Have you ever wondered if your ISP is intercepting your DNS traffic)? Have you noticed any unusual behavior in your DNS responses, or been redirected to the wrong address and suspected something might be off with your DNS? We offer a suite of tools to perform basic audits on your DNS requests and responses, helping you ensure your DNS is functioning as expected.
With dnsping, you can measure the response time of any DNS server for arbitrary
queries. Similar to the regular ping utility, dnsping offers comparable
functionality for DNS requests, helping you monitor server responsiveness.
You can also trace the route of your DNS request to its destination using
dnstraceroute, verifying that it isn't being redirected or intercepted. By
comparing DNS queries sent to the same server, dnstraceroute allows you to
observe any differences in the paths taken, alerting you to possible issues.
dnseval assesses multiple DNS resolvers to help you choose the best DNS resolver
for your network. While using your own DNS resolver is recommended to avoid
reliance on third-party DNS resolvers, dnseval can assist in selecting the
optimal DNS resolver when needed. It lets you compare DNS servers based on
performance (latency) and reliability (packet loss), giving you a comprehensive
view for informed decision-making.
There are several ways to use this toolset, though we recommend running it directly from the source code for optimal flexibility and control.
- Check out the git repository and install dependencies:
git clone https://github.com/farrokhi/dnsdiag.git
cd dnsdiag
pip3 install -r requirements.txt
- You can alternatively install the package using pip:
pip3 install dnsdiag
From time to time, binary packages will be released for Windows, Mac OS X and Linux. You can grab the latest release from releases page.
If you prefer not to install dnsdiag on your local machine, you can use the
Docker image to run the tools in a containerized environment. For example:
docker run --network host -it --rm farrokhi/dnsdiag dnsping.py
dnsping allows you to "ping" a DNS resolver by sending an arbitrary DNS query multiple times. For a full list of supported command-line options, use --help. Here are a few key flags:
- Use
--tcp,--tls,--doh,doqor--http3to select the transport protocol (default is UDP). - Use
--flagsto display response flags, including EDNS flags, for each response. - Use
--dnssecto request DNSSEC validation, if available. - Use
--edeto display Extended DNS Error messages (RFC 8914). - Use
--nsidto display the Name Server Identifier (NSID) if available (RFC 5001).
./dnsping.py -c 5 --dnssec --flags --tls --ede -t AAAA -s 8.8.8.8 brokendnssec.netdnsping.py DNS: 8.8.8.8:853, hostname: brokendnssec.net, proto: TLS, class: IN, type: AAAA, flags: [RD]
75 bytes from 8.8.8.8: seq=1 time=113.631 ms [QR RD RA DO] SERVFAIL [EDE 10: For brokendnssec.net/soa]
75 bytes from 8.8.8.8: seq=2 time=115.479 ms [QR RD RA DO] SERVFAIL [EDE 10: For brokendnssec.net/soa]
75 bytes from 8.8.8.8: seq=3 time=90.882 ms [QR RD RA DO] SERVFAIL [EDE 10: For brokendnssec.net/soa]
75 bytes from 8.8.8.8: seq=4 time=91.256 ms [QR RD RA DO] SERVFAIL [EDE 10: For brokendnssec.net/soa]
75 bytes from 8.8.8.8: seq=5 time=94.072 ms [QR RD RA DO] SERVFAIL [EDE 10: For brokendnssec.net/soa]
--- 8.8.8.8 dnsping statistics ---
5 requests transmitted, 5 responses received, 0% lost
min=90.882 ms, avg=101.064 ms, max=115.479 ms, stddev=12.394 ms
dnsping also provides statistics such as minimum, maximum, and average
response times, along with jitter (standard deviation) and packet loss.
Here are a few interesting use cases for dnsping:
- Comparing response times across different transport protocols (e.g., UDP vs. DoH).
- Evaluating the reliability of your DNS server by measuring jitter and packet loss.
- Measuring response times with DNSSEC enabled using the
--dnssecflag.
dnstraceroute is a utility that traces the path of your DNS requests to their
destination. You may want to compare this with your actual network traceroute to
ensure that your DNS traffic is not being routed through any unwanted paths.
In addition to UDP, dnstraceroute also supports TCP as a transport protocol
when you use the --tcp flag.
