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478 lines
11 KiB
Go

2 years ago
package client
import (
"context"
"math"
"math/rand"
"sync"
"time"
"github.com/pingcap/errors"
)
/*
Pool for efficient reuse of connections.
Usage:
pool := client.NewPool(log.Debugf, 100, 400, 5, `127.0.0.1:3306`, `username`, `userpwd`, `dbname`)
...
conn, _ := pool.GetConn(ctx)
defer pool.PutConn(conn)
conn.Execute/conn.Begin/etc...
*/
type (
Timestamp int64
LogFunc func(format string, args ...interface{})
Pool struct {
logFunc LogFunc
minAlive int
maxAlive int
maxIdle int
idleCloseTimeout Timestamp
idlePingTimeout Timestamp
connect func() (*Conn, error)
synchro struct {
sync.Mutex
idleConnections []Connection
stats ConnectionStats
}
readyConnection chan Connection
}
ConnectionStats struct {
// Uses internally
TotalCount int
// Only for stats
IdleCount int
CreatedCount int64
}
Connection struct {
conn *Conn
lastUseAt Timestamp
}
)
var (
// MaxIdleTimeoutWithoutPing - If the connection has been idle for more than this time,
// then ping will be performed before use to check if it alive
MaxIdleTimeoutWithoutPing = 10 * time.Second
// DefaultIdleTimeout - If the connection has been idle for more than this time,
// we can close it (but we should remember about Pool.minAlive)
DefaultIdleTimeout = 30 * time.Second
// MaxNewConnectionAtOnce - If we need to create new connections,
// then we will create no more than this number of connections at a time.
// This restriction will be ignored on pool initialization.
MaxNewConnectionAtOnce = 5
)
// NewPool initializes new connection pool and uses params: addr, user, password, dbName and options.
// minAlive specifies the minimum number of open connections that the pool will try to maintain.
// maxAlive specifies the maximum number of open connections (for internal reasons,
// may be greater by 1 inside newConnectionProducer).
// maxIdle specifies the maximum number of idle connections (see DefaultIdleTimeout).
func NewPool(
logFunc LogFunc,
minAlive int,
maxAlive int,
maxIdle int,
addr string,
user string,
password string,
dbName string,
options ...func(conn *Conn),
) *Pool {
if minAlive > maxAlive {
minAlive = maxAlive
}
if maxIdle > maxAlive {
maxIdle = maxAlive
}
if maxIdle <= minAlive {
maxIdle = minAlive
}
pool := &Pool{
logFunc: logFunc,
minAlive: minAlive,
maxAlive: maxAlive,
maxIdle: maxIdle,
idleCloseTimeout: Timestamp(math.Ceil(DefaultIdleTimeout.Seconds())),
idlePingTimeout: Timestamp(math.Ceil(MaxIdleTimeoutWithoutPing.Seconds())),
connect: func() (*Conn, error) {
return Connect(addr, user, password, dbName, options...)
},
readyConnection: make(chan Connection),
}
pool.synchro.idleConnections = make([]Connection, 0, pool.maxIdle)
go pool.newConnectionProducer()
if pool.minAlive > 0 {
pool.logFunc(`Pool: Setup %d new connections (minimal pool size)...`, pool.minAlive)
pool.startNewConnections(pool.minAlive)
}
go pool.closeOldIdleConnections()
return pool
}
func (pool *Pool) GetStats(stats *ConnectionStats) {
pool.synchro.Lock()
*stats = pool.synchro.stats
stats.IdleCount = len(pool.synchro.idleConnections)
pool.synchro.Unlock()
}
// GetConn returns connection from the pool or create new
func (pool *Pool) GetConn(ctx context.Context) (*Conn, error) {
for {
connection, err := pool.getConnection(ctx)
if err != nil {
return nil, err
}
// For long time idle connections, we do a ping check
if delta := pool.nowTs() - connection.lastUseAt; delta > pool.idlePingTimeout {
if err := pool.ping(connection.conn); err != nil {
pool.closeConn(connection.conn)
continue
}
}
return connection.conn, nil
}
}
