prosody
fe0f5c47fda3
util/dns.lua

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util/dns.lua @ 12272:fe0f5c47fda3

mod_smacks: Tweak resumption age buckets towards multiples of 60 This seems like the thing to do for time, which is usually divided into divisors divisible by 60, or multiplied by multiples of 60
author Kim Alvefur <zash@zash.se>
date Fri, 04 Feb 2022 22:11:14 +0100
parent 12241:dd15f42f6312
child 12288:08a933450922
line wrap: on
line source

-- libunbound based net.adns replacement for Prosody IM
-- Copyright (C) 2012-2015 Kim Alvefur
-- Copyright (C) 2012 Waqas Hussain
--
-- This file is MIT licensed.

local setmetatable = setmetatable;
local table = table;
local t_concat = table.concat;
local t_insert = table.insert;
local s_byte = string.byte;
local s_char = string.char;
local s_format = string.format;
local s_gsub = string.gsub;
local s_sub = string.sub;
local s_match = string.match;
local s_gmatch = string.gmatch;

local have_net, net_util = pcall(require, "util.net");

local iana_data = require "util.dnsregistry";
if have_net and not net_util.ntop then -- Added in Prosody 0.11
	have_net = false;
end

local chartohex = {};

for c = 0, 255 do
	chartohex[s_char(c)] = s_format("%02X", c);
end

local function tohex(s)
	return (s_gsub(s, ".", chartohex));
end

-- Simplified versions of Waqas DNS parsers
-- Only the per RR parsers are needed and only feed a single RR

local parsers = {};

-- No support for pointers, but libunbound appears to take care of that.
local function readDnsName(packet, pos)
	if s_byte(packet, pos) == 0 then return ".", pos+1; end
	local pack_len, r, len = #packet, {};
	pos = pos or 1;
	repeat
		len = s_byte(packet, pos) or 0;
		t_insert(r, s_sub(packet, pos + 1, pos + len));
		pos = pos + len + 1;
	until len == 0 or pos >= pack_len;
	return t_concat(r, "."), pos;
end

-- These are just simple names.
parsers.CNAME = readDnsName;
parsers.NS = readDnsName
parsers.PTR = readDnsName;

local soa_mt = {
	__tostring = function(rr)
		return s_format("%s %s %d %d %d %d %d", rr.mname, rr.rname, rr.serial, rr.refresh, rr.retry, rr.expire, rr.minimum);
	end;
};
function parsers.SOA(packet)
	local mname, rname, offset;

	mname, offset = readDnsName(packet, 1);
	rname, offset = readDnsName(packet, offset);

	-- Extract all the bytes of these fields in one call
	local
		s1, s2, s3, s4, -- serial
		r1, r2, r3, r4, -- refresh
		t1, t2, t3, t4, -- retry
		e1, e2, e3, e4, -- expire
		m1, m2, m3, m4  -- minimum
			= s_byte(packet, offset, offset + 19);

	return setmetatable({
		mname = mname;
		rname = rname;
		serial  = s1*0x1000000 + s2*0x10000 + s3*0x100 + s4;
		refresh = r1*0x1000000 + r2*0x10000 + r3*0x100 + r4;
		retry   = t1*0x1000000 + t2*0x10000 + t3*0x100 + t4;
		expire  = e1*0x1000000 + e2*0x10000 + e3*0x100 + e4;
		minimum = m1*0x1000000 + m2*0x10000 + m3*0x100 + m4;
	}, soa_mt);
end

function parsers.A(packet)
	return s_format("%d.%d.%d.%d", s_byte(packet, 1, 4));
end

local aaaa = { nil, nil, nil, nil, nil, nil, nil, nil, };
function parsers.AAAA(packet)
	local hi, lo, ip, len, token;
	for i = 1, 8 do
		hi, lo = s_byte(packet, i * 2 - 1, i * 2);
		aaaa[i] = s_format("%x", hi * 256 + lo); -- skips leading zeros
	end
	ip = t_concat(aaaa, ":", 1, 8);
	len = (s_match(ip, "^0:[0:]+()") or 1) - 1;
	for s in s_gmatch(ip, ":0:[0:]+") do
		if len < #s then len, token = #s, s; end -- find longest sequence of zeros
	end
	return (s_gsub(ip, token or "^0:[0:]+", "::", 1));
end

if have_net then
	parsers.A = net_util.ntop;
	parsers.AAAA = net_util.ntop;
end

local mx_mt = {
	__tostring = function(rr)
		return s_format("%d %s", rr.pref, rr.mx)
	end
};
function parsers.MX(packet)
	local name = readDnsName(packet, 3);
	local b1,b2 = s_byte(packet, 1, 2);
	return setmetatable({
		pref = b1*256+b2;
		mx = name;
	}, mx_mt);
end

