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It's a bird, it's a plane, it's... a self-hosted, pi-hole esque, DNS resolver

serverless-dns is a Pi-Hole esque content-blocking, serverless, stub DNS-over-HTTPS (DoH) and DNS-over-TLS (DoT) resolver. Runs out-of-the-box on Cloudflare Workers, Deno Deploy, Fastly Compute@Edge, and Fly.io. Free tiers of all these services should be enough to cover 10 to 20 devices worth of DNS traffic per month.

The RethinkDNS resolver

RethinkDNS runs serverless-dns in production at these endpoints:

Cloud platform Server locations Protocol Domain Usage
â›… Cloudflare Workers 280+ (ping) DoH sky.rethinkdns.com configure
🦕 Deno Deploy 30+ (ping) DoH private beta
⏱️ Fastly Compute@Edge 80+ (ping) DoH private beta
🪂 Fly.io 30+ (ping) DoH and DoT max.rethinkdns.com configure

Server-side processing takes from 0 milliseconds (ms) to 2ms (median), and end-to-end latency (varies across regions and networks) is between 10ms to 30ms (median).

Self-host

Cloudflare Workers is the easiest platform to setup serverless-dns:

Deploy to Cloudflare Workers

Deploy to Fastly

For step-by-step instructions, refer:

Platform Difficulty Runtime Doc
â›… Cloudflare Easy v8 Isolates Hosting on Cloudflare Workers
🦕 Deno.com Moderate Deno Isolates Hosting on Deno.com
⏱️ Fastly Compute@Edge Easy Fastly JS Hosting on Fastly Compute@Edge
🪂 Fly.io Hard Node MicroVM Hosting on Fly.io

To setup blocklists, visit https://<my-domain>.tld/configure from your browser (it should load something similar to RethinkDNS' configure page).

For help or assistance, feel free to open an issue or submit a patch.


Development

OpenSSF Scorecard

Setup

Code:

# navigate to work dir
cd /my/work/dir

# clone this repository
git clone https://github.com/serverless-dns/serverless-dns.git

# navigate to serverless-dns
cd ./serverless-dns

Node:

# install node v22+ via nvm, if required
# https://github.com/nvm-sh/nvm#installing-and-updating
wget -qO- https://raw.githubusercontent.com/nvm-sh/nvm/v0.39.1/install.sh | bash
nvm install --lts

# download dependencies
npm i

# (optional) update dependencies
npm update

# run serverless-dns on node
./run n

# run a clinicjs.org profiler
./run n [cpu|fn|mem]

Deno:

# install deno.land v2+
# https://github.com/denoland/deno/#install
curl -fsSL https://deno.land/install.sh | sh

# run serverless-dns on deno
./run d

Fastly:

# install node v22+ via nvm, if required
# install the Fastly CLI
# https://developer.fastly.com/learning/tools/cli

# run serverless-dns on Fastly Compute@Edge
./run f

Wrangler:

# install Cloudflare Workers (cli) aka Wrangler
# https://developers.cloudflare.com/workers/cli-wrangler/install-update
npm i wrangler --save-dev

# run serverless-dns on Cloudflare Workers (cli)
# Make sure to setup Wrangler first:
# https://developers.cloudflare.com/workers/cli-wrangler/authentication
./run w

# profile wrangler with Chrome DevTools
# blog.cloudflare.com/profiling-your-workers-with-wrangler

Code style

Commits on this repository enforces the Google JavaScript style guide (ref: .eslintrc.cjs). A git pre-commit hook that runs linter (eslint) and formatter (prettier) on .js files. Use git commit --no-verify to bypass this hook.

Pull requests are also checked for code style violations and fixed automatically where possible.

Env vars

Configure env.js if you need to tweak the defaults. For Cloudflare Workers, setup env vars in wrangler.toml, instead. For Fastly Compute@Edge, setup env vars in fastly.toml, instead.

Request flow

  1. The request/response flow: client <-> src/server-[node|workers|deno] <-> doh.js <-> plugin.js
  2. The plugin.js flow: user-op.js -> cache-resolver.js -> cc.js -> resolver.js

Auth

serverless-dns supports authentication with an alpha-numeric bearer token for both DoH and DoT. For a token, msg-key (secret), append the output of hex(hmac-sha256(msg-key|domain.tld), msg) to ACCESS_KEYS env var in csv format. Note: msg is currently fixed to sdns-public-auth-info.