// PutConn returns working connection back to pool
func (pool *Pool) PutConn(conn *Conn) {
pool.putConnection(Connection{
conn: conn,
lastUseAt: pool.nowTs(),
})
}
// DropConn closes the connection without any checks
func (pool *Pool) DropConn(conn *Conn) {
pool.closeConn(conn)
}
func (pool *Pool) putConnection(connection Connection) {
pool.synchro.Lock()
defer pool.synchro.Unlock()
// If someone is already waiting for a connection, then we return it to him
select {
case pool.readyConnection <- connection:
return
default:
}
// Nobody needs this connection
pool.putConnectionUnsafe(connection)
}
func (pool *Pool) nowTs() Timestamp {
return Timestamp(time.Now().Unix())
}
func (pool *Pool) getConnection(ctx context.Context) (Connection, error) {
pool.synchro.Lock()
connection := pool.getIdleConnectionUnsafe()
if connection.conn != nil {
pool.synchro.Unlock()
return connection, nil
}
pool.synchro.Unlock()
// No idle connections are available
select {
case connection := <-pool.readyConnection:
return connection, nil
case <-ctx.Done():
return Connection{}, ctx.Err()
}
}
func (pool *Pool) putConnectionUnsafe(connection Connection) {
if len(pool.synchro.idleConnections) == cap(pool.synchro.idleConnections) {
pool.synchro.stats.TotalCount--
_ = connection.conn.Close() // Could it be more effective to close older connections?
} else {
pool.synchro.idleConnections = append(pool.synchro.idleConnections, connection)
}
}
func (pool *Pool) newConnectionProducer() {
var connection Connection
var err error
for {
connection.conn = nil
pool.synchro.Lock()
connection = pool.getIdleConnectionUnsafe()
if connection.conn == nil {
if pool.synchro.stats.TotalCount >= pool.maxAlive {
// Can't create more connections
pool.synchro.Unlock()
time.Sleep(10 * time.Millisecond)
continue
}
pool.synchro.stats.TotalCount++ // "Reserving" new connection
}
pool.synchro.Unlock()
if connection.conn == nil {
connection, err = pool.createNewConnection()
if err != nil {
pool.synchro.Lock()
pool.synchro.stats.TotalCount-- // Bad luck, should try again
pool.synchro.Unlock()
time.Sleep(time.Duration(10+rand.Intn(90)) * time.Millisecond)
continue
}
}
pool.readyConnection <- connection
}
}
func (pool *Pool) createNewConnection() (Connection, error) {
var connection Connection
var err error
connection.conn, err = pool.connect()
if err != nil {
return Connection{}, errors.Errorf(`Could not connect to mysql: %s`, err)
}
connection.lastUseAt = pool.nowTs()
pool.synchro.Lock()
pool.synchro.stats.CreatedCount++
pool.synchro.Unlock()
return connection, nil
}
func (pool *Pool) getIdleConnectionUnsafe() Connection {
cnt := len(pool.synchro.idleConnections)
if cnt == 0 {
return Connection{}
}
last := cnt - 1
connection := pool.synchro.idleConnections[last]
pool.synchro.idleConnections[last].conn = nil
pool.synchro.idleConnections = pool.synchro.idleConnections[:last]
return connection
}
func (pool *Pool) closeOldIdleConnections() {
var toPing []Connection
ticker := time.NewTicker(5 * time.Second)
for range ticker.C {
toPing = pool.getOldIdleConnections(toPing[:0])
if len(toPing) == 0 {
continue
}
pool.recheckConnections(toPing)
if !pool.spawnConnectionsIfNeeded() {
pool.closeIdleConnectionsIfCan()
}
}
}
func (pool *Pool) getOldIdleConnections(dst []Connection) []Connection {
dst = dst[:0]
pool.synchro.Lock()
synchro := &pool.synchro
idleCnt := len(synchro.idleConnections)
checkBefore := pool.nowTs() - pool.idlePingTimeout
for i := idleCnt - 1; i >= 0; i-- {
if synchro.idleConnections[i].lastUseAt > checkBefore {
continue
}
dst = append(dst, synchro.idleConnections[i])
last := idleCnt - 1
if i < last {
