Client and server software to query DNS over HTTPS, using Google DNS-over-HTTPS protocol and IETF DNS-over-HTTPS (RFC 8484).
- Tutorial: Setup your own DNS-over-HTTPS (DoH) server. (Thanks to Antoine Aflalo)
- Tutorial: Setup your own Docker based DNS-over-HTTPS (DoH) server. (Thanks to Satish Gaikwad)
- Install Go, at least version 1.10.
Note for Debian/Ubuntu users: You need to set
$GOROOT
if you could not get your new version of Go selected by the Makefile.)
- First create an empty directory, used for
$GOPATH
:
mkdir ~/gopath
export GOPATH=~/gopath
- To build the program, type:
make
- To install DNS-over-HTTPS as Systemd services, type:
sudo make install
- By default, Google DNS over HTTPS is used. It should work for most users (except for People's Republic of China). If you need to modify the default settings, type:
sudoedit /etc/dns-over-https/doh-client.conf
- To automatically start DNS-over-HTTPS client as a system service, type:
sudo systemctl start doh-client.service
sudo systemctl enable doh-client.service
-
Then, modify your DNS settings (usually with NetworkManager) to 127.0.0.1.
-
To test your configuration, type:
dig www.google.com
Output:
;; SERVER: 127.0.0.1#53(127.0.0.1)
- To uninstall, type:
sudo make uninstall
Note: The configuration files are kept at
/etc/dns-over-https
. Remove them manually if you want.
docker run -itd --name doh-server \
-p 8053:8053 \
-e UPSTREAM_DNS_SERVER="udp:8.8.8.8:53" \
-e DOH_HTTP_PREFIX="/dns-query" \
-e DOH_SERVER_LISTEN=":8053" \
-e DOH_SERVER_TIMEOUT="10" \
-e DOH_SERVER_TRIES="3" \
-e DOH_SERVER_VERBOSE="false"
satishweb/doh-server
The following is a typical DNS-over-HTTPS architecture:
+--------------+ +------------------------+
| Application | | Recursive DNS Server |
+-------+------+ +-----------+------------+
| |
+-------+------+ +-----------+------------+
| Client side | | doh-server |
| cache (nscd) | +-----------+------------+
+-------+------+ |
| +--------------------------+ +-----------+------------+
+-------+------+ | HTTP cache server / | | HTTP service muxer |
| doh-client +--+ Content Delivery Network +--+ (Apache, Nginx, Caddy) |
+--------------+ +--------------------------+ +------------------------+
Although DNS-over-HTTPS can work alone, a HTTP service muxer would be useful as you can host DNS-over-HTTPS along with other HTTPS services.
HTTP/2 with at least TLS v1.3 is recommended. OCSP stapling must be enabled, otherwise DNS recursion may happen.
The main configuration file is doh-client.conf
.
Server selectors. If several upstream servers are set, one is selected according to upstream_selector
for each request. With upstream_selector = "random"
, a random upstream server will be chosen for each request.
