Writing this post from my hotel room in Kathmandu. I found that many of the servers appear to be DNS resolvers which is unusual.
dig @anuragbhatia.com . ns +short a.root-servers.net. b.root-servers.net. c.root-servers.net. d.root-servers.net. e.root-servers.net. f.root-servers.net. g.root-servers.net. h.root-servers.net. i.root-servers.net. j.root-servers.net. k.root-servers.net. l.root-servers.net. m.root-servers.net. dig @google.com . ns +short b.root-servers.net. c.root-servers.net. d.root-servers.net. e.root-servers.net. f.root-servers.net. g.root-servers.net. h.root-servers.net. i.root-servers.net. j.root-servers.net. k.root-servers.net. l.root-servers.net. m.root-servers.net. a.root-servers.net.
This seems unusual and is the result of basically port 53 DNS hijack. Let’s try to verify it using popular “whoami.akamai.net” query.
dig @188.8.131.52 whoami.akamai.net a +short 184.108.40.206 dig @220.127.116.11 whoami.akamai.net a +short 18.104.22.168 dig @22.214.171.124 whoami.akamai.net a +short 126.96.36.199
So clearly something in middle is hijacking DNS queries and no matter whichever DNS resolver I try to use, the queries actually hit authoritative DNS via 188.8.131.52. This belongs to WorldLink Communications (ISP here in Nepal) and I am just 5 hops away from it.
So what can be done about these cases? Well, one way is VPN of course but with a setup where VPN server’s IP address is hardcoded in the client and not using DNS. It works and does the task but performance can vary greatly depending on how far is the tunnel server. A better and more modern way out of it is by using encryption in DNS by using a protocol named “DNSCrypt“. DNSCrypt offers to encrypt of DNS queries from clients to the DNS resolvers. (Beyond that resolver still, follow usual non-encrypted root chain to reach authoritative DNS servers).
So how does it work?
There’s no integrated support of DNSCrypt in OS’es at this time. There are number of projects like dnscrypt-osxclient available on GitHub which enable this support. Once configured, the client changes system’s DNS resolver to a local IP which listens for port 53 (regular/non-encrypted) requests.
cat /etc/resolv.conf |grep nameserver nameserver 127.0.0.54
The client often offers support of various open resolvers like OpenDNS, Quad9 etc.
dig @127.0.0.54 whoami.akamai.net a +short 184.108.40.206
Here it shows that DNS resolver in my case happens to be Cisco’s OpenDNS. As soon as the client gets port 53 DNS queries, it encrypts it and sends via UDP port 443 (UDP or TCP depending on provider and client configuration). The encyption is based on trusted root CA’s and associated chain as popularly used in HTTPS. This is also one of reasons why DNSCrypt is also known as DNS over HTTPS.
Here’s an example of a DNS query to resolve A record of google.com while running tcpdumps in parallel:
sudo tcpdump -i lo0 'dst port 53' -n tcpdump: verbose output suppressed, use -v or -vv for full protocol decode listening on lo0, link-type NULL (BSD loopback), capture size 262144 bytes 04:36:04.429212 IP 127.0.0.54.50966 > 127.0.0.54.53: 31576+ A? prd.col.aria.browser.skypedata.akadns.net. (59) 04:36:04.532015 IP 127.0.0.54.54914 > 127.0.0.54.53: 623+ [1au] A? google.com. (39) ^C 2 packets captured 4 packets received by filter 0 packets dropped by kernel
This shows request went in clear text to 127.0.0.54 which is configured on loopback. While in parallel if I watch for traffic towards OpenDNS public IPs, I get:
sudo tcpdump -i en0 'dst 220.127.116.11 or dst 18.104.22.168' -n tcpdump: verbose output suppressed, use -v or -vv for full protocol decode listening on en0, link-type EN10MB (Ethernet), capture size 262144 bytes 04:39:56.827824 IP 192.168.0.4.53763 > 22.214.171.124.443: UDP, length 512 ^C 1 packet captured 63 packets received by filter 0 packets dropped by kernel
Thus all that appears here is just an encrypted packet to Cisco OpenDNS over UDP port 443.
I ran another query and saved it in pcap file. Here’s how it looks like in wireshark:
That’s all about it for now. I am going to keep encryption enabled especially when travelling from now onwards. Time to get some sleep. 🙂
- dnscrypt-osxclient – https://github.com/alterstep/dnscrypt-osxclient
- DNSCrypt Wikipedia – https://en.wikipedia.org/wiki/DNSCrypt
- DNS Over HTTPS (Google Public DNS) – https://developers.google.com/speed/public-dns/docs/dns-over-https
- DNS over TLS (Quad9) – https://quad9.net/faq/#Does_Quad9_support_DNS_over_TLS