./dnstraceroute.py --expert --asn -C -t A -s 8.8.4.4 facebook.comdnstraceroute.py DNS: 8.8.4.4:53, hostname: facebook.com, rdatatype: A
1 192.168.0.1 (192.168.0.1) 1 ms
2 192.168.28.177 (192.168.28.177) 4 ms
3 192.168.0.1 (192.168.0.1) 693 ms
4 172.19.4.17 (172.19.4.17) 3 ms
5 dns.google (8.8.4.4) [AS15169 GOOGLE, US] 8 ms
=== Expert Hints ===
[*] public DNS server is next to a private IP address (possible hijacking)
Using the --expert flag with dnstraceroute will enable the display of expert
hints, including warnings about potential DNS traffic hijacking.
dnseval is a bulk ping utility that sends arbitrary DNS queries to a specified
list of DNS servers, allowing you to compare their response times
simultaneously.
You can use dnseval to evaluate response times across different transport
protocols, including UDP (default), TCP, DoT (DNS over TLS), and DoH (DNS over
HTTPS) by using the --tcp, --tls, and --doh flags, respectively.
./dnseval.py --dnssec -t AAAA -f public-servers.txt -c10 ripe.netserver avg(ms) min(ms) max(ms) stddev(ms) lost(%) ttl flags response
----------------------------------------------------------------------------------------------------------------------------
1.0.0.1 36.906 7.612 152.866 50.672 %0 300 QR -- -- RD RA AD -- NOERROR
1.1.1.1 7.752 7.512 8.132 0.183 %0 298 QR -- -- RD RA AD -- NOERROR
2606:4700:4700::1001 7.661 7.169 8.102 0.240 %0 297 QR -- -- RD RA AD -- NOERROR
2606:4700:4700::1111 7.802 7.000 8.128 0.312 %0 296 QR -- -- RD RA AD -- NOERROR
195.46.39.39 14.723 7.024 78.239 22.362 %0 300 QR -- -- RD RA -- -- NOERROR
195.46.39.40 7.524 6.972 10.897 1.191 %0 300 QR -- -- RD RA -- -- NOERROR
208.67.220.220 70.519 6.694 180.229 66.516 %0 300 QR -- -- RD RA AD -- NOERROR
208.67.222.222 37.868 6.663 107.601 41.178 %0 300 QR -- -- RD RA AD -- NOERROR
2620:0:ccc::2 31.471 6.768 178.647 56.546 %0 299 QR -- -- RD RA AD -- NOERROR
2620:0:ccd::2 20.651 6.699 145.029 43.702 %0 300 QR -- -- RD RA AD -- NOERROR
216.146.35.35 19.338 6.713 131.198 39.306 %0 300 QR -- -- RD RA AD -- NOERROR
216.146.36.36 107.741 73.421 266.969 58.003 %0 299 QR -- -- RD RA AD -- NOERROR
209.244.0.3 14.717 7.015 80.329 23.058 %0 300 QR -- -- RD RA -- -- NOERROR
209.244.0.4 7.184 7.003 8.197 0.361 %0 300 QR -- -- RD RA -- -- NOERROR
4.2.2.1 7.040 6.994 7.171 0.052 %0 299 QR -- -- RD RA -- -- NOERROR
4.2.2.2 14.358 6.968 79.964 23.052 %0 300 QR -- -- RD RA -- -- NOERROR
4.2.2.3 7.083 6.945 7.265 0.091 %0 299 QR -- -- RD RA -- -- NOERROR
4.2.2.4 7.103 6.990 7.238 0.086 %0 299 QR -- -- RD RA -- -- NOERROR
4.2.2.5 7.100 7.025 7.267 0.074 %0 299 QR -- -- RD RA -- -- NOERROR
80.80.80.80 149.924 53.310 247.395 97.311 %0 299 QR -- -- RD RA AD -- NOERROR
80.80.81.81 144.262 53.360 252.564 97.759 %0 298 QR -- -- RD RA AD -- NOERROR
8.8.4.4 9.196 7.160 10.974 1.484 %0 299 QR -- -- RD RA AD -- NOERROR
8.8.8.8 7.847 7.056 9.866 0.836 %0 299 QR -- -- RD RA AD -- NOERROR
2001:4860:4860::8844 31.819 7.194 155.761 50.671 %0 299 QR -- -- RD RA AD -- NOERROR
2001:4860:4860::8888 7.773 7.200 9.814 0.777 %0 298 QR -- -- RD RA AD -- NOERROR
9.9.9.9 21.894 6.670 81.434 30.299 %0 300 QR -- -- RD RA AD -- NOERROR
2620:fe::fe 21.177 6.723 80.046 30.062 %0 300 QR -- -- RD RA AD -- NOERROR
Babak Farrokhi
- github: github.com/farrokhi
- website: farrokhi.net
- mastodon: @[email protected]
- twitter: @farrokhi
dnsdiag is released under a 2 clause BSD license.
