c0f5e0cb17 | ||
---|---|---|
bin | ||
examples | ||
packer | ||
parser | ||
samples | ||
test | ||
.gitignore | ||
.gitmodules | ||
CHANGELOG | ||
LICENSE | ||
ORIGINAL_PROBLEM.md | ||
README.md | ||
browser.js | ||
demo.css | ||
demo.html | ||
dns.classes.js | ||
dns.js | ||
dns.opcodes.js | ||
dns.packer.js | ||
dns.parser.js | ||
dns.rcodes.js | ||
dns.rdata.pack.js | ||
dns.rdata.parse.js | ||
dns.type.any.js | ||
dns.types.js | ||
dns.unpack-labels.js | ||
notes.md | ||
package.json | ||
parse-binary-test.js |
README.md
dns-suite.js
| dns-suite.js | dig.js | mdig.js | digd.js | Sponsored by Daplie.
Fast, lightweight, and easy-to-extend pure JavaScript (ES5.1) implementation for DNS / mDNS.
Works great in Web Browsers and in node.js!
Detailed error checking makes it great for
- capture
- packing (JSON to DNS/mDNS)
- parsing (DNS/mDNS to JSON)
- linting (finding errors in packets)
- debugging
No external dependencies for node.js or modern browsers. Uses DataView
, Uint8Array
, Uint16Array
, and ArrayBuffer
Similar API to dns.js
and native-dns-packet
.
{ "header": {
"id": 5423
, "qr": 0
, "opcode": 0
, "aa": 0
, "tc": 0
, "rd": 1
, "ra": 0
, "res1": 0
, "res2": 0
, "res3": 0
, "rcode": 0
}
, "question": [
{ "name": "bowie._sftp-ssh._tcp.local"
, "type": 1
, "typeName": "A"
, "class": 1
, "className": "IN"
, "byteLength": 32
}
]
, "answer": []
, "authority": []
, "additional": []
, "edns_options": []
, "byteLength": 44
}
Install with git
You can use git to install v1.x like so:
# latest of v1.x
npm install 'git+https://git.coolaj86.com/coolaj86/dns-suite.js#v1'
If you want to be more specific to v1.0.x or exactly v1.0.2 you can do so like this:
# latest of v1.0.x
npm install 'git+https://git.coolaj86.com/coolaj86/dns-suite.js#v1.0'
# exactly v1.0.2
npm install 'git+https://git.coolaj86.com/coolaj86/dns-suite.js#v1.0.2'
Install without git
Don't have git? Well you can also bow down to the gods of the centralized, monopolized, concentrated, dictatornet (as we like to call it here at Daplie Labs), if that's how you roll:
npm install --save dns-suite
Test:
pushd node_modules/dns-suite
npm test
Usage
- CLI
- API
CLI Usage
When installed globally you can use these commands:
dns-parse.js </path/to/packet.dns.bin> [out.json] # parses a saved DNS packet to JSON
dns-pack.js </path/to/packet.dns.json> [out.bin] # packs a JSON DNS packet to binary
dns-test.js </path/to/packet.dns(.json|.bin)> # convert a packet back and forth to test reciprocity of the packer and parser
For capturing packets you should use dig.js
with the --output
option.
It can capture mDNS as well. See https://git.coolaj86.com/coolaj86/dig.js#options.
You can also access them directly from node_modules/dns-suite
in a project:
node node_modules/dns-suite/bin/dns-parse.js node_modules/dns-suite/samples/a-0.mdns.bin
Library API
DNSPacket.parse(nodeOrArrayBuffer)
returns json (as shown above)DNSPacket.pack(packet)
returns ArrayBuffer (browser and node)DNSPacket.write(packet)
returns NodeBuffer (node only)
node.js:
var nodeBuffer = fs.readFileSync('./samples/a-0.mdns.bin');
var arrayBuffer = nodeBuffer.buffer;
var DNSPacket = require('dns-suite').DNSPacket;
var packet = DNSPacket.parse(arrayBuffer);
var ab = DNSPacket.pack(packet);
console.log(packet);
console.log(new Uint8Array(ab));
Browser:
var arrayBuffer = new Uint8Array.from([ /* bytes */ ]).buffer;
var packet = DNSPacket.parse(arrayBuffer);
var ab = DNSPacket.pack(packet);
console.log(packet);
console.log(new Uint8Array(ab));
Capturing Packets
We have a command line tool for that! See dig.js.
