2017-10-02 18:45:33 +00:00
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digd.js
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=======
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2017-10-28 05:47:21 +00:00
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| [dns-suite.js](https://git.coolaj86.com/coolaj86/dns-suite.js)
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2017-10-28 05:45:52 +00:00
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| [dig.js](https://git.coolaj86.com/coolaj86/dig.js)
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2017-11-03 05:47:20 +00:00
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| [mdig.js](https://git.coolaj86.com/coolaj86/mdig.js)
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2017-10-02 18:45:33 +00:00
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| **digd.js**
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2017-10-29 03:40:26 +00:00
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| Sponsored by [Daplie](https://daplie.com).
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2017-10-28 05:45:52 +00:00
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2017-10-02 18:45:33 +00:00
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A lightweight DNS / mDNS daemon (server) for creating and capturing DNS and mDNS
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query and response packets to disk as binary and/or JSON.
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Options are similar to the Unix dig command.
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Install
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-------
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2017-11-02 05:14:44 +00:00
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### systemd service
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```bash
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curl -L https://git.coolaj86.com/coolaj86/digd.js/raw/v1.1/install.sh | bash
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```
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2017-10-02 18:45:33 +00:00
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### with git
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```bash
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# Install the latest of v1.x
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2017-10-28 05:45:52 +00:00
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npm install -g 'git+https://git.coolaj86.com/coolaj86/digd.js.git#v1'
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2017-10-02 18:45:33 +00:00
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```
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```bash
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2017-11-02 05:14:44 +00:00
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# Install exactly v1.1.9
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npm install -g 'git+https://git.coolaj86.com/coolaj86/digd.js.git#v1.1.9'
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2017-10-02 18:45:33 +00:00
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```
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### without git
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Don't have git? Well, you can also bow down to the gods of the centralized, monopolized, concentrated, *dictator*net
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(as we like to call it here at Daplie Labs), if that's how you roll:
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```bash
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npm install -g digd.js
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```
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Usage
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-----
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```bash
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2017-10-10 01:17:34 +00:00
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digd.js --input <path/to/dns.json>
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2017-10-02 18:45:33 +00:00
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```
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**Example**:
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```bash
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2017-10-10 01:17:34 +00:00
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digd.js --input ./samples/db.json
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2017-10-02 18:45:33 +00:00
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```
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2017-10-06 21:54:00 +00:00
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### Testing
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```bash
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# unix dig
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dig @localhost example.com
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# dns-suite's dig.js
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dig.js @localhost example.com
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# unix netcat
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netcat -u 127.0.0.1 53 < ./samples/example.com.a.query.bin
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```
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2017-10-02 18:45:33 +00:00
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Options
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-------
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```
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--output <path/to/file> write query and response(s) to disk with this path prefix (ex: ./samples/dns)
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--input <path/to/file> input file to use for authoritative responses (ex: ./samples/db.json)
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2017-10-02 18:45:33 +00:00
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--mdns Use mDNS port (5353) and nameserver address (224.0.0.251)
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-p <port> default 53 (mdns default: 5353) (listener is random for DNS and 5353 for mDNS)
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--nameserver <ns> alias of @<nameserver>
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--timeout <ms> alias of +time=<seconds>, but in milliseconds
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@<nameserver> specify the nameserver to use for recursive DNS resolutions (defaults to system defaults)
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+time=<seconds> Sets the timeout for a query in seconds.
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+norecurse Set `ra` flag to 0. Do not perform recursion.
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+aaonly Set `aa` flag to 1. Do not respond with non-authoritative responses.
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--debug verbose output
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```
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2017-10-02 23:13:57 +00:00
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2017-10-10 01:17:34 +00:00
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JSON Database File
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------------------
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This DNS server is being created for use in the wild.
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Although there will be a true database adapter later,
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this JSON representation gives us an easy way to experiment with serving DNS and various record types.
