prosody
61df1404dd7a
spec/util_strbitop_spec.lua

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spec/util_strbitop_spec.lua @ 13834:61df1404dd7a 13.0

mod_http: Fix IP address normalization (Thanks Boris) This fixes the problem that an un-bracketed IPv6 address will not match the first pattern (since it matches brackets) and instead the first decimal digits will match the pattern meant to strip port numbers from IPv4 addresses, e.g. 2001:db8::1 --> 2000 This pattern instead matches enough of a regular IPv4 address to make an IPv6 address fall back to the last case.
author Kim Alvefur <zash@zash.se>
date Wed, 09 Apr 2025 15:54:54 +0200
parent 13430:1a5e3cf037f6
line wrap: on
line source

local strbitop = require "util.strbitop";
describe("util.strbitop", function ()
	describe("sand()", function ()
		it("works", function ()
			assert.equal(string.rep("Aa", 100), strbitop.sand(string.rep("a", 200), "Aa"));
		end);
		it("returns empty string if first argument is empty", function ()
			assert.equal("", strbitop.sand("", ""));
			assert.equal("", strbitop.sand("", "key"));
		end);
		it("returns initial string if key is empty", function ()
			assert.equal("hello", strbitop.sand("hello", ""));
		end);
	end);

	describe("sor()", function ()
		it("works", function ()
			assert.equal(string.rep("a", 200), strbitop.sor(string.rep("Aa", 100), "a"));
		end);
		it("returns empty string if first argument is empty", function ()
			assert.equal("", strbitop.sor("", ""));
			assert.equal("", strbitop.sor("", "key"));
		end);
		it("returns initial string if key is empty", function ()
			assert.equal("hello", strbitop.sor("hello", ""));
		end);
	end);

	describe("sxor()", function ()
		it("works", function ()
			assert.equal(string.rep("Aa", 100), strbitop.sxor(string.rep("a", 200), " \0"));
		end);
		it("returns empty string if first argument is empty", function ()
			assert.equal("", strbitop.sxor("", ""));
			assert.equal("", strbitop.sxor("", "key"));
		end);
		it("returns initial string if key is empty", function ()
			assert.equal("hello", strbitop.sxor("hello", ""));
		end);
	end);

	describe("common_prefix_bits()", function ()
		local function B(s)
			assert(#s%8==0, "Invalid test input: B(s): s should be a multiple of 8 bits in length");
			local byte = 0;
			local out_str = {};
			for i = 1, #s do
				local bit_ascii = s:byte(i);
				if bit_ascii == 49 then -- '1'
					byte = byte + 2^((7-(i-1))%8);
				elseif bit_ascii ~= 48 then
					error("Invalid test input: B(s): s should contain only '0' or '1' characters");
				end
				if (i-1)%8 == 7 then
					table.insert(out_str, string.char(byte));
					byte = 0;
				end
			end
			return table.concat(out_str);
		end

		local _cpb = strbitop.common_prefix_bits;
		local function test(a, b)
			local Ba, Bb = B(a), B(b);
			local ret1 = _cpb(Ba, Bb);
			local ret2 = _cpb(Bb, Ba);
			assert(ret1 == ret2, ("parameter order should not make a difference to the result (%s, %s) = %d, reversed = %d"):format(a, b, ret1, ret2));
			return ret1;
		end

		it("works on single bytes", function ()
			assert.equal(0, test("00000000", "11111111"));
			assert.equal(1, test("10000000", "11111111"));
			assert.equal(0, test("01000000", "11111111"));
			assert.equal(0, test("01000000", "11111111"));
			assert.equal(8, test("11111111", "11111111"));
		end);

		it("works on multiple bytes", function ()
			for i = 0, 16 do
				assert.equal(i, test(string.rep("1", i)..string.rep("0", 16-i), "1111111111111111"));
			end
		end);
	end);
end);