File

net/stun.lua @ 12696:27a72982e331

util.jwt: Add support/tests for ES256 via improved API and using util.crypto In many cases code will be either signing or verifying. With asymmetric algorithms it's clearer and more efficient to just state that once, instead of passing keys (and possibly other parameters) with every sign/verify call. This also allows earlier validation of the key used. The previous (HS256-only) sign/verify methods continue to be exposed for backwards-compatibility.
author Matthew Wild <mwild1@gmail.com>
date Fri, 01 Jul 2022 18:51:15 +0100
parent 12374:0602245fc84e
child 12974:ba409c67353b
line wrap: on
line source

local base64 = require "util.encodings".base64;
local hashes = require "util.hashes";
local net = require "util.net";
local random = require "util.random";
local struct = require "util.struct";
local bit32 = require"util.bitcompat";
local sxor = require"util.strbitop".sxor;
local new_ip = require "util.ip".new_ip;

--- Public helpers

-- Following draft-uberti-behave-turn-rest-00, convert a 'secret' string
-- into a username/password pair that can be used to auth to a TURN server
local function get_user_pass_from_secret(secret, ttl, opt_username)
	ttl = ttl or 86400;
	local username;
	if opt_username then
		username = ("%d:%s"):format(os.time() + ttl, opt_username);
	else
		username = ("%d"):format(os.time() + ttl);
	end
	local password = base64.encode(hashes.hmac_sha1(secret, username));
	return username, password, ttl;
end

-- Following RFC 8489 9.2, convert credentials to a HMAC key for signing
local function get_long_term_auth_key(realm, username, password)
	return hashes.md5(username..":"..realm..":"..password);
end

--- Packet building/parsing

local packet_methods = {};
local packet_mt = { __index = packet_methods };

local magic_cookie = string.char(0x21, 0x12, 0xA4, 0x42);

local function lookup_table(t)
	local lookup = {};
	for k, v in pairs(t) do
		lookup[k] = v;
		lookup[v] = k;
	end
	return lookup;
end

local methods = {
	binding = 0x001;
	-- TURN
	allocate = 0x003;
	refresh = 0x004;
	send = 0x006;
	data = 0x007;
	["create-permission"] = 0x008;
	["channel-bind"] = 0x009;
};
local method_lookup = lookup_table(methods);

local classes = {
	request = 0;
	indication = 1;
	success = 2;
	error = 3;
};
local class_lookup = lookup_table(classes);

local addr_families = { "IPv4", "IPv6" };
local addr_family_lookup = lookup_table(addr_families);

local attributes = {
	["mapped-address"] = 0x0001;
	["username"] = 0x0006;
	["message-integrity"] = 0x0008;
	["error-code"] = 0x0009;
	["unknown-attributes"] = 0x000A;
	["realm"] = 0x0014;
	["nonce"] = 0x0015;
	["xor-mapped-address"] = 0x0020;
	["software"] = 0x8022;
	["alternate-server"] = 0x8023;
	["fingerprint"] = 0x8028;
	["message-integrity-sha256"] = 0x001C;
	["password-algorithm"] = 0x001D;
	["userhash"] = 0x001E;
	["password-algorithms"] = 0x8002;
	["alternate-domains"] = 0x8003;

	-- TURN
	["requested-transport"] = 0x0019;
	["xor-peer-address"] = 0x0012;
	["data"] = 0x0013;
	["xor-relayed-address"] = 0x0016;
};
local attribute_lookup = lookup_table(attributes);

function packet_methods:serialize_header(length)
	assert(#self.transaction_id == 12, "invalid transaction id length");
	local header = struct.pack(">I2I2",
		self.type,
		length
	)..magic_cookie..self.transaction_id;
	return header;
end

function packet_methods:serialize()
	local payload = table.concat(self.attributes);
	return self:serialize_header(#payload)..payload;
end

function packet_methods:is_request()
	return bit32.band(self.type, 0x0110) == 0x0000;
end

function packet_methods:is_indication()
	return bit32.band(self.type, 0x0110) == 0x0010;
end

function packet_methods:is_success_resp()
	return bit32.band(self.type, 0x0110) == 0x0100;
end

function packet_methods:is_err_resp()
	return bit32.band(self.type, 0x0110) == 0x0110;
end

function packet_methods:get_method()
	local method = bit32.bor(
		bit32.rshift(bit32.band(self.type, 0x3E00), 2),
		bit32.rshift(bit32.band(self.type, 0x00E0), 1),
		bit32.band(self.type, 0x000F)
	);
	return method, method_lookup[method];
end

function packet_methods:get_class()
	local class = bit32.bor(
		bit32.rshift(bit32.band(self.type, 0x0100), 7),
		bit32.rshift(bit32.band(self.type, 0x0010), 4)
	);
	return class, class_lookup[class];
end

function packet_methods:set_type(method, class)
	if type(method) == "string" then
		method = assert(method_lookup[method:lower()], "unknown method: "..method);
	end
	if type(class) == "string" then
		class = assert(classes[class], "unknown class: "..class);
	end
	self.type = bit32.bor(
		bit32.lshift(bit32.band(method, 0x1F80), 2),
		bit32.lshift(bit32.band(method, 0x0070), 1),
		bit32.band(method, 0x000F),
		bit32.lshift(bit32.band(class, 0x0002), 7),
		bit32.lshift(bit32.band(class, 0x0001), 4)
	);
end