# Install
npm install -g 'git+https://git.coolaj86.com/coolaj86/dig.js.git'
# Use with DNS
dig.js A daplie.com --output .
# Use with mDNS
dig.js --mdns PTR _services._dns-sd._udp.local --output .
Resource Record Examples
- SOA
- NS
- A
- AAAA
- CNAME
- MX
- TXT
- SRV
- PTR
SOA
I'm pretty sure that the SOA only goes in the authority
section
(except when SOA is queried explicitly)
and that it's only given as a response to any empty set
(where RCODE == NXDOMAIN
)
to affirm "yes, I am responsible for this domain but, no, I don't have a record for it".
If another nameserver has been delegated authority for a particular subdomain
a set of NS
records should be returned instead.
{
"name": "yahoo.com",
"type": 6,
"typeName": "SOA",
"class": 1,
"className": "IN",
"ttl": 599,
"primary": "ns1.yahoo.com",
"admin": "hostmaster.yahoo-inc.com",
"serial": 2017092539,
"refresh": 3600,
"retry": 300,
"expiration": 1814400,
"minimum": 600
}
NS
I'm also pretty sure that the NS only goes in the authority
section
(except when NS is queried explicitly)
and that it's given as a successful response
(RCODE == SUCCESS
)
to any query type
(A
or AAAA
, MX
, TXT
, or SRV
)
where the answer sections is an empty set because the records in
question have been delegated to another nameserver.
{
"name": "google.com",
"type": 2,
"typeName": "NS",
"class": 1,
"className": "IN",
"ttl": 82790,
"data": "ns3.google.com"
}
A
The most common type of record. Returns the IPv4 address for a given domain.
{
"name": "www.linode.com",
"type": 1,
"typeName": "A",
"class": 1,
"className": "IN",
"ttl": 291,
"address": "72.14.191.202"
}
AAAA
Returns the IPv6 address for a given domain.
{
"name": "irc6.geo.oftc.net",
"type": 28,
"typeName": "AAAA",
"class": 1,
"className": "IN",
"ttl": 59,
"address": "2607:f8f0:610:4000:211:11ff:fe1c:7bec"
}
CNAME
The CNAME is used to look up the IP address for the given alias. (the alias is often referred to incorrectly as a CNAME but it is, in fact, the alias)
{
"name": "www.nodejs.org",
"type": 5,
"typeName": "CNAME",
"class": 1,
"className": "IN",
"ttl": 3600,
"data": "nodejs.org"
}
MX
Mail Exchange Records show the alias that should be looked up to know where incoming mail should be sent.
{
"name": "microsoft.com",
"type": 15,
"typeName": "MX",
"class": 1,
"className": "IN",
"ttl": 197,
"priority": 10,
"exchange": "microsoft-com.mail.protection.outlook.com"
}
TXT
Often used for outgoing mail validations, public keys, lots of arbitrary stuff.
{
"name": "aol.com",
"type": 16,
"typeName": "TXT",
"class": 1,
"className": "IN",
"ttl": 1926,
"data": [ "v=spf1 ptr:mx.aol.com ?all" ]
}
SRV
A way to associate a service with a port and other relevant information. Used for federated / dencentralized protocols (like XMPP) and mDNS/DLNA/UPnP/DNS-SD type stuff.
{
"name": "_xmpp-server._tcp.gmail.com",
"type": 33,
"typeName": "SRV",
"class": 1,
"className": "IN",
"ttl": 900,
"priority": 5,
"weight": 0,
"port": 5269,
"target": "xmpp-server.l.google.com"
}
PTR
Used for mDNS/DNS-SD type discoveries and anti-spam reverse lookup verification for mail servers.