  1. DoH: place the msg-key at the end of the blockstamp, like so: 1:1:4AIggAABEGAgAA:<msg-key> (here, 1 is the version, 1:4AIggAABEGAgAA is the blockstamp, <msg-key> is the auth secret, and : is the delimiter).
  2. DoT: place the msg-key at the end of the SNI (domain-name) containing the blockstamp: 1-4abcbaaaaeigaiaa-<msg-key> (here 1 is the version, 4abcbaaaaeigaiaa is the blockstamp, <msg-key> is the auth secret, and - is the delimeter).

If the intention is to use auth with DoT too, keep msg-key shorter (8 to 24 chars), since subdomains may only be 63 chars long in total.

You can generate the access keys for your fork from max.rethinkdns.com, like so:

msgkey="ShortAlphanumericSecret"
domain="my-serverless-dns-domain.tld"
curl 'https://max.rethinkdns.com/genaccesskey?key='"$msgkey"'&dom='"$domain"
# output
# {"accesskey":["my-serverless-dns-domain.tld|deadbeefd3adb33fa2bb33fd3eadf084beef3b152beefdead49bbb2b33fdead83d3adbeefdeadb33f"],"context":"sdns-public-auth-info"}

Logs and Analytics

serverless-dns can be setup to upload logs via Cloudflare Logpush.

  1. Setup a Logpush job:
    CF_ACCOUNT_ID=<hex-cloudflare-account-id>
    CF_API_KEY=<api-key-with-logs-edit-permission-at-account-level>
    R2_BUCKET=<r2-bucket-name>
    R2_ACCESS_KEY=<r2-access-key-for-the-bucket>
    R2_SECRET_KEY=<r2-secret-key-with-read-write-permissions>
    # optional, setup a filter such that only logs form this worker ends up being pushed; but if you
    # do not need a filter on Worker name (script-name), edit the "filter" field below accordingly.
    SCRIPT_NAME=<name-of-the-worker-as-in-wrangler-toml>
    # for more options, ref: developers.cloudflare.com/logs/get-started/api-configuration
    # Logpush API with cURL: developers.cloudflare.com/logs/tutorials/examples/example-logpush-curl
    # Available Logpull fields: developers.cloudflare.com/logs/reference/log-fields/account/workers_trace_events
    curl -s -X POST "https://api.cloudflare.com/client/v4/accounts/${CF_ACCOUNT_ID}/logpush/jobs" \
        -H "Authorization: Bearer ${CF_API_KEY}" \
        -H 'Content-Type: application/json' \
        -d '{
            "name": "dns-logpush",
            "logpull_options": "fields=EventTimestampMs,Outcome,Logs,ScriptName&timestamps=rfc3339",
            "destination_conf": "r2://'"$R2_BUCKET"'/{DATE}?access-key-id='"${R2_ACCESS_KEY}"'&secret-access-key='"${R2_SECRET_KEY}"'&account-id='"{$CF_ACCOUNT_ID}"',
            "dataset": "workers_trace_events",
            "filter": "{\"where\":{\"and\":[{\"key\":\"ScriptName\",\"operator\":\"contains\",\"value\":\"'"${SCRIPT_NAME}"'\"},{\"key\":\"Outcome\",\"operator\":\"eq\",\"value\":\"ok\"}]}}",
            "enabled": true,
            "frequency": "low"
        }'
  2. Set wrangler.toml property logpush = true, which enables Logpush.
  3. (Optional) env var LOG_LEVEL = "logpush", which raises the log-level such that only request and error logs are emitted.
  4. (Optional) Set env var LOGPUSH_SRC = "csv,of,subdomains", which makes log-pusher.js emit request logs only if Workers hostname contains one of the subdomains.

Logs published to R2 can be retrieved either using R2 Workers, the R2 API, or the Logpush API.

Workers Analytics, if enabled, is pushed against a log-key, lid, which if unspecified is set to hostname of the serverless deployment with periods, ., replaced with underscores, _. Auth must be setup when querying for Analytics via the API which returns a json; ex: https://max.rethinkdns.com/1:<optional-stamp>:<msg-key>/analytics?t=<time-interval-in-mins>&f=<field-name>. Possible fields are ip (client ip), qname (dns query name), region (resolver region), qtype (dns query type), dom (top-level domains), ansip (dns answer ips), and cc (ans ip country codes).

Log capture and analytics isn't yet implemented for Fly and Deno Deploy.


A note about runtimes

Deno Deploy (cloud) and Deno (the runtime) do not expose the same API surface (for example, Deno Deploy only supports HTTP/S server-listeners; whereas, Deno suports raw TCP/UDP/TLS in addition to plain HTTP and HTTP/S).

