badguardhome/upstream/persistent.go

209 lines
5.6 KiB
Go

package upstream
import (
"crypto/tls"
"net"
"sort"
"sync/atomic"
"time"
"github.com/miekg/dns"
)
const (
defaultExpire = 10 * time.Second
minDialTimeout = 100 * time.Millisecond
maxDialTimeout = 30 * time.Second
defaultDialTimeout = 30 * time.Second
cumulativeAvgWeight = 4
)
// a persistConn hold the dns.Conn and the last used time.
type persistConn struct {
c *dns.Conn
used time.Time
}
// Transport hold the persistent cache.
type Transport struct {
avgDialTime int64 // kind of average time of dial time
conns map[string][]*persistConn // Buckets for udp, tcp and tcp-tls.
expire time.Duration // After this duration a connection is expired.
addr string
tlsConfig *tls.Config
dial chan string
yield chan *dns.Conn
ret chan *dns.Conn
stop chan bool
}
// Dial dials the address configured in transport, potentially reusing a connection or creating a new one.
func (t *Transport) Dial(proto string) (*dns.Conn, error) {
// If tls has been configured; use it.
if t.tlsConfig != nil {
proto = "tcp-tls"
}
t.dial <- proto
c := <-t.ret
if c != nil {
return c, nil
}
reqTime := time.Now()
timeout := t.dialTimeout()
if proto == "tcp-tls" {
conn, err := dns.DialTimeoutWithTLS(proto, t.addr, t.tlsConfig, timeout)
t.updateDialTimeout(time.Since(reqTime))
return conn, err
}
conn, err := dns.DialTimeout(proto, t.addr, timeout)
t.updateDialTimeout(time.Since(reqTime))
return conn, err
}
// Yield return the connection to transport for reuse.
func (t *Transport) Yield(c *dns.Conn) { t.yield <- c }
// Start starts the transport's connection manager.
func (t *Transport) Start() { go t.connManager() }
// Stop stops the transport's connection manager.
func (t *Transport) Stop() { close(t.stop) }
// SetExpire sets the connection expire time in transport.
func (t *Transport) SetExpire(expire time.Duration) { t.expire = expire }
// SetTLSConfig sets the TLS config in transport.
func (t *Transport) SetTLSConfig(cfg *tls.Config) { t.tlsConfig = cfg }
func NewTransport(addr string) *Transport {
t := &Transport{
avgDialTime: int64(defaultDialTimeout / 2),
conns: make(map[string][]*persistConn),
expire: defaultExpire,
addr: addr,
dial: make(chan string),
yield: make(chan *dns.Conn),
ret: make(chan *dns.Conn),
stop: make(chan bool),
}
return t
}
func averageTimeout(currentAvg *int64, observedDuration time.Duration, weight int64) {
dt := time.Duration(atomic.LoadInt64(currentAvg))
atomic.AddInt64(currentAvg, int64(observedDuration-dt)/weight)
}
func (t *Transport) dialTimeout() time.Duration {
return limitTimeout(&t.avgDialTime, minDialTimeout, maxDialTimeout)
}
func (t *Transport) updateDialTimeout(newDialTime time.Duration) {
averageTimeout(&t.avgDialTime, newDialTime, cumulativeAvgWeight)
}
// limitTimeout is a utility function to auto-tune timeout values
// average observed time is moved towards the last observed delay moderated by a weight
// next timeout to use will be the double of the computed average, limited by min and max frame.
func limitTimeout(currentAvg *int64, minValue time.Duration, maxValue time.Duration) time.Duration {
rt := time.Duration(atomic.LoadInt64(currentAvg))
if rt < minValue {
return minValue
}
if rt < maxValue/2 {
return 2 * rt
}
return maxValue
}
// connManagers manages the persistent connection cache for UDP and TCP.
func (t *Transport) connManager() {
ticker := time.NewTicker(t.expire)
Wait:
for {
select {
case proto := <-t.dial:
// take the last used conn - complexity O(1)
if stack := t.conns[proto]; len(stack) > 0 {
pc := stack[len(stack)-1]
if time.Since(pc.used) < t.expire {
// Found one, remove from pool and return this conn.
t.conns[proto] = stack[:len(stack)-1]
t.ret <- pc.c
continue Wait
}
// clear entire cache if the last conn is expired
t.conns[proto] = nil
// now, the connections being passed to closeConns() are not reachable from
// transport methods anymore. So, it's safe to close them in a separate goroutine
go closeConns(stack)
}
t.ret <- nil
case conn := <-t.yield:
// no proto here, infer from config and conn
if _, ok := conn.Conn.(*net.UDPConn); ok {
t.conns["udp"] = append(t.conns["udp"], &persistConn{conn, time.Now()})
continue Wait
}
if t.tlsConfig == nil {
t.conns["tcp"] = append(t.conns["tcp"], &persistConn{conn, time.Now()})
continue Wait
}
t.conns["tcp-tls"] = append(t.conns["tcp-tls"], &persistConn{conn, time.Now()})
case <-ticker.C:
t.cleanup(false)
case <-t.stop:
t.cleanup(true)
close(t.ret)
return
}
}
}
// closeConns closes connections.
func closeConns(conns []*persistConn) {
for _, pc := range conns {
pc.c.Close()
}
}
// cleanup removes connections from cache.
func (t *Transport) cleanup(all bool) {
staleTime := time.Now().Add(-t.expire)
for proto, stack := range t.conns {
if len(stack) == 0 {
continue
}
if all {
t.conns[proto] = nil
// now, the connections being passed to closeConns() are not reachable from
// transport methods anymore. So, it's safe to close them in a separate goroutine
go closeConns(stack)
continue
}
if stack[0].used.After(staleTime) {
continue
}
// connections in stack are sorted by "used"
good := sort.Search(len(stack), func(i int) bool {
return stack[i].used.After(staleTime)
})
t.conns[proto] = stack[good:]
// now, the connections being passed to closeConns() are not reachable from
// transport methods anymore. So, it's safe to close them in a separate goroutine
go closeConns(stack[:good])
}
}