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There are 4 types of information in the file:
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* Primary Nameservers `primaryNameservers`
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* SOA Records `domains`
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* devices
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* All other records (A, AAAA, CAA, CNAME, MX, NS, PTR, SPF, SRV, TXT)
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```js
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module.exports = {
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primaryNameservers: [ 'ns1.example.com', 'ns2.example.com' ]
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// SOA records
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, domains: [
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// `primary` is chosen at random from `primaryNameservers` or `vanityNs`
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// `serial` is generated from `updatedAt`
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{ id: "publicsuffix.net", updatedAt: 1507594095118, ttl: 60
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, admin: 'admin.publicsuffix.net', refresh: 1800, retry: 600
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, expiration: 2419200, minimum: 5 }
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, { id: "doe.publicsuffix.net", updatedAt: 1507594095118, ttl: 60
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, admin: 'admin.doe.publicsuffix.net', refresh: 1800, retry: 600
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, expiration: 2419200, minimum: 5 }
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// default values will be used when left undefined
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, { id: "doefam.net", updatedAt: 1507594095118
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, vanityNs: [ 'ns1.awesome.com', 'ns2.awesome.com' ] }
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]
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, records: [
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//
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// Plain old boring A Records
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//
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{ name: "publicsuffix.net", zone: "publicsuffix.net"
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, tld: "net", sld: "publicsuffix", sub: ""
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, type: 'A', ttl: 300, address: '127.0.0.1' }
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{ name: "www.publicsuffix.net", zone: "publicsuffix.net"
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, tld: "net", sld: "publicsuffix", sub: "www"
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, type: 'A', ttl: 300, address: '127.0.0.1' }
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//
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// Subdomain Delegation of a public suffix (treated as TLD)
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//
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{ name: "jane.doe.publicsuffix.net", zone: "doe.publicsuffix.net"
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, tld: "publicsuffix.net", sld: "doe", sub: "john"
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, type: 'NS', ttl: 300, data: 'ns1.other-dns.net'
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}
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//
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// Example of all other record types
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//
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{ name: "john.doe.publicsuffix.net"
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// The zone / SOA it belongs to (keep in mind that subdomains can be delegated to other users and/or nameservers)
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, zone: "doe.publicsuffix.net"
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// For indexing (note that we can treat delegated subdomains as if they were TLDs for delegation and resale)
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, tld: "publicsuffix.net"
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, sld: "doe"
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, sub: "john"
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, type: 'A' // for this example we specify a type even though we show all of the record data
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, class: 'IN' // (default)
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, ttl: 300
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// A, AAAA
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, address: '127.0.0.1'
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2017-10-12 18:48:09 +00:00
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, aname: 'some-device.example.com' // See "A Note on ANAMEs" below
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2017-10-10 01:17:34 +00:00
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// CAA
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, flag: 0
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, tag: 'issue'
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, value: 'letsencrypt.org'
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// CNAME, NS, PTR put 'name' here
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// TXT puts an array here
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, data: 'a.example.com'
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// MX, SRV
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, priority: 10
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// MX
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, exchange: 'mxa.example.org'
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// SRV
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, weight: 20
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, port: 65065
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, target: 'laptop1.devices.example.com'
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}
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]
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};
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```
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The **Primary Nameservers** should be all of the nameservers that are in sync for these collections of records.
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The **SOA** records represent that a domain or subdomain has be registered to or delegated to these nameservers.
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The SOA records are separate from other record types because they are automatically generated as part of registering
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a domain or updating its records.
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The **other records** are in their own table for easy and fast lookup.
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The **devices** are an abstraction that will be used in the future for ANAMEs and Dynamic DNS.
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Note: Because it's possible to that delegated subdomains could have delegated subdomains that go right back to the
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original nameserver, **NS** records will be replaced with an SOA record if any of the NS records match any of
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the server's primary nameservers or if vanity nameservers are used.
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2017-10-12 18:48:09 +00:00
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### A Note on ANAMES
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ANAMEs serve two purposes in this system:
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1. Traditional ANAME. Just a CNAME that is automatically resolved to an A record for the "bare domain" problem, and efficiency.
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2. Dynamic DNS. When a record on the system is updated, any records that match it by ANAME are also updated
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TODO: use dns0x20 for ANAME resolutions
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2017-10-10 01:17:34 +00:00
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2017-10-02 23:13:57 +00:00
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Other Resources
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---------------
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You may also be interested in Unbound (https://unboundtest.com), which is an entirely different project by someone else
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which is much more complete, written in go, and may be very useful for debugging and linting.
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2017-10-10 01:19:18 +00:00
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LICENSE
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=======
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You may, at your option, use this software under the MIT and/or Apache-2.0 licenses.
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