# available selector: random (default) or weighted_round_robin or lvs_weighted_round_robin
upstream_selector = "random"
SSLProtocol TLSv1.2
SSLHonorCipherOrder On
SSLCipherSuite ECDH+AESGCM:DH+AESGCM:ECDH+AES256:DH+AES256:ECDH+AES128:DH+AES:ECDH+3DES:DH+3DES:RSA+3DES:!aNULL:!MD5:!DSS:!eNULL:!EXP:!LOW:!MD5
SSLUseStapling on
SSLStaplingCache shmcb:/var/lib/apache2/stapling_cache(512000)
<VirtualHost *:443>
ServerName MY_SERVER_NAME
Protocols h2 http/1.1
ProxyPass /dns-query http://[::1]:8053/dns-query
ProxyPassReverse /dns-query http://[::1]:8053/dns-query
</VirtualHost>
(Credit: Joan Moreau)
server {
listen 443 ssl http2 default_server;
listen [::]:443 ssl http2 default_server;
server_name MY_SERVER_NAME;
server_tokens off;
ssl_protocols TLSv1.2 TLSv1.3; # TLS 1.3 requires nginx >= 1.13.0
ssl_prefer_server_ciphers on;
ssl_dhparam /etc/nginx/dhparam.pem; # openssl dhparam -dsaparam -out /etc/nginx/dhparam.pem 4096
ssl_ciphers EECDH+AESGCM:EDH+AESGCM;
ssl_ecdh_curve secp384r1; # Requires nginx >= 1.1.0
ssl_session_timeout 10m;
ssl_session_cache shared:SSL:10m;
ssl_session_tickets off; # Requires nginx >= 1.5.9
ssl_stapling on; # Requires nginx >= 1.3.7
ssl_stapling_verify on; # Requires nginx => 1.3.7
ssl_early_data off; # 0-RTT, enable if desired - Requires nginx >= 1.15.4
resolver 1.1.1.1 valid=300s; # Replace with your local resolver
resolver_timeout 5s;
# HTTP Security Headers
add_header X-Frame-Options DENY;
add_header X-Content-Type-Options nosniff;
add_header X-XSS-Protection "1; mode=block";
add_header Strict-Transport-Security "max-age=63072000";
ssl_certificate /path/to/your/server/certificates/fullchain.pem;
ssl_certificate_key /path/to/your/server/certificates/privkey.pem;
location /dns-query {
proxy_pass http://localhost:8053/dns-query;
proxy_set_header Host $host;
proxy_set_header X-Real-IP $remote_addr;
}
}
(Credit: Cipherli.st)
my.server.name {
reverse_proxy * localhost:8053
tls your@email.address
try_files {path} {path}/index.php /index.php?{query}
}
Example configuration: Docker Compose + Traefik + Unbound (Raspberry Pi/Linux/Mac) [linux/amd64,linux/arm64,linux/arm/v7]
version: '2.2'
networks:
default:
services:
proxy:
# The official v2 Traefik docker image
image: traefik:v2.3
hostname: proxy
networks:
- default
environment:
TRAEFIK_ACCESSLOG: "true"
TRAEFIK_API: "true"
TRAEFIK_PROVIDERS_DOCKER: "true"
TRAEFIK_API_INSECURE: "true"
TRAEFIK_PROVIDERS_DOCKER_NETWORK: "${STACK}_default"
# DNS provider specific environment variables for DNS Challenge using route53 (AWS)
AWS_ACCESS_KEY_ID: ${AWS_ACCESS_KEY_ID}
AWS_SECRET_ACCESS_KEY: ${AWS_SECRET_ACCESS_KEY}
AWS_REGION: ${AWS_REGION}
AWS_HOSTED_ZONE_ID: ${AWS_HOSTED_ZONE_ID}
ports:
# The HTTP port
- "80:80"
# The HTTPS port
- "443:443"
# The Web UI (enabled by --api.insecure=true)
- "8080:8080"
command:
#- "--log.level=DEBUG"
- "--providers.docker.exposedbydefault=false"
- "--entrypoints.web.address=:80"
- "--entrypoints.websecure.address=:443"
- "--certificatesresolvers.letsencrypt.acme.dnschallenge=true"
# Providers list:
# https://docs.traefik.io/https/acme/#providers
# https://go-acme.github.io/lego/dns/
- "--certificatesresolvers.letsencrypt.acme.dnschallenge.provider=route53"