local function _serialize_attribute(attr_type, value)
	local len = #value;
	local padding = string.rep("\0", (4 - len)%4);
	return struct.pack(">I2I2",
		attr_type, len
	)..value..padding;
end

function packet_methods:add_attribute(attr_type, value)
	if type(attr_type) == "string" then
		attr_type = assert(attributes[attr_type], "unknown attribute: "..attr_type);
	end
	table.insert(self.attributes, _serialize_attribute(attr_type, value));
end

function packet_methods:deserialize(bytes)
	local type, len, cookie = struct.unpack(">I2I2I4", bytes);
	assert(#bytes == (len + 20), "incorrect packet length");
	assert(cookie == 0x2112A442, "invalid magic cookie");
	self.type = type;
	self.transaction_id = bytes:sub(9, 20);
	self.attributes = {};
	local pos = 21;
	while pos < #bytes do
		local attr_hdr = bytes:sub(pos, pos+3);
		assert(#attr_hdr == 4, "packet truncated in attribute header");
		local attr_type, attr_len = struct.unpack(">I2I2", attr_hdr); --luacheck: ignore 211/attr_type
		if attr_len == 0 then
			table.insert(self.attributes, attr_hdr);
			pos = pos + 20;
		else
			local data = bytes:sub(pos + 4, pos + 3 + attr_len);
			assert(#data == attr_len, "packet truncated in attribute value");
			table.insert(self.attributes, attr_hdr..data);
			local n_padding = (4 - attr_len)%4;
			pos = pos + 4 + attr_len + n_padding;
		end
	end
	return self;
end

function packet_methods:get_attribute(attr_type, idx)
	idx = math.max(idx or 1, 1);
	if type(attr_type) == "string" then
		attr_type = assert(attribute_lookup[attr_type:lower()], "unknown attribute: "..attr_type);
	end
	for _, attribute in ipairs(self.attributes) do
		if struct.unpack(">I2", attribute) == attr_type then
			if idx == 1 then
				return attribute:sub(5);
			else
				idx = idx - 1;
			end
		end
	end
end

function packet_methods:_unpack_address(data, xor)
	local family, port = struct.unpack("x>BI2", data);
	local addr = data:sub(5);
	if xor then
		port = bit32.bxor(port, 0x2112);
		addr = sxor(addr, magic_cookie..self.transaction_id);
	end
	return {
		family = addr_families[family] or "unknown";
		port = port;
		address = net.ntop(addr);
	};
end

function packet_methods:_pack_address(family, addr, port, xor)
	if xor then
		port = bit32.bxor(port, 0x2112);
		addr = sxor(addr, magic_cookie..self.transaction_id);
	end
	local family_port = struct.pack("x>BI2", family, port);
	return family_port..addr
end

function packet_methods:get_mapped_address()
	local data = self:get_attribute("mapped-address");
	if not data then return; end
	return self:_unpack_address(data, false);
end

function packet_methods:get_xor_mapped_address()
	local data = self:get_attribute("xor-mapped-address");
	if not data then return; end
	return self:_unpack_address(data, true);
end

function packet_methods:add_xor_peer_address(address, port)
	local parsed_ip = assert(new_ip(address));
	local family = assert(addr_family_lookup[parsed_ip.proto], "Unknown IP address family: "..parsed_ip.proto);
	self:add_attribute("xor-peer-address", self:_pack_address(family, parsed_ip.packed, port or 0, true));
end

function packet_methods:get_xor_relayed_address(idx)
	local data = self:get_attribute("xor-relayed-address", idx);
	if not data then return; end
	return self:_unpack_address(data, true);
end

function packet_methods:get_xor_relayed_addresses()
	return {
		self:get_xor_relayed_address(1);
		self:get_xor_relayed_address(2);
	};
end

function packet_methods:add_message_integrity(key)
	-- Add attribute with a dummy value so we can artificially increase
	-- the packet 'length'
	self:add_attribute("message-integrity", string.rep("\0", 20));
	-- Get the packet data, minus the message-integrity attribute itself
	local pkt = self:serialize():sub(1, -25);
	local hash = hashes.hmac_sha1(key, pkt, false);
	self.attributes[#self.attributes] = nil;
	assert(#hash == 20, "invalid hash length");
	self:add_attribute("message-integrity", hash);
end

do
	local transports = {
		udp = 0x11;
	};
	function packet_methods:add_requested_transport(transport)
		local transport_code = transports[transport];
		assert(transport_code, "unsupported transport: "..tostring(transport));
		self:add_attribute("requested-transport", string.char(
			transport_code, 0x00, 0x00, 0x00
		));
	end
end

function packet_methods:get_error()
	local err_attr = self:get_attribute("error-code");
	if not err_attr then
		return nil;
	end
	local number = err_attr:byte(4);
	local class = bit32.band(0x07, err_attr:byte(3));
	local msg = err_attr:sub(5);
	return (class*100)+number, msg;
end

local function new_packet(method, class)
	local p = setmetatable({
		transaction_id = random.bytes(12);
		length = 0;
		attributes = {};
	}, packet_mt);
	p:set_type(method or "binding", class or "request");
	return p;
end

return {
	new_packet = new_packet;
	get_user_pass_from_secret = get_user_pass_from_secret;
	get_long_term_auth_key = get_long_term_auth_key;
};