prosody
69faf3552d52
spec/util_strbitop_spec.lua

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spec/util_strbitop_spec.lua @ 13452:69faf3552d52

mod_posix: Move POSIX signal handling into util.startup to avoid race When libunbound is initialized, it spawns a thread to work in. In case a module initializes libunbound, e.g. by triggering a s2s connection, Prosody would not handle signals, instead immediately quit on e.g. the reload (SIGHUP) signal. Likely because the libunbound thread would not have inherited the signal mask from the main Prosody thread. Thanks Menel, riau and franck-x for reporting and help narrowing down
author Kim Alvefur <zash@zash.se>
date Sat, 02 Mar 2024 13:23:24 +0100
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);