proxy.pac.test/proxy.js
2024-10-09 11:06:34 +08:00

376 lines
10 KiB
JavaScript

// -*- mode: javascript; js-indent-level: 2 -*-
// vim: set filetype=javascript tabstop=2 shiftwidth=2 expandtab:
const direct = "direct";
const blocked = "blocked";
const proxy = "proxy";
const DIRECT = "DIRECT";
var proxyBehaviors = {
proxy: "SOCKS5 127.0.0.1:1080", // the default proxy
direct: DIRECT,
blocked: "PROXY 0.0.0.0:0",
"http_proxy": "PROXY 127.0.0.1:3128",
"companyProxy": "PROXY 192.168.1.1:8080", // domains list in `domain-rules-companyProxy.txt` will use this proxy setting
};
const default_behavior = DIRECT + "; " + proxyBehaviors[proxy];
const ipv4Pattern = /^\d{1,3}(\.\d{1,3}){3}$/;
const ipv6Pattern = /^[a-fA-F0-9:]+$/;
function isIpAddress(host) {
return ipv4Pattern.test(host) || ipv6Pattern.test(host);
}
function ipToNumber(ip) {
const parts = ip.split('.');
return parts.reduce((acc, part) => (acc << 8) + parseInt(part, 10), 0);
}
function numberToIp(number) {
return [
(number >>> 24) & 0xFF,
(number >>> 16) & 0xFF,
(number >>> 8) & 0xFF,
number & 0xFF
].join('.');
}
function ipv6ToTwoNumbers(ip) {
const parts = ip.split(':').map(part => part ? parseInt(part, 16) : 0);
let high = 0n, low = 0n;
for (let i = 0; i < 4; i++) {
high = (high << 16n) + BigInt(parts[i] || 0);
}
for (let i = 4; i < 8; i++) {
low = (low << 16n) + BigInt(parts[i] || 0);
}
return [high, low];
}
function twoNumbersToIpv6(high, low) {
const parts = [];
for (let i = 0; i < 4; i++) {
parts.push(((high >> BigInt(48 - 16 * i)) & 0xFFFFn).toString(16));
}
for (let i = 0; i < 4; i++) {
parts.push(((low >> BigInt(48 - 16 * i)) & 0xFFFFn).toString(16));
}
return parts.join(':').replace(/(:0{1,4}){2,}/, '::');
}
const ipv4NetworkRules = [
[0x7F000000, 8 , direct], // 127.0.0.0/8 (Loopback)
[0xA9FE0000, 16, direct], // 169.254.0.0/16 (Link Local)
[0x64400000, 10, direct], // 100.64.0.0/10 (Carrier-grade NAT)
// begin of ipv4 networks
// end of ipv4 networks
];
const ipv6NetworkRules = [
[0x0000000000000000n, 0x0000000000000000n, 128, direct], // ::/128 (Unspecified Address)
[0x0000000000000000n, 0x0000000000000001n, 128, direct], // ::1/128 (Loopback Address)
[0xfc00000000000000n, 0x0000000000000000n, 7 , direct], // fc00::/7 (Unique Local Address)
[0xff00000000000000n, 0x0000000000000000n, 8 , direct], // ff00::/8 (Multicast Address)
[0x2001000000000000n, 0x0000000000000000n, 16 , direct], // 2001::/16 (Teredo Address)
[0xfe80000000000000n, 0x0000000000000000n, 10 , direct], // fe80::/10 (Link-Local Address)
// begin of ipv6 networks
// end of ipv6 networks
];
const proxyRules = {
"local": direct,
"114.114.114.114": direct,
"whitehouse.com": blocked,
"google": proxy,
// begin of proxy rules
// end of proxy rules
};
const domainRegexpRules = [
[ /^adservice\.google\.([a-z]{2}|com?)(\.[a-z]{2})?$/, blocked], // adservice.google.com.xx
// begin of regexp rules
// end of regexp rules
]
class IPv4TrieNode {
constructor() {
this.children = [null, null]; // 0 and 1
this.isEnd = false;
this.network = null;
this.prefix = null;
this.action = direct;
}
}
class IPv4PrefixTrie {
constructor() {
