AdGuardHome/home/rdns.go

150 lines
3.4 KiB
Go
Raw Normal View History

package home
import (
"encoding/binary"
"fmt"
"strings"
"time"
"github.com/AdguardTeam/dnsproxy/upstream"
"github.com/AdguardTeam/golibs/cache"
"github.com/AdguardTeam/golibs/log"
"github.com/miekg/dns"
)
const (
rdnsTimeout = 3 * time.Second // max time to wait for rDNS response
)
2019-09-19 08:27:13 -07:00
// RDNS - module context
type RDNS struct {
clients *clientsContainer
ipChannel chan string // pass data from DNS request handling thread to rDNS thread
upstream upstream.Upstream // Upstream object for our own DNS server
// Contains IP addresses of clients to be resolved by rDNS
// If IP address is resolved, it stays here while it's inside Clients.
// If it's removed from Clients, this IP address will be resolved once again.
// If IP address couldn't be resolved, it stays here for some time to prevent further attempts to resolve the same IP.
ipAddrs cache.Cache
2019-09-19 08:27:13 -07:00
}
// InitRDNS - create module context
func InitRDNS(clients *clientsContainer) *RDNS {
r := RDNS{}
r.clients = clients
var err error
bindhost := config.DNS.BindHost
if config.DNS.BindHost == "0.0.0.0" {
bindhost = "127.0.0.1"
}
resolverAddress := fmt.Sprintf("%s:%d", bindhost, config.DNS.Port)
opts := upstream.Options{
Timeout: rdnsTimeout,
}
2019-09-19 08:27:13 -07:00
r.upstream, err = upstream.AddressToUpstream(resolverAddress, opts)
if err != nil {
log.Error("upstream.AddressToUpstream: %s", err)
2019-09-19 08:27:13 -07:00
return nil
}
cconf := cache.Config{}
cconf.EnableLRU = true
cconf.MaxCount = 10000
r.ipAddrs = cache.New(cconf)
2019-09-19 08:27:13 -07:00
r.ipChannel = make(chan string, 256)
go r.workerLoop()
return &r
}
2019-09-19 08:27:13 -07:00
// Begin - add IP address to rDNS queue
func (r *RDNS) Begin(ip string) {
now := uint64(time.Now().Unix())
expire := r.ipAddrs.Get([]byte(ip))
if len(expire) != 0 {
exp := binary.BigEndian.Uint64(expire)
if exp > now {
return
}
// TTL expired
}
expire = make([]byte, 8)
2019-11-07 04:02:34 -07:00
const ttl = 1 * 60 * 60
binary.BigEndian.PutUint64(expire, now+ttl)
_ = r.ipAddrs.Set([]byte(ip), expire)
if r.clients.Exists(ip, ClientSourceRDNS) {
return
}
log.Tracef("rDNS: adding %s", ip)
select {
2019-09-19 08:27:13 -07:00
case r.ipChannel <- ip:
//
default:
log.Tracef("rDNS: queue is full")
}
}
// Use rDNS to get hostname by IP address
2019-09-19 08:27:13 -07:00
func (r *RDNS) resolve(ip string) string {
log.Tracef("Resolving host for %s", ip)
req := dns.Msg{}
req.Id = dns.Id()
req.RecursionDesired = true
req.Question = []dns.Question{
{
Qtype: dns.TypePTR,
Qclass: dns.ClassINET,
},
}
var err error
req.Question[0].Name, err = dns.ReverseAddr(ip)
if err != nil {
log.Debug("Error while calling dns.ReverseAddr(%s): %s", ip, err)
return ""
}
2019-09-19 08:27:13 -07:00
resp, err := r.upstream.Exchange(&req)
if err != nil {
log.Debug("Error while making an rDNS lookup for %s: %s", ip, err)
return ""
}
if len(resp.Answer) != 1 {
log.Debug("No answer for rDNS lookup of %s", ip)
return ""
}
ptr, ok := resp.Answer[0].(*dns.PTR)
if !ok {
log.Debug("not a PTR response for %s", ip)
return ""
}
log.Tracef("PTR response for %s: %s", ip, ptr.String())
if strings.HasSuffix(ptr.Ptr, ".") {
ptr.Ptr = ptr.Ptr[:len(ptr.Ptr)-1]
}
return ptr.Ptr
}
// Wait for a signal and then synchronously resolve hostname by IP address
// Add the hostname:IP pair to "Clients" array
2019-09-19 08:27:13 -07:00
func (r *RDNS) workerLoop() {
for {
var ip string
2019-09-19 08:27:13 -07:00
ip = <-r.ipChannel
2019-09-19 08:27:13 -07:00
host := r.resolve(ip)
if len(host) == 0 {
continue
}
_, _ = config.clients.AddHost(ip, host, ClientSourceRDNS)
}
}