redis/pool.go

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package redis
import (
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"errors"
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"fmt"
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"log"
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"net"
"sync"
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"sync/atomic"
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"time"
"gopkg.in/bsm/ratelimit.v1"
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"gopkg.in/bufio.v1"
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)
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var (
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errClosed = errors.New("redis: client is closed")
errPoolTimeout = errors.New("redis: connection pool timeout")
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)
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var (
zeroTime = time.Time{}
)
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type pool interface {
First() *conn
Get() (*conn, error)
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Put(*conn) error
Remove(*conn) error
Len() int
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Size() int
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Close() error
}
//------------------------------------------------------------------------------
type conn struct {
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netcn net.Conn
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rd *bufio.Reader
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buf []byte
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usedAt time.Time
readTimeout time.Duration
writeTimeout time.Duration
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}
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func newConnFunc(dial func() (net.Conn, error)) func() (*conn, error) {
return func() (*conn, error) {
netcn, err := dial()
if err != nil {
return nil, err
}
cn := &conn{
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netcn: netcn,
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buf: make([]byte, 0, 64),
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}
cn.rd = bufio.NewReader(cn)
return cn, nil
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}
}
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func (cn *conn) writeCmds(cmds ...Cmder) error {
buf := cn.buf[:0]
for _, cmd := range cmds {
buf = appendArgs(buf, cmd.args())
}
_, err := cn.Write(buf)
return err
}
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func (cn *conn) Read(b []byte) (int, error) {
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if cn.readTimeout != 0 {
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cn.netcn.SetReadDeadline(time.Now().Add(cn.readTimeout))
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} else {
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cn.netcn.SetReadDeadline(zeroTime)
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}
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return cn.netcn.Read(b)
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}
func (cn *conn) Write(b []byte) (int, error) {
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if cn.writeTimeout != 0 {
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cn.netcn.SetWriteDeadline(time.Now().Add(cn.writeTimeout))
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} else {
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cn.netcn.SetWriteDeadline(zeroTime)
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}
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return cn.netcn.Write(b)
}
func (cn *conn) RemoteAddr() net.Addr {
return cn.netcn.RemoteAddr()
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}
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func (cn *conn) Close() error {
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return cn.netcn.Close()
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}
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func (cn *conn) isIdle(timeout time.Duration) bool {
return timeout > 0 && time.Since(cn.usedAt) > timeout
}
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//------------------------------------------------------------------------------
type connPool struct {
dial func() (*conn, error)
rl *ratelimit.RateLimiter
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opt *options
freeConns chan *conn
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size int32
closed int32
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lastDialErr error
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}
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func newConnPool(dial func() (*conn, error), opt *options) *connPool {
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return &connPool{
dial: dial,
rl: ratelimit.New(2*opt.PoolSize, time.Second),
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opt: opt,
freeConns: make(chan *conn, opt.PoolSize),
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}
}
func (p *connPool) isClosed() bool { return atomic.LoadInt32(&p.closed) > 0 }
// First returns first non-idle connection from the pool or nil if
// there are no connections.
func (p *connPool) First() *conn {
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for {
select {
case cn := <-p.freeConns:
if cn.isIdle(p.opt.IdleTimeout) {
p.Remove(cn)
continue
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}
return cn
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default:
return nil
}
}
panic("not reached")
}
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// wait waits for free non-idle connection. It returns nil on timeout.
func (p *connPool) wait(timeout time.Duration) *conn {
deadline := time.After(timeout)
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for {
select {
case cn := <-p.freeConns:
if cn.isIdle(p.opt.IdleTimeout) {
p.Remove(cn)
continue
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}
return cn
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case <-deadline:
return nil
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}
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}
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panic("not reached")
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}
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// Establish a new connection
func (p *connPool) new() (*conn, error) {
if p.rl.Limit() {
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err := fmt.Errorf(
"redis: you open connections too fast (last error: %v)",
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p.lastDialErr,
)
return nil, err
}
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cn, err := p.dial()
if err != nil {
p.lastDialErr = err
return nil, err
}
if err := p.init(cn); err != nil {
p.Remove(cn)
return nil, err
}
return cn, nil
}
// Initialize connection
func (p *connPool) init(cn *conn) error {
if p.opt.Password == "" && p.opt.DB == 0 {
return nil
}
// Use connection to connect to redis
pool := newSingleConnPool(p, false)
pool.SetConn(cn)
// Client is not closed because we want to reuse underlying connection.
client := newClient(p.opt, pool)
if p.opt.Password != "" {
if err := client.Auth(p.opt.Password).Err(); err != nil {
return err
}
}
if p.opt.DB > 0 {
if err := client.Select(p.opt.DB).Err(); err != nil {
return err
}
}
return nil
}
// Get returns existed connection from the pool or creates a new one
// if needed.