{
"name": "_pdl-datastream._tcp.local",
"type": 12,
"typeName": "PTR",
"class": 1,
"className": "IN",
"ttl": 255,
"data": "Canon MF620C Series._pdl-datastream._tcp.local"
}
All Properties
For simplicity, here's a list of all properties, just for fun:
{
// All RRs
"name": "example.com",
"type": 1,
"typeName": "A",
"class": 1,
"className": "IN",
"ttl": 600,
// SOA
"primary": "ns1.yahoo.com",
"admin": "hostmaster.yahoo-inc.com",
"serial": 2017092539,
"refresh": 3600,
"retry": 300,
"expiration": 1814400,
"minimum": 600,
// A, AAAA
"address": "72.14.191.202",
// CNAME, NS, PTR
"data": "ns3.google.com",
// TXT
// "data": [ "v=spf1 ptr:mx.aol.com ?all" ],
// MX
"priority": 10,
"exchange": "microsoft-com.mail.protection.outlook.com",
// SRV
"priority": 5,
"weight": 0,
"port": 5269,
"target": "xmpp-server.l.google.com"
}
Contributing and Development
How to add a new parser
Each RR (aka Resource Record or RData) parser is individual. Examples include:
- A (
parser/type.a.js
) - AAAA (
parser/type.aaaa.js
) - CNAME (
parser/type.cname.js
) - TXT (
parser/type.txt.js
) - SRV (
parser/type.srv.js
)
Let's say that To create a parser for a type which we don't currently support,
just add the appropriate information to dns.types.js
and create a file for
the name of the type in the format parser/type.<typename>.js
.
For example, if CNAME
wasn't already supported and I wanted to add support for
it I would follow these steps:
- Update
dns.types.js
if it's not there already.
A: 0x01 // 1
, NS: 0x02 // 2
, CNAME: 0x05 // 5 // I would simply add this line
, SOA: 0x06 // 6
- Capture a packet to
test/fixtures/<domain>.<tld>.<type>.bin
This will construct and send a DNS query and save the first result that comes back.
In some cases (such as CNAME), the typical (or required) way to illicit the desired response is to make a request of a different type.
If that's the case, manually rename the the file afterwards.
Ideally you should have some idea of what the result file should look
like and should place that in test/fixtures/<domain>.<tld>.<type>.json
npm install -g dig.js
dig.js --name www.google.com --type CNAME --output ./samples/
- Create
parser/type.cname.js
Copy parser/type.TEMPLATE.js
to the type for which you wish to create support
(parser/type.cname.js
in this example) and fill in the blanks.
var unpackLabels = exports.DNS_UNPACK_LABELS || require('./dns.unpack-labels.js').DNS_UNPACK_LABELS;
exports.DNS_PARSER_TYPE_CNAME = function (ab, packet, record) {
// record = { rdstart, rdlength, type, class }
// example of not parsing and just leaving as binary data
record.data = new Uint8Array(ab.slice(record.rdstart, record.rdstart + record.rdlength));
return record;
};
}('undefined' !== typeof window ? window : exports));
- Document what you've learned in
doc/<type>.txt
You may be right or you might be wrong, but you might be right.
In any case, take a minute to document some of the gritty details of what you learned about this record type - tips, tricks, little-known facts, etc.
This may help (or wildly mislead) others if there's a bug in your parser that they need to track down. At the very least someone can follow a few links you followed and your thought process.
- Check that my changes include these files
├── README.md
├── demo.html (add the appropriate script tag)
├── doc
| └── cname.txt
├── dns.classes.js (not necessarily, but potentially)
├── dns.types.js
├── package.json (bump the minor version)
├── packer
| └── type.cname.js
├── parser
| └── type.cname.js
└── test
└── fixtures
├── www.google.com.cname.bin
└── www.google.com.cname.js