local srv_mt = {
	__tostring = function(rr)
		return s_format("%d %d %d %s", rr.priority, rr.weight, rr.port, rr.target);
	end
};
function parsers.SRV(packet)
	local name = readDnsName(packet, 7);
	local b1, b2, b3, b4, b5, b6 = s_byte(packet, 1, 6);
	return setmetatable({
		priority = b1*256+b2;
		weight   = b3*256+b4;
		port     = b5*256+b6;
		target   = name;
	}, srv_mt);
end

local txt_mt = { __tostring = t_concat };
function parsers.TXT(packet)
	local pack_len = #packet;
	local r, pos, len = {}, 1;
	repeat
		len = s_byte(packet, pos) or 0;
		t_insert(r, s_sub(packet, pos + 1, pos + len));
		pos = pos + len + 1;
	until pos >= pack_len;
	return setmetatable(r, txt_mt);
end

parsers.SPF = parsers.TXT;

-- Acronyms from RFC 7218
local tlsa_usages = {
	[0] = "PKIX-CA";
	[1] = "PKIX-EE";
	[2] = "DANE-TA";
	[3] = "DANE-EE";
	[255] = "PrivCert";
};
local tlsa_selectors = {
	[0] = "Cert",
	[1] = "SPKI",
	[255] = "PrivSel",
};
local tlsa_match_types = {
	[0] = "Full",
	[1] = "SHA2-256",
	[2] = "SHA2-512",
	[255] = "PrivMatch",
};
local tlsa_mt = {
	__tostring = function(rr)
		return s_format("%s %s %s %s",
			tlsa_usages[rr.use] or rr.use,
			tlsa_selectors[rr.select] or rr.select,
			tlsa_match_types[rr.match] or rr.match,
			tohex(rr.data));
	end;
	__index = {
		getUsage = function(rr) return tlsa_usages[rr.use] end;
		getSelector = function(rr) return tlsa_selectors[rr.select] end;
		getMatchType = function(rr) return tlsa_match_types[rr.match] end;
	}
};
function parsers.TLSA(packet)
	local use, select, match = s_byte(packet, 1,3);
	return setmetatable({
		use = use;
		select = select;
		match = match;
		data = s_sub(packet, 4);
	}, tlsa_mt);
end

local svcb_params = {"alpn"; "no-default-alpn"; "port"; "ipv4hint"; "ech"; "ipv6hint"};
setmetatable(svcb_params, {__index = function(_, n) return "key" .. tostring(n); end});

local svcb_mt = {
	__tostring = function (rr)
		local kv = {};
		for i = 1, #rr.fields do
			t_insert(kv, s_format("%s=%q", svcb_params[rr.fields[i].key], tostring(rr.fields[i].value)));
			-- FIXME the =value part may be omitted when the value is "empty"
		end
		return s_format("%d %s %s", rr.prio, rr.name, t_concat(kv, " "));
	end;
};
local svbc_ip_mt = {__tostring = function(ip) return t_concat(ip, ", "); end}

function parsers.SVCB(packet)
	local prio_h, prio_l = packet:byte(1,2);
	local prio = prio_h*256+prio_l;
	local name, pos = readDnsName(packet, 3);
	local fields = {};
	while #packet > pos do
		local key_h, key_l = packet:byte(pos+0,pos+1);
		local len_h, len_l = packet:byte(pos+2,pos+3);
		local key = key_h*256+key_l;
		local len = len_h*256+len_l;
		local value = packet:sub(pos+4,pos+4-1+len)
		if key == 1 then
			value = setmetatable(parsers.TXT(value), svbc_ip_mt);
		elseif key == 3 then
			local port_h, port_l = value:byte(1,2);
			local port = port_h*256+port_l;
			value = port;
		elseif key == 4 then
			local ip = {};
			for i = 1, #value, 4 do
				t_insert(ip, parsers.A(value:sub(i, i+3)));
			end
			value = setmetatable(ip, svbc_ip_mt);
		elseif key == 6 then
			local ip = {};
			for i = 1, #value, 16 do
				t_insert(ip, parsers.AAAA(value:sub(i, i+15)));
			end
			value = setmetatable(ip, svbc_ip_mt);
		end
		t_insert(fields, { key = key, value = value, len = len });
		pos = pos+len+4;
	end
	return setmetatable({
			prio = prio, name = name, fields = fields,
		}, svcb_mt);
end

parsers.HTTPS = parsers.SVCB;

local params = {
	TLSA = {
		use = tlsa_usages;
		select = tlsa_selectors;
		match = tlsa_match_types;
	};
};

local fallback_mt = {
	__tostring = function(rr)
		return s_format([[\# %d %s]], #rr.raw, tohex(rr.raw));
	end;
};
local function fallback_parser(packet)
	return setmetatable({ raw = packet },fallback_mt);
end
setmetatable(parsers, { __index = function() return fallback_parser end });

return {
	parsers = parsers;
	classes = iana_data.classes;
	types = iana_data.types;
	errors = iana_data.errors;
	params = params;
};