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|
package fasthttp
import (
"errors"
"net"
"strconv"
"sync"
"sync/atomic"
"time"
)
// Dial dials the given TCP addr using tcp4.
//
// This function has the following additional features comparing to net.Dial:
//
// * It reduces load on DNS resolver by caching resolved TCP addressed
// for DefaultDNSCacheDuration.
// * It dials all the resolved TCP addresses in round-robin manner until
// connection is established. This may be useful if certain addresses
// are temporarily unreachable.
// * It returns ErrDialTimeout if connection cannot be established during
// DefaultDialTimeout seconds. Use DialTimeout for customizing dial timeout.
//
// This dialer is intended for custom code wrapping before passing
// to Client.Dial or HostClient.Dial.
//
// For instance, per-host counters and/or limits may be implemented
// by such wrappers.
//
// The addr passed to the function must contain port. Example addr values:
//
// * foobar.baz:443
// * foo.bar:80
// * aaa.com:8080
func Dial(addr string) (net.Conn, error) {
return getDialer(DefaultDialTimeout, false)(addr)
}
// DialTimeout dials the given TCP addr using tcp4 using the given timeout.
//
// This function has the following additional features comparing to net.Dial:
//
// * It reduces load on DNS resolver by caching resolved TCP addressed
// for DefaultDNSCacheDuration.
// * It dials all the resolved TCP addresses in round-robin manner until
// connection is established. This may be useful if certain addresses
// are temporarily unreachable.
//
// This dialer is intended for custom code wrapping before passing
// to Client.Dial or HostClient.Dial.
//
// For instance, per-host counters and/or limits may be implemented
// by such wrappers.
//
// The addr passed to the function must contain port. Example addr values:
//
// * foobar.baz:443
// * foo.bar:80
// * aaa.com:8080
func DialTimeout(addr string, timeout time.Duration) (net.Conn, error) {
return getDialer(timeout, false)(addr)
}
// DialDualStack dials the given TCP addr using both tcp4 and tcp6.
//
// This function has the following additional features comparing to net.Dial:
//
// * It reduces load on DNS resolver by caching resolved TCP addressed
// for DefaultDNSCacheDuration.
// * It dials all the resolved TCP addresses in round-robin manner until
// connection is established. This may be useful if certain addresses
// are temporarily unreachable.
// * It returns ErrDialTimeout if connection cannot be established during
// DefaultDialTimeout seconds. Use DialDualStackTimeout for custom dial
// timeout.
//
// This dialer is intended for custom code wrapping before passing
// to Client.Dial or HostClient.Dial.
//
// For instance, per-host counters and/or limits may be implemented
// by such wrappers.
//
// The addr passed to the function must contain port. Example addr values:
//
// * foobar.baz:443
// * foo.bar:80
// * aaa.com:8080
func DialDualStack(addr string) (net.Conn, error) {
return getDialer(DefaultDialTimeout, true)(addr)
}
// DialDualStackTimeout dials the given TCP addr using both tcp4 and tcp6
// using the given timeout.
//
// This function has the following additional features comparing to net.Dial:
//
// * It reduces load on DNS resolver by caching resolved TCP addressed
// for DefaultDNSCacheDuration.
// * It dials all the resolved TCP addresses in round-robin manner until
// connection is established. This may be useful if certain addresses
// are temporarily unreachable.
//
// This dialer is intended for custom code wrapping before passing
// to Client.Dial or HostClient.Dial.
//
// For instance, per-host counters and/or limits may be implemented
// by such wrappers.