// Removing an item from the middle of a slice
synchro.idleConnections[i], synchro.idleConnections[last] = synchro.idleConnections[last], synchro.idleConnections[i]
}
synchro.idleConnections[last].conn = nil
synchro.idleConnections = synchro.idleConnections[:last]
idleCnt--
}
pool.synchro.Unlock()
return dst
}
func (pool *Pool) recheckConnections(connections []Connection) {
const workerCnt = 2 // Heuristic :)
queue := make(chan Connection, len(connections))
for _, connection := range connections {
queue <- connection
}
close(queue)
var wg sync.WaitGroup
wg.Add(workerCnt)
for worker := 0; worker < workerCnt; worker++ {
go func() {
defer wg.Done()
for connection := range queue {
if err := pool.ping(connection.conn); err != nil {
pool.closeConn(connection.conn)
} else {
pool.putConnection(connection)
}
}
}()
}
wg.Wait()
}
// spawnConnectionsIfNeeded creates new connections if there are not enough of them and returns true in this case
func (pool *Pool) spawnConnectionsIfNeeded() bool {
pool.synchro.Lock()
totalCount := pool.synchro.stats.TotalCount
idleCount := len(pool.synchro.idleConnections)
needSpanNew := pool.minAlive - totalCount
pool.synchro.Unlock()
if needSpanNew <= 0 {
return false
}
// Не хватает соединений, нужно создать еще
if needSpanNew > MaxNewConnectionAtOnce {
needSpanNew = MaxNewConnectionAtOnce
}
pool.logFunc(`Pool: Setup %d new connections (total: %d idle: %d)...`, needSpanNew, totalCount, idleCount)
pool.startNewConnections(needSpanNew)
return true
}
func (pool *Pool) closeIdleConnectionsIfCan() {
pool.synchro.Lock()
canCloseCnt := pool.synchro.stats.TotalCount - pool.minAlive
canCloseCnt-- // -1 to account for an open but unused connection (pool.readyConnection <- connection in newConnectionProducer)
idleCnt := len(pool.synchro.idleConnections)
inFly := pool.synchro.stats.TotalCount - idleCnt
// We can close no more than 10% connections at a time, but at least 1, if possible
idleCanCloseCnt := idleCnt / 10
if idleCanCloseCnt == 0 {
idleCanCloseCnt = 1
}
if canCloseCnt > idleCanCloseCnt {
canCloseCnt = idleCanCloseCnt
}
if canCloseCnt <= 0 {
pool.synchro.Unlock()
return
}
closeFromIdx := idleCnt - canCloseCnt
if closeFromIdx < 0 {
// If there are enough requests in the "flight" now, then we can close all unnecessary
closeFromIdx = 0
}
toClose := append([]Connection{}, pool.synchro.idleConnections[closeFromIdx:]...)
for i := closeFromIdx; i < idleCnt; i++ {
pool.synchro.idleConnections[i].conn = nil
}
pool.synchro.idleConnections = pool.synchro.idleConnections[:closeFromIdx]
pool.synchro.Unlock()
pool.logFunc(`Pool: Close %d idle connections (in fly %d)`, len(toClose), inFly)
for _, connection := range toClose {
pool.closeConn(connection.conn)
}
}
func (pool *Pool) closeConn(conn *Conn) {
pool.synchro.Lock()
pool.synchro.stats.TotalCount--
pool.synchro.Unlock()
_ = conn.Close() // Closing is not an instant action, so do it outside the lock
}
func (pool *Pool) startNewConnections(count int) {
connections := make([]Connection, 0, count)
for i := 0; i < count; i++ {
if conn, err := pool.createNewConnection(); err == nil {
pool.synchro.Lock()
pool.synchro.stats.TotalCount++
pool.synchro.Unlock()
connections = append(connections, conn)
}
}
pool.synchro.Lock()
for _, connection := range connections {
pool.putConnectionUnsafe(connection)
}
pool.synchro.Unlock()
}
func (pool *Pool) ping(conn *Conn) error {
deadline := time.Now().Add(100 * time.Millisecond)
_ = conn.SetDeadline(deadline)
err := conn.Ping()
if err != nil {
pool.logFunc(`Pool: ping query fail: %s`, err.Error())
} else {
_ = conn.SetDeadline(time.Time{})
}
return err
}