# Enable below line to use staging letsencrypt server.
#- "--certificatesresolvers.letsencrypt.acme.caserver=https://acme-staging-v02.api.letsencrypt.org/directory"
- "--certificatesresolvers.letsencrypt.acme.email=${EMAIL}"
- "--certificatesresolvers.letsencrypt.acme.storage=/certs/acme.json"
volumes:
# So that Traefik can listen to the Docker events
- /var/run/docker.sock:/var/run/docker.sock
- ./data/proxy/certs:/certs
doh-server:
image: satishweb/doh-server:latest
hostname: doh-server
networks:
- default
environment:
# Enable below line to see more logs
# DEBUG: "1"
UPSTREAM_DNS_SERVER: "udp:unbound:53"
DOH_HTTP_PREFIX: "${DOH_HTTP_PREFIX}"
DOH_SERVER_LISTEN: ":${DOH_SERVER_LISTEN}"
DOH_SERVER_TIMEOUT: "10"
DOH_SERVER_TRIES: "3"
DOH_SERVER_VERBOSE: "false"
#volumes:
# - ./doh-server.conf:/server/doh-server.conf
# - ./app-config:/app-config
depends_on:
- unbound
labels:
- "traefik.enable=true"
- "traefik.http.routers.doh-server.rule=Host(`${SUBDOMAIN}.${DOMAIN}`) && Path(`${DOH_HTTP_PREFIX}`)"
- "traefik.http.services.doh-server.loadbalancer.server.port=${DOH_SERVER_LISTEN}"
- "traefik.http.middlewares.mw-doh-compression.compress=true"
- "traefik.http.routers.doh-server.tls=true"
- "traefik.http.middlewares.mw-doh-tls.headers.sslredirect=true"
- "traefik.http.middlewares.mw-doh-tls.headers.sslforcehost=true"
- "traefik.http.routers.doh-server.tls.certresolver=letsencrypt"
- "traefik.http.routers.doh-server.tls.domains[0].main=${DOMAIN}"
- "traefik.http.routers.doh-server.tls.domains[0].sans=${SUBDOMAIN}.${DOMAIN}"
# Protection from requests flood
- "traefik.http.middlewares.mw-doh-ratelimit.ratelimit.average=100"
- "traefik.http.middlewares.mw-doh-ratelimit.ratelimit.burst=50"
- "traefik.http.middlewares.mw-doh-ratelimit.ratelimit.period=10s"
unbound:
image: satishweb/unbound:latest
hostname: unbound
networks:
- default
ports:
# Disable these ports if DOH server is the only client
- 53:53/tcp
- 53:53/udp
volumes:
- ./unbound.sample.conf:/templates/unbound.sample.conf
- ./data/unbound/custom:/etc/unbound/custom
# Keep your custom.hosts file inside custom folder
#environment:
# DEBUG: "1"
Complete Guide available at: https://github.com/satishweb/docker-doh
IPV6 Support for Docker Compose based configuration TBA
DNS-over-HTTPS is compatible with DNSSEC, and requests DNSSEC signatures by
default. However signature validation is not built-in. It is highly recommended
that you install unbound
or bind
and pass results for them to validate DNS
records. An instance of Pi Hole could also be used to validate DNS signatures as well as provide other capabilities.
DNS-over-HTTPS supports EDNS0-Client-Subnet protocol, which submits part of the client's IP address (/24 for IPv4, /56 for IPv6 by default) to the upstream server. This is useful for GeoDNS and CDNs to work, and is exactly the same configuration as most public DNS servers.
Keep in mind that /24 is not enough to track a single user, although it is
precise enough to know the city where the user is located. If you think
EDNS0-Client-Subnet is affecting your privacy, you can set no_ecs = true
in
/etc/dns-over-https/doh-client.conf
, with the cost of slower video streaming
or software downloading speed.
To ultilize ECS, X-Forwarded-For
or X-Real-IP
should be enabled on your
HTTP service muxer. If your server is backed by unbound
or bind
, you
probably want to configure it to enable the EDNS0-Client-Subnet feature as
well.
DNS-over-HTTPS uses a protocol compatible to Google DNS-over-HTTPS, except for absolute expire time is preferred to relative TTL value. Refer to json-dns/response.go for a complete description of the API.
DNS-over-HTTPS uses a protocol compatible to IETF DNS-over-HTTPS (RFC 8484).
Currently supported features are:
- IPv4 / IPv6
- EDNS0 large UDP packet (4 KiB by default)
- EDNS0-Client-Subnet (/24 for IPv4, /56 for IPv6 by default)
This project is named "DNS-over-HTTPS" because it was written before the IETF DoH project. Although this project is compatible with IETF DoH, the project is not affiliated with IETF.
To avoid confusion, you may also call this project "m13253/DNS-over-HTTPS" or anything you like.
DNS-over-HTTPS is licensed under the MIT License. You are encouraged to embed DNS-over-HTTPS into your other projects, as long as the license permits.
You are also encouraged to disclose your improvements to the public, so that others may benefit from your modification, in the same way you receive benefits from this project.