this.root = new IPv4TrieNode();
}
static buildTrieFromData(data) {
const trie = new IPv4PrefixTrie();
for (const [network, prefix, action] of data) {
let node = trie.root;
node = IPv4PrefixTrie._insertBits(node, network, prefix);
node.isEnd = true;
node.network = network;
node.prefix = prefix;
node.action = action
}
return trie;
}
static _insertBits(node, value, bits) {
let mask = 0x80000000;
for (let i = 0; i < bits; i++) {
const bitIndex = ((value & mask) !== 0 ? 1 : 0);
mask = mask >>> 1;
if (!node.children[bitIndex]) {
node.children[bitIndex] = new IPv4TrieNode();
}
node = node.children[bitIndex];
}
return node;
}
search(ip) {
let node = this.root;
let lastMatch = null;
node = IPv4PrefixTrie._searchBits(node, ip, 32, (matchedNode) => {
if (matchedNode.isEnd) {
lastMatch = matchedNode;
}
});
return lastMatch;
}
static _searchBits(node, value, bits, callback) {
let mask = 0x80000000;
for (let i = 0; i < bits; i++) {
const bitIndex = ((value & mask) !== 0 ? 1 : 0);
mask = mask >>> 1;
if (!node.children[bitIndex]) {
return null;
}
node = node.children[bitIndex];
callback(node);
}
return node;
}
}
class IPv6TrieNode {
constructor() {
this.children = [null, null]; // 0 and 1
this.isEnd = false;
this.networkHigh = null;
this.networkLow = null;
this.prefix = null;
this.action = direct;
}
}
class IPv6PrefixTrie {
constructor() {
this.root = new IPv6TrieNode();
}
static buildTrieFromData(data) {
const trie = new IPv6PrefixTrie();
for (const [networkHigh, networkLow, prefix, action] of data) {
let node = trie.root;
node = IPv6PrefixTrie._insertBits(node, networkHigh, Math.min(prefix, 64));
if (prefix > 64) {
node = IPv6PrefixTrie._insertBits(node, networkLow, prefix - 64);
}
node.isEnd = true;
node.networkHigh = networkHigh;
node.networkLow = networkLow;
node.prefix = prefix;
node.action = action;
}
return trie;
}
static _insertBits(node, value, bits) {
let mask = 0x8000000000000000n;
for (let i = 0; i < bits; i++) {
const bitIndex = ((value & mask) !== 0n ? 1 : 0);
mask = mask >> 1n;
if (!node.children[bitIndex]) {
node.children[bitIndex] = new IPv6TrieNode();
}
node = node.children[bitIndex];
}
return node;
}
search(ipHigh, ipLow) {
let node = this.root;
let lastMatch = null;
node = IPv6PrefixTrie._searchBits(node, ipHigh, 64, (matchedNode) => {
if (matchedNode.isEnd) {
lastMatch = matchedNode;
}
});
if (node) {
node = IPv6PrefixTrie._searchBits(node, ipLow, 64, (matchedNode) => {
if (matchedNode.isEnd) {
lastMatch = matchedNode;
}
});
}
return lastMatch;
}
static _searchBits(node, value, bits, callback) {
let mask = 0x8000000000000000n;
for (let i = 0; i < bits; i++) {
const bitIndex = ((value & mask) !== 0n ? 1 : 0);
mask = mask >> 1n;
if (!node.children[bitIndex]) {
return null;
}
node = node.children[bitIndex];
callback(node);
}
return node;
}
}
const ipv4Trie = IPv4PrefixTrie.buildTrieFromData(ipv4NetworkRules);
const ipv6Trie = IPv6PrefixTrie.buildTrieFromData(ipv6NetworkRules);
function findMatchingNetwork(ip, networks4, networks6) {
if (ip.includes('.')) { // IPv4
const ipNumber = ipToNumber(ip);
return ipv4Trie.search(ipNumber);
} else { // IPv6