Except on Node, serverless-dns uses DoH upstreams defined by env vars, CF_DNS_RESOLVER_URL / CF_DNS_RESOLVER_URL_2. On Node, the default DNS upstream is 1.1.1.2 (ref) or the recursive DNS resolver at fdaa::3 when running on Fly.io.

The entrypoints for Node and Deno are src/server-node.js, src/server-deno.ts respectively, and both listen for TCP-over-TLS, HTTP/S connections; whereas, the entrypoint for Cloudflare Workers, which only listens over HTTP (cli) or over HTTP/S (prod), is src/server-workers.js; and for Fastly its src/server-fastly.js.

Local (non-prod) setups on Node, key (private) and cert (public chain) files, by default, are read from paths defined in env vars, TLS_KEY_PATH and TLS_CRT_PATH.

Whilst for prod setup on Node (on Fly.io), either TLS_OFFLOAD must be set to true or key and cert must be base64 encoded in env var TLS_CERTKEY (ref), like so:

# EITHER: offload tls to fly.io and set tls_offload to true
TLS_OFFLOAD="true"
# OR: base64 representation of both key (private) and cert (public chain)
TLS_CERTKEY="KEY=b64_key_content\nCRT=b64_cert_content"

For Deno, key and cert files are read from paths defined in env vars, TLS_KEY_PATH and TLS_CRT_PATH (ref).

Process bringup is different for each of these runtimes: For Node, src/core/node/config.js governs the bringup; while for Deno, it is src/core/deno/config.ts, and for Workers it is src/core/workers/config.js. src/system.js pub-sub co-ordinates the bringup phase among various modules.

On Node and Deno, in-process DNS caching is backed by @serverless-dns/lfu-cache; Cloudflare Workers is backed by both Cache Web API and in-process lfu caches. To disable caching altogether on all three platfroms, set env var, PROFILE_DNS_RESOLVES=true.

Cloud

Cloudflare Workers, and Deno Deploy are ephemeral, as in, the "process" that serves client requests is not long-lived, and in fact, two back-to-back requests may be served by two different isolates ("processes"). Fastly Compute@Edge is the also ephemeral but does not use isolates, instead Fastly creates and destroys a wasmtime sandbox for each request. Resolver on Fly.io, running Node, is backed by persistent VMs and is hence longer-lived, like traditional "serverfull" environments.

For Deno Deploy, the code-base is bundled up in a single javascript file with deno bundle and then handed off to Deno.com.

Cloudflare Workers build-time and runtime configurations are defined in wrangler.toml. Webpack5 bundles the files in an ESM module which is then uploaded to Cloudflare by Wrangler.

Fastly Compute@Edge build-time and runtime configurations are defined in fastly.toml. Webpack5 bundles the files in an ESM module which is then compiled to WASM by npx js-compute-runtime and subsequently packaged and published to Fastly Compute@Edge with the Fastly CLI.

For Fly.io, which runs Node, the runtime directives are defined in fly.toml (used by dev and live deployment-types), while deploy directives are in node.Dockerfile. flyctl accordingly sets up serverless-dns on Fly.io's infrastructure.

# build and deploy for cloudflare workers.dev
npm run build
# usually, env-name is prod
npx wrangler publish [-e <env-name>]

# bundle, build, and deploy for fastly compute@edge
# developer.fastly.com/reference/cli/compute/publish
fastly compute publish

# build and deploy to fly.io
npm run build:fly
flyctl deploy --dockerfile node.Dockerfile --config <fly.toml> [-a <app-name>] [--image-label <some-uniq-label>]

For deploys offloading TLS termination to Fly.io (B1 deployment-type), the runtime directives are instead defined in fly.tls.toml, which sets up HTTP2 Cleartext and HTTP/1.1 on port 443, and DNS over TCP on port 853.

Ref: github/workflows.

Blocklists

190+ blocklists are compressed in a Succinct Radix Trie (based on Steve Hanov's impl) with modifications to speed up string search (lookup) at the expense of "succintness". The blocklists are versioned with unix timestamp (defined in src/basicconfig.json downloaded by pre.sh), which is generated once every week, but we'd like to generate 'em daily / hourly, if possible see), and hosted on Cloudflare R2 (env var: CF_BLOCKLIST_URL).

serverless-dns downloads 3 blocklist files required to setup the radix-trie during runtime bring-up or, downloads them lazily, when serving a DNS request.

serverless-dns compiles around ~13M entries (as of Jan 2023) from around 190+ blocklists. These are defined in the serverless-dns/blocklists repository.