prosody
9970d333a63f
spec/util_ip_spec.lua

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spec/util_ip_spec.lua @ 13532:9970d333a63f

mod_pubsub: Use error registry This is what util.error was made for! This replaces the custom error stanza builder with common code in util.stanza that knows enough about util.error and namespaced errors. Some awkwardness remains in the way util.pubsub returns conflicting form fields.
author Kim Alvefur <zash@zash.se>
date Sun, 27 Oct 2024 15:18:24 +0100
parent 13428:dc1ad5f3f597
line wrap: on
line source


local ip = require "util.ip";

local new_ip = ip.new_ip;
local match = ip.match;
local parse_cidr = ip.parse_cidr;
local commonPrefixLength = ip.commonPrefixLength;

describe("util.ip", function()
	describe("#match()", function()
		it("should work", function()
			local _ = new_ip;
			local ip = _"10.20.30.40";
			assert.are.equal(match(ip, _"10.0.0.0", 8), true);
			assert.are.equal(match(ip, _"10.0.0.0", 16), false);
			assert.are.equal(match(ip, _"10.0.0.0", 24), false);
			assert.are.equal(match(ip, _"10.0.0.0", 32), false);

			assert.are.equal(match(ip, _"10.20.0.0", 8), true);
			assert.are.equal(match(ip, _"10.20.0.0", 16), true);
			assert.are.equal(match(ip, _"10.20.0.0", 24), false);
			assert.are.equal(match(ip, _"10.20.0.0", 32), false);

			assert.are.equal(match(ip, _"0.0.0.0", 32), false);
			assert.are.equal(match(ip, _"0.0.0.0", 0), true);
			assert.are.equal(match(ip, _"0.0.0.0"), false);

			assert.are.equal(match(ip, _"10.0.0.0", 255), false, "excessive number of bits");
			assert.are.equal(match(ip, _"10.0.0.0", -8), true, "negative number of bits");
			assert.are.equal(match(ip, _"10.0.0.0", -32), true, "negative number of bits");
			assert.are.equal(match(ip, _"10.0.0.0", 0), true, "zero bits");
			assert.are.equal(match(ip, _"10.0.0.0"), false, "no specified number of bits (differing ip)");
			assert.are.equal(match(ip, _"10.20.30.40"), true, "no specified number of bits (same ip)");

			assert.are.equal(match(_"127.0.0.1", _"127.0.0.1"), true, "simple ip");

			assert.are.equal(match(_"8.8.8.8", _"8.8.0.0", 16), true);
			assert.are.equal(match(_"8.8.4.4", _"8.8.0.0", 16), true);

			assert.are.equal(match(_"fe80::1", _"fec0::", 10), false);
		end);
	end);

	describe("#parse_cidr()", function()
		it("should work", function()
			assert.are.equal(new_ip"0.0.0.0", new_ip"0.0.0.0")

			local function assert_cidr(cidr, ip, bits)
				local parsed_ip, parsed_bits = parse_cidr(cidr);
				assert.are.equal(new_ip(ip), parsed_ip, cidr.." parsed ip is "..ip);
				assert.are.equal(bits, parsed_bits, cidr.." parsed bits is "..tostring(bits));
			end
			assert_cidr("0.0.0.0", "0.0.0.0", nil);
			assert_cidr("127.0.0.1", "127.0.0.1", nil);
			assert_cidr("127.0.0.1/0", "127.0.0.1", 0);
			assert_cidr("127.0.0.1/8", "127.0.0.1", 8);
			assert_cidr("127.0.0.1/32", "127.0.0.1", 32);
			assert_cidr("127.0.0.1/256", "127.0.0.1", 256);
			assert_cidr("::/48", "::", 48);
		end);
	end);

	describe("#new_ip()", function()
		it("should work", function()
			local v4, v6 = "IPv4", "IPv6";
			local function assert_proto(s, proto)
				local ip = new_ip(s);
				if proto then
					assert.are.equal(ip and ip.proto, proto, "protocol is correct for "..("%q"):format(s));
				else
					assert.are.equal(ip, nil, "address is invalid");
				end
			end
			assert_proto("127.0.0.1", v4);
			assert_proto("::1", v6);
			assert_proto("", nil);
			assert_proto("abc", nil);
			assert_proto("   ", nil);
		end);
	end);

	describe("#commonPrefixLength()", function()
		it("should work", function()
			local function assert_cpl6(a, b, len, v4)
				local ipa, ipb = new_ip(a), new_ip(b);
				if v4 then len = len+96; end
				assert.are.equal(commonPrefixLength(ipa, ipb), len, "common prefix length of "..a.." and "..b.." is "..len);
				assert.are.equal(commonPrefixLength(ipb, ipa), len, "common prefix length of "..b.." and "..a.." is "..len);
			end
			local function assert_cpl4(a, b, len)
				return assert_cpl6(a, b, len, "IPv4");
			end
			assert_cpl4("0.0.0.0", "0.0.0.0", 32);
			assert_cpl4("255.255.255.255", "0.0.0.0", 0);
			assert_cpl4("255.255.255.255", "255.255.0.0", 16);
			assert_cpl4("255.255.255.255", "255.255.255.255", 32);
			assert_cpl4("255.255.255.255", "255.255.255.255", 32);

			assert_cpl6("::1", "::1", 128);
			assert_cpl6("abcd::1", "abcd::1", 128);
			assert_cpl6("abcd::abcd", "abcd::", 112);
			assert_cpl6("abcd::abcd", "abcd::abcd:abcd", 96);

			assert_cpl6("fe80::1", "fec0::", 9);
		end);
	end);

	describe("#truncate()", function ()
		it("should work for IPv4", function ()
			local ip1 = ip.new_ip("192.168.0.1");
			local ip2 = ip.truncate(ip1, 16);
			assert.truthy(ip.is_ip(ip2));
			assert.equal("192.168.0.0", ip2.normal);
			assert.equal("192.168.0.1", ip1.normal); -- original unmodified
		end);

		it("should work for IPv6", function ()
			local ip1 = ip.new_ip("2001:db8::ff00:42:8329");
			local ip2 = ip.truncate(ip1, 24);
			assert.truthy(ip.is_ip(ip2));
			assert.equal("2001:d00::", ip2.normal);
			assert.equal("2001:db8::ff00:42:8329", ip1.normal); -- original unmodified
		end);

		it("accepts a string", function ()
			assert.equal("127.0.0.0", ip.truncate("127.0.0.1", 8).normal);
		end);
	end);
end);