func (p *connPool) Get() (*conn, error) {
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if p.isClosed() {
return nil, errClosed
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}
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// Fetch first non-idle connection, if available
if cn := p.First(); cn != nil {
return cn, nil
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}
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// Try to create a new one
if ref := atomic.AddInt32(&p.size, 1); int(ref) <= p.opt.PoolSize {
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cn, err := p.new()
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if err != nil {
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atomic.AddInt32(&p.size, -1) // Undo ref increment
return nil, err
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}
return cn, nil
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}
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atomic.AddInt32(&p.size, -1)
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// Otherwise, wait for the available connection
if cn := p.wait(p.opt.PoolTimeout); cn != nil {
return cn, nil
}
return nil, errPoolTimeout
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}
func (p *connPool) Put(cn *conn) error {
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if cn.rd.Buffered() != 0 {
b, _ := cn.rd.ReadN(cn.rd.Buffered())
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log.Printf("redis: connection has unread data: %q", b)
return p.Remove(cn)
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}
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if p.opt.IdleTimeout > 0 {
cn.usedAt = time.Now()
}
p.freeConns <- cn
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return nil
}
func (p *connPool) Remove(cn *conn) error {
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if p.isClosed() {
atomic.AddInt32(&p.size, -1)
return cn.Close()
}
// Replace existing connection with new one and unblock `wait`.
newcn, err := p.new()
if err != nil {
atomic.AddInt32(&p.size, -1)
} else {
p.Put(newcn)
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}
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return cn.Close()
}
// Len returns number of idle connections.
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func (p *connPool) Len() int {
return len(p.freeConns)
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}
// Size returns number of connections in the pool.
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func (p *connPool) Size() int {
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return int(atomic.LoadInt32(&p.size))
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}
func (p *connPool) Close() (retErr error) {
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if !atomic.CompareAndSwapInt32(&p.closed, 0, 1) {
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return nil
}
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// Wait until pool has no connections
for p.Size() > 0 {
cn := p.wait(p.opt.PoolTimeout)
if cn == nil {
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break
}
if err := p.Remove(cn); err != nil {
retErr = err
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}
}
return retErr
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}
//------------------------------------------------------------------------------
type singleConnPool struct {
pool pool
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cnMtx sync.Mutex
cn *conn
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reusable bool
closed bool
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}
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func newSingleConnPool(pool pool, reusable bool) *singleConnPool {
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return &singleConnPool{
pool: pool,
reusable: reusable,
}
}
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func (p *singleConnPool) SetConn(cn *conn) {
p.cnMtx.Lock()
p.cn = cn
p.cnMtx.Unlock()
}
func (p *singleConnPool) First() *conn {
defer p.cnMtx.Unlock()
p.cnMtx.Lock()
return p.cn
}
func (p *singleConnPool) Get() (*conn, error) {
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defer p.cnMtx.Unlock()
p.cnMtx.Lock()
if p.closed {
return nil, errClosed
}
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if p.cn != nil {
return p.cn, nil
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}
cn, err := p.pool.Get()
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if err != nil {
return nil, err
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}
p.cn = cn
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return p.cn, nil
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}
func (p *singleConnPool) Put(cn *conn) error {
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defer p.cnMtx.Unlock()
p.cnMtx.Lock()
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if p.cn != cn {
panic("p.cn != cn")
}
if p.closed {
return errClosed
}
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return nil
}
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func (p *singleConnPool) put() error {
err := p.pool.Put(p.cn)
p.cn = nil
return err
}
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func (p *singleConnPool) Remove(cn *conn) error {
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defer p.cnMtx.Unlock()
p.cnMtx.Lock()
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if p.cn == nil {
panic("p.cn == nil")
}
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if p.cn != cn {
panic("p.cn != cn")
}
if p.closed {
return errClosed
}
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return p.remove()
}
func (p *singleConnPool) remove() error {
err := p.pool.Remove(p.cn)
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p.cn = nil
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return err
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}
func (p *singleConnPool) Len() int {
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defer p.cnMtx.Unlock()
p.cnMtx.Lock()
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if p.cn == nil {
return 0
}
return 1
}
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func (p *singleConnPool) Size() int {
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defer p.cnMtx.Unlock()
p.cnMtx.Lock()
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if p.cn == nil {
return 0
}
return 1
}
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func (p *singleConnPool) Close() error {
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defer p.cnMtx.Unlock()
p.cnMtx.Lock()
if p.closed {
return nil
}
p.closed = true
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var err error
if p.cn != nil {
if p.reusable {
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err = p.put()
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} else {
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err = p.remove()
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}
}
return err
}