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nodejs/test/common/dns.js
Rich Trott aa6fac68da test: adjust indentation for stricter linting 
ESLint 4.x has stricter linting than previous versions. We are currently
using the legacy indentation rules in the test directory. This commit
changes the indentation of files to comply with the stricter 4.x linting
and enable stricter linting in the test directory.

PR-URL: https://github.com/nodejs/node/pull/14431
Reviewed-By: Refael Ackermann <refack@gmail.com>
Reviewed-By: Vse Mozhet Byt <vsemozhetbyt@gmail.com>
Reviewed-By: Trevor Norris <trev.norris@gmail.com>
2017-07-27 09:24:20 -07:00

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8.3 KiB
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/* eslint-disable required-modules */
'use strict';
// Naïve DNS parser/serializer.
const assert = require('assert');
const os = require('os');
const types = {
A: 1,
AAAA: 28,
NS: 2,
CNAME: 5,
SOA: 6,
PTR: 12,
MX: 15,
TXT: 16,
ANY: 255
};
const classes = {
IN: 1
};
function readDomainFromPacket(buffer, offset) {
assert.ok(offset < buffer.length);
const length = buffer[offset];
if (length === 0) {
return { nread: 1, domain: '' };
} else if ((length & 0xC0) === 0) {
offset += 1;
const chunk = buffer.toString('ascii', offset, offset + length);
// Read the rest of the domain.
const { nread, domain } = readDomainFromPacket(buffer, offset + length);
return {
nread: 1 + length + nread,
domain: domain ? `${chunk}.${domain}` : chunk
};
} else {
// Pointer to another part of the packet.
assert.strictEqual(length & 0xC0, 0xC0);
// eslint-disable-next-line
const pointeeOffset = buffer.readUInt16BE(offset) &~ 0xC000;
return {
nread: 2,
domain: readDomainFromPacket(buffer, pointeeOffset)
};
}
}
function parseDNSPacket(buffer) {
assert.ok(buffer.length > 12);
const parsed = {
id: buffer.readUInt16BE(0),
flags: buffer.readUInt16BE(2),
};
const counts = [
['questions', buffer.readUInt16BE(4)],
['answers', buffer.readUInt16BE(6)],
['authorityAnswers', buffer.readUInt16BE(8)],
['additionalRecords', buffer.readUInt16BE(10)]
];
let offset = 12;
for (const [ sectionName, count ] of counts) {
parsed[sectionName] = [];
for (let i = 0; i < count; ++i) {
const { nread, domain } = readDomainFromPacket(buffer, offset);
offset += nread;
const type = buffer.readUInt16BE(offset);
const rr = {
domain,
cls: buffer.readUInt16BE(offset + 2),
};
offset += 4;
for (const name in types) {
if (types[name] === type)
rr.type = name;
}
if (sectionName !== 'questions') {
rr.ttl = buffer.readInt32BE(offset);
const dataLength = buffer.readUInt16BE(offset);
offset += 6;
switch (type) {
case types.A:
assert.strictEqual(dataLength, 4);
rr.address = `${buffer[offset + 0]}.${buffer[offset + 1]}.` +
`${buffer[offset + 2]}.${buffer[offset + 3]}`;
break;
case types.AAAA:
assert.strictEqual(dataLength, 16);
rr.address = buffer.toString('hex', offset, offset + 16)
.replace(/(.{4}(?!$))/g, '$1:');
break;
case types.TXT:
{
let position = offset;
rr.entries = [];
while (position < offset + dataLength) {
const txtLength = buffer[offset];
rr.entries.push(buffer.toString('utf8',
position + 1,
position + 1 + txtLength));
position += 1 + txtLength;
}
assert.strictEqual(position, offset + dataLength);
break;
}
case types.MX:
{
rr.priority = buffer.readInt16BE(buffer, offset);
offset += 2;
const { nread, domain } = readDomainFromPacket(buffer, offset);
rr.exchange = domain;
assert.strictEqual(nread, dataLength);
break;
}
case types.NS:
case types.CNAME:
case types.PTR:
{
const { nread, domain } = readDomainFromPacket(buffer, offset);
rr.value = domain;
assert.strictEqual(nread, dataLength);
break;
}
case types.SOA:
{
const mname = readDomainFromPacket(buffer, offset);
