@ -314,20 +314,19 @@ func Dialer(fwd DialContextFunc, dnsCache *Resolver) DialContextFunc {
// Return with original error
return
}
for _ , ip := range ips {
dst := net . JoinHostPort ( ip . String ( ) , port )
if c , err := fwd ( ctx , network , dst ) ; err == nil {
if c , err := raceDial ( ctx , fwd , network , ips , port ) ; err == nil {
retConn = c
ret = nil
return
}
}
} ( )
ip , ip6 , _ , err := dnsCache . LookupIP ( ctx , host )
ip , ip6 , allIPs , err := dnsCache . LookupIP ( ctx , host )
if err != nil {
return nil , fmt . Errorf ( "failed to resolve %q: %w" , host , err )
}
i4s := v4addrs ( allIPs )
if len ( i4s ) < 2 {
dst := net . JoinHostPort ( ip . String ( ) , port )
if debug {
log . Printf ( "dnscache: dialing %s, %s for %s" , network , dst , address )
@ -337,16 +336,107 @@ func Dialer(fwd DialContextFunc, dnsCache *Resolver) DialContextFunc {
return c , err
}
// Fall back to trying IPv6.
// TODO(bradfitz): this is a primarily for IPv6-only
// hosts; it's not supposed to be a real Happy
// Eyeballs implementation. We should use the net
// package's implementation of that by plumbing this
// dnscache impl into net.Dialer.Resolver.Dial and
// unmarshal/marshal DNS queries/responses to the net
// package. This works for v6-only hosts for now.
dst = net . JoinHostPort ( ip6 . String ( ) , port )
return fwd ( ctx , network , dst )
}
// Multiple IPv4 candidates, and 0+ IPv6.
ipsToTry := append ( i4s , v6addrs ( allIPs ) ... )
return raceDial ( ctx , fwd , network , ipsToTry , port )
}
}
// fallbackDelay is how long to wait between trying subsequent
// addresses when multiple options are available.
// 300ms is the same as Go's Happy Eyeballs fallbackDelay value.
const fallbackDelay = 300 * time . Millisecond
// raceDial tries to dial port on each ip in ips, starting a new race
// dial every 300ms apart, returning whichever completes first.
func raceDial ( ctx context . Context , fwd DialContextFunc , network string , ips [ ] netaddr . IP , port string ) ( net . Conn , error ) {
ctx , cancel := context . WithCancel ( ctx )
defer cancel ( )
type res struct {
c net . Conn
err error
}
resc := make ( chan res ) // must be unbuffered
failBoost := make ( chan struct { } ) // best effort send on dial failure
go func ( ) {
for i , ip := range ips {
if i != 0 {
timer := time . NewTimer ( fallbackDelay )
select {
case <- timer . C :
case <- failBoost :
timer . Stop ( )
case <- ctx . Done ( ) :
timer . Stop ( )
return
}
}
go func ( ip netaddr . IP ) {
c , err := fwd ( ctx , network , net . JoinHostPort ( ip . String ( ) , port ) )
if err != nil {
// Best effort wake-up a pending dial.
// e.g. IPv4 dials failing quickly on an IPv6-only system.
// In that case we don't want to wait 300ms per IPv4 before
// we get to the IPv6 addresses.
select {
case failBoost <- struct { } { } :
default :
}
}
select {
case resc <- res { c , err } :
case <- ctx . Done ( ) :
if c != nil {
c . Close ( )
}
}
} ( ip )
}
} ( )
var firstErr error
var fails int
for {
select {
case r := <- resc :
if r . c != nil {
return r . c , nil
}
fails ++
if firstErr == nil {
firstErr = r . err
}
if fails == len ( ips ) {
return nil , firstErr
}
case <- ctx . Done ( ) :
return nil , ctx . Err ( )
}
}
}
func v4addrs ( aa [ ] net . IPAddr ) ( ret [ ] netaddr . IP ) {
for _ , a := range aa {
if ip , ok := netaddr . FromStdIP ( a . IP ) ; ok && ip . Is4 ( ) {
ret = append ( ret , ip )
}
}
return ret
}
func v6addrs ( aa [ ] net . IPAddr ) ( ret [ ] netaddr . IP ) {
for _ , a := range aa {
if ip , ok := netaddr . FromStdIP ( a . IP ) ; ok && ip . Is6 ( ) {
ret = append ( ret , ip )
}
}
return ret
}
var errTLSHandshakeTimeout = errors . New ( "timeout doing TLS handshake" )