會呼叫Execer介面的Exec方法執行查詢;否則呼叫Conn介面的Prepare方法負責查詢。
(3)DB.Query()
功能:用於檢索(retrieval),比如SELECT
實現:DB交給內部的query方法負責查詢。query首先呼叫DB內部的conn方法從連線池裡面獲得一個連線,然後呼叫內部的queryConn方法負責查詢。
(4)DB.QueryRow()
功能:用於返回單行的查詢
實現:轉交給DB.Query()查詢
(5)db.Prepare()
功能:返回一個Stmt。Stmt物件可以執行Exec,Query,QueryRow等操作。
實現:DB交給內部的prepare方法負責查詢。prepare首先呼叫DB內部的conn方法從連線池裡面獲得一個連線,然後呼叫driverConn的prepareLocked方法負責查詢。
Stmt相關方法:
st.Exec()
st.Query()
st.QueryRow()
st.Close()
(6)db.Begin()
功能:開啟事務,返回Tx物件。呼叫該方法後,這個TX就和指定的連線繫結在一起了。一旦事務提交或者回滾,該事務繫結的連線就還給DB的連線池。
實現:DB交給內部的begin方法負責處理。begin首先呼叫DB內部的conn方法從連線池裡面獲得一個連線,然後呼叫Conn介面的Begin方法獲得一個TX。
TX相關方法:
//內部執行流程和上面那些差不多,只是沒有先去獲取連線的一步,因為這些操作是和TX關聯的,Tx建立的時候就和一個連線綁定了,所以這些操作內部共用一個TX內部的連線。
tx.Exec()
tx.Query()
tx.QueryRow()
tx.Prepare()
tx.Commit()
tx.Rollback()
tx.Stmt()//用於將一個已存在的statement和tx繫結在一起。一個statement可以不和tx關聯,比如db.Prepare()返回的statement就沒有和TX關聯。
例子:
updateMoney, err := db.Prepare("UPDATE balance SET money=money+? WHERE id=?")
...
tx, err := db.Begin()
...
res, err := tx.Stmt(updateMoney).Exec(123.45, 98293203)
(7)原始碼中Stmt的定義
// Stmt is a prepared statement. Stmt is safe for concurrent use by multiple goroutines.
type Stmt struct {
// Immutable:
db *DB // where we came from
query string // that created the Stmt
stickyErr error // if non-nil, this error is returned for all operations
closemu sync.RWMutex // held exclusively during close, for read otherwise.
// If in a transaction, else both nil:
tx *Tx
txsi *driverStmt
mu sync.Mutex // protects the rest of the fields
closed bool
// css is a list of underlying driver statement interfaces
// that are valid on particular connections. This is only
// used if tx == nil and one is found that has idle
// connections. If tx != nil, txsi is always used.
css []connStmt
}
(7)幾個主要struct的內部主要的資料結構
參考資料
https://github.com/golang/go/wiki/SQLInterface