const [ipHigh, ipLow] = ipv6ToTwoNumbers(ip);
return ipv6Trie.search(ipHigh, ipLow);
}
return null;
}
function printMatchingNetwork(ip, networks4, networks6) {
const matchedNetwork = findMatchingNetwork(ip, networks4, networks6);
if (matchedNetwork) {
if (ip.includes('.')) { // IPv4
const trie = matchedNetwork;
return `${numberToIp(trie.network)}/${trie.prefix}`;
} else { // IPv6
const trie = matchedNetwork;
return `${twoNumbersToIpv6(trie.networkHigh, trie.networkLow)}/${trie.prefix}`;
}
} else {
return null;
}
}
function FindProxyForURL(_url, _host) {
const host = _host;
if (isIpAddress(host)) {
const match = findMatchingNetwork(host);
if(match) {
return proxyBehaviors[match.action] || default_behavior;
} else {
var action = proxyRules[host];
if (action !== undefined) {
return proxyBehaviors[action] || default_behavior;
}
return default_behavior;
}
}
const match = domainRegexpRules.find(([regexp, value]) => regexp.test(host) );
if(match)
return proxyBehaviors[match[1]] || default_behavior;
var host_segment = host;
while (true) {
var action = proxyRules[host_segment];
if (action !== undefined) {
return proxyBehaviors[action] || default_behavior;
}
var nextDot = host_segment.indexOf(".");
if (nextDot === -1) {
break;
}
host_segment = host_segment.substring(nextDot + 1);
}
var remote_ip = undefined;
if(typeof dnsResolveEx == 'function') {
remote_ip = dnsResolveEx(host);
} else if(typeof dnsResolve == 'function') {
remote_ip = dnsResolve(host);
}
if(remote_ip !== undefined) {
const match = findMatchingNetwork(remote_ip);
if (match) return proxyBehaviors[match.action] || default_behavior;
}
return default_behavior;
}
if (typeof process !== 'undefined' && process.argv.includes('test')) {
function assertNetwork(ip, expected) {
const result = printMatchingNetwork(ip, ipv4NetworkRules, ipv6NetworkRules);
if (result === expected) {
console.log(`OK: Test for ${ip} passed.`);
} else {
console.log(`Failed: Test for ${ip} failed. Expected: ${expected}, but got: ${result}`);
}
}
function assertProxyBehavior(host, expected) {
const result = FindProxyForURL('', host);
if (result === expected) {
console.log(`OK: Test for ${host} => ${expected} passed.`);
} else {
console.log(`Failed: Test for ${host} failed. Expected: ${expected}, but got: ${result}`);
}
}
function assertVisitHostWithProxy(host) {
assertProxyBehavior(host, proxyBehaviors[proxy]);
}
function assertHostWithDefaultAction(host) {
assertProxyBehavior(host, default_behavior);
}
function assertDirectHost(host) {
assertProxyBehavior(host, proxyBehaviors[direct]);
}
function assertBlockedHost(host) {
assertProxyBehavior(host, proxyBehaviors[blocked]);
}
function runTests() {
assertNetwork("127.234.168.10", "127.0.0.0/8");
assertNetwork("1.1.1.1", null);
assertNetwork("fe80::f0:c6b3:c766:9b1e", "fe80::/10");
assertVisitHostWithProxy("com.google");
assertVisitHostWithProxy("domains.google");
assertHostWithDefaultAction("www.not-google");
assertDirectHost("127.3.4.5");
assertDirectHost("114.114.114.114");
assertBlockedHost("www.whitehouse.com");
assertBlockedHost("adservice.google.com.xx")
}
runTests();
}