const rname = readDomainFromPacket(buffer, offset + mname.nread);
rr.nsname = mname.domain;
rr.hostmaster = rname.domain;
const trailerOffset = offset + mname.nread + rname.nread;
rr.serial = buffer.readUInt32BE(trailerOffset);
rr.refresh = buffer.readUInt32BE(trailerOffset + 4);
rr.retry = buffer.readUInt32BE(trailerOffset + 8);
rr.expire = buffer.readUInt32BE(trailerOffset + 12);
rr.minttl = buffer.readUInt32BE(trailerOffset + 16);
assert.strictEqual(trailerOffset + 20, dataLength);
break;
}
default:
throw new Error(`Unknown RR type ${rr.type}`);
}
offset += dataLength;
}
parsed[sectionName].push(rr);
assert.ok(offset <= buffer.length);
}
}
assert.strictEqual(offset, buffer.length);
return parsed;
}
function writeIPv6(ip) {
const parts = ip.replace(/^:|:$/g, '').split(':');
const buf = Buffer.alloc(16);
let offset = 0;
for (const part of parts) {
if (part === '') {
offset += 16 - 2 * (parts.length - 1);
} else {
buf.writeUInt16BE(parseInt(part, 16), offset);
offset += 2;
}
}
return buf;
}
function writeDomainName(domain) {
return Buffer.concat(domain.split('.').map((label) => {
assert(label.length < 64);
return Buffer.concat([
Buffer.from([label.length]),
Buffer.from(label, 'ascii')
]);
}).concat([Buffer.alloc(1)]));
}
function writeDNSPacket(parsed) {
const buffers = [];
const kStandardResponseFlags = 0x8180;
buffers.push(new Uint16Array([
parsed.id,
parsed.flags === undefined ? kStandardResponseFlags : parsed.flags,
parsed.questions && parsed.questions.length,
parsed.answers && parsed.answers.length,
parsed.authorityAnswers && parsed.authorityAnswers.length,
parsed.additionalRecords && parsed.additionalRecords.length,
]));
for (const q of parsed.questions) {
assert(types[q.type]);
buffers.push(writeDomainName(q.domain));
buffers.push(new Uint16Array([
types[q.type],
q.cls === undefined ? classes.IN : q.cls
]));
}
for (const rr of [].concat(parsed.answers,
parsed.authorityAnswers,
parsed.additionalRecords)) {
if (!rr) continue;
assert(types[rr.type]);
buffers.push(writeDomainName(rr.domain));
buffers.push(new Uint16Array([
types[rr.type],
rr.cls === undefined ? classes.IN : rr.cls
]));
buffers.push(new Int32Array([rr.ttl]));
const rdLengthBuf = new Uint16Array(1);
buffers.push(rdLengthBuf);
switch (rr.type) {
case 'A':
rdLengthBuf[0] = 4;
buffers.push(new Uint8Array(rr.address.split('.')));
break;
case 'AAAA':
rdLengthBuf[0] = 16;
buffers.push(writeIPv6(rr.address));
break;
case 'TXT':
const total = rr.entries.map((s) => s.length).reduce((a, b) => a + b);
// Total length of all strings + 1 byte each for their lengths.
rdLengthBuf[0] = rr.entries.length + total;
for (const txt of rr.entries) {
buffers.push(new Uint8Array([Buffer.byteLength(txt)]));
buffers.push(Buffer.from(txt));
}
break;
case 'MX':
rdLengthBuf[0] = 2;
buffers.push(new Uint16Array([rr.priority]));
// fall through
case 'NS':
case 'CNAME':
case 'PTR':
{
const domain = writeDomainName(rr.exchange || rr.value);
rdLengthBuf[0] += domain.length;
buffers.push(domain);
break;
}
case 'SOA':
{
const mname = writeDomainName(rr.nsname);
const rname = writeDomainName(rr.hostmaster);
rdLengthBuf[0] = mname.length + rname.length + 20;
buffers.push(mname, rname);
buffers.push(new Uint32Array([
rr.serial, rr.refresh, rr.retry, rr.expire, rr.minttl
]));
break;
}
default:
throw new Error(`Unknown RR type ${rr.type}`);
}
}
return Buffer.concat(buffers.map((typedArray) => {
const buf = Buffer.from(typedArray.buffer,
typedArray.byteOffset,
typedArray.byteLength);
if (os.endianness() === 'LE') {
if (typedArray.BYTES_PER_ELEMENT === 2) buf.swap16();
if (typedArray.BYTES_PER_ELEMENT === 4) buf.swap32();
}
return buf;
}));
}
module.exports = { types, classes, writeDNSPacket, parseDNSPacket };
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