//
// The addr passed to the function must contain port. Example addr values:
//
// * foobar.baz:443
// * foo.bar:80
// * aaa.com:8080
func DialDualStackTimeout(addr string, timeout time.Duration) (net.Conn, error) {
return getDialer(timeout, true)(addr)
}
func getDialer(timeout time.Duration, dualStack bool) DialFunc {
if timeout <= 0 {
timeout = DefaultDialTimeout
}
timeoutRounded := int(timeout.Seconds()*10 + 9)
m := dialMap
if dualStack {
m = dialDualStackMap
}
dialMapLock.Lock()
d := m[timeoutRounded]
if d == nil {
dialer := dialerStd
if dualStack {
dialer = dialerDualStack
}
d = dialer.NewDial(timeout)
m[timeoutRounded] = d
}
dialMapLock.Unlock()
return d
}
var (
dialerStd = &tcpDialer{}
dialerDualStack = &tcpDialer{DualStack: true}
dialMap = make(map[int]DialFunc)
dialDualStackMap = make(map[int]DialFunc)
dialMapLock sync.Mutex
)
type tcpDialer struct {
DualStack bool
tcpAddrsLock sync.Mutex
tcpAddrsMap map[string]*tcpAddrEntry
concurrencyCh chan struct{}
once sync.Once
}
const maxDialConcurrency = 1000
func (d *tcpDialer) NewDial(timeout time.Duration) DialFunc {
d.once.Do(func() {
d.concurrencyCh = make(chan struct{}, maxDialConcurrency)
d.tcpAddrsMap = make(map[string]*tcpAddrEntry)
go d.tcpAddrsClean()
})
return func(addr string) (net.Conn, error) {
addrs, idx, err := d.getTCPAddrs(addr)
if err != nil {
return nil, err
}
network := "tcp4"
if d.DualStack {
network = "tcp"
}
var conn net.Conn
n := uint32(len(addrs))
deadline := time.Now().Add(timeout)
for n > 0 {
conn, err = tryDial(network, &addrs[idx%n], deadline, d.concurrencyCh)
if err == nil {
return conn, nil
}
if err == ErrDialTimeout {
return nil, err
}
idx++
n--
}
return nil, err
}
}
func tryDial(network string, addr *net.TCPAddr, deadline time.Time, concurrencyCh chan struct{}) (net.Conn, error) {
timeout := -time.Since(deadline)
if timeout <= 0 {
return nil, ErrDialTimeout
}
select {
case concurrencyCh <- struct{}{}:
default:
tc := acquireTimer(timeout)
isTimeout := false
select {
case concurrencyCh <- struct{}{}:
case <-tc.C:
isTimeout = true
}
releaseTimer(tc)
if isTimeout {
return nil, ErrDialTimeout
}
}
timeout = -time.Since(deadline)
if timeout <= 0 {
<-concurrencyCh
return nil, ErrDialTimeout
}
chv := dialResultChanPool.Get()
if chv == nil {
chv = make(chan dialResult, 1)
}
ch := chv.(chan dialResult)
go func() {
var dr dialResult
dr.conn, dr.err = net.DialTCP(network, nil, addr)
ch <- dr
<-concurrencyCh
}()
var (
conn net.Conn
err error
)
tc := acquireTimer(timeout)
select {
case dr := <-ch:
conn = dr.conn
err = dr.err
dialResultChanPool.Put(ch)
case <-tc.C:
err = ErrDialTimeout
}
releaseTimer(tc)
return conn, err
}
var dialResultChanPool sync.Pool
type dialResult struct {
conn net.Conn
err error
}
// ErrDialTimeout is returned when TCP dialing is timed out.
var ErrDialTimeout = errors.New("dialing to the given TCP address timed out")
// DefaultDialTimeout is timeout used by Dial and DialDualStack
// for establishing TCP connections.
const DefaultDialTimeout = 3 * time.Second
type tcpAddrEntry struct {
addrs []net.TCPAddr
addrsIdx uint32
resolveTime time.Time
pending bool
}
// DefaultDNSCacheDuration is the duration for caching resolved TCP addresses
// by Dial* functions.
const DefaultDNSCacheDuration = time.Minute
func (d *tcpDialer) tcpAddrsClean() {
expireDuration := 2 * DefaultDNSCacheDuration
for {
time.Sleep(time.Second)
t := time.Now()
d.tcpAddrsLock.Lock()
for k, e := range d.tcpAddrsMap {
if t.Sub(e.resolveTime) > expireDuration {
delete(d.tcpAddrsMap, k)
}
}
d.tcpAddrsLock.Unlock()
}
}
func (d *tcpDialer) getTCPAddrs(addr string) ([]net.TCPAddr, uint32, error) {
d.tcpAddrsLock.Lock()
e := d.tcpAddrsMap[addr]
if e != nil && !e.pending && time.Since(e.resolveTime) > DefaultDNSCacheDuration {
e.pending = true
e = nil
}
d.tcpAddrsLock.Unlock()
if e == nil {
addrs, err := resolveTCPAddrs(addr, d.DualStack)
if err != nil {
d.tcpAddrsLock.Lock()
e = d.tcpAddrsMap[addr]
if e != nil && e.pending {
e.pending = false
}
d.tcpAddrsLock.Unlock()
return nil, 0, err
}
e = &tcpAddrEntry{
addrs: addrs,
resolveTime: time.Now(),
}
d.tcpAddrsLock.Lock()
d.tcpAddrsMap[addr] = e
d.tcpAddrsLock.Unlock()
}
idx := uint32(0)
if len(e.addrs) > 0 {
idx = atomic.AddUint32(&e.addrsIdx, 1)
}
return e.addrs, idx, nil
}
func resolveTCPAddrs(addr string, dualStack bool) ([]net.TCPAddr, error) {
host, portS, err := net.SplitHostPort(addr)
if err != nil {
return nil, err
}
port, err := strconv.Atoi(portS)
if err != nil {
return nil, err
}
ips, err := net.LookupIP(host)
if err != nil {
return nil, err
}
n := len(ips)
addrs := make([]net.TCPAddr, 0, n)
for i := 0; i < n; i++ {
ip := ips[i]
if !dualStack && ip.To4() == nil {
continue
}
addrs = append(addrs, net.TCPAddr{
IP: ip,
Port: port,
})
}
return addrs, nil
}
|
