prosody
495de404a8ae
tests/test_util_ip.lua
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tests/test_util_ip.lua @ 7567:495de404a8ae
ejabberdsql2prosody: rename variable 'host' to prevent shadowing upvalue [luacheck]
Functions roster(), roster_pending(), roster_group(), private_storage() and
offline_msg() have argument named "host", which used to shadow upvalue of this
variable before this change. Instead of renaming this argument, let's rename
the variable to match what the script says in usage:
Usage: ejabberdsql2prosody.lua filename.txt hostname
| author | Anton Shestakov <av6@dwimlabs.net> |
|---|---|
| date | Fri, 12 Aug 2016 13:44:47 +0800 |
| parent | 5776:bd0ff8ae98a8 |
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function match(match, _M) local _ = _M.new_ip; local ip = _"10.20.30.40"; assert_equal(match(ip, _"10.0.0.0", 8), true); assert_equal(match(ip, _"10.0.0.0", 16), false); assert_equal(match(ip, _"10.0.0.0", 24), false); assert_equal(match(ip, _"10.0.0.0", 32), false); assert_equal(match(ip, _"10.20.0.0", 8), true); assert_equal(match(ip, _"10.20.0.0", 16), true); assert_equal(match(ip, _"10.20.0.0", 24), false); assert_equal(match(ip, _"10.20.0.0", 32), false); assert_equal(match(ip, _"0.0.0.0", 32), false); assert_equal(match(ip, _"0.0.0.0", 0), true); assert_equal(match(ip, _"0.0.0.0"), false); assert_equal(match(ip, _"10.0.0.0", 255), false, "excessive number of bits"); assert_equal(match(ip, _"10.0.0.0", -8), true, "negative number of bits"); assert_equal(match(ip, _"10.0.0.0", -32), true, "negative number of bits"); assert_equal(match(ip, _"10.0.0.0", 0), true, "zero bits"); assert_equal(match(ip, _"10.0.0.0"), false, "no specified number of bits (differing ip)"); assert_equal(match(ip, _"10.20.30.40"), true, "no specified number of bits (same ip)"); assert_equal(match(_"127.0.0.1", _"127.0.0.1"), true, "simple ip"); assert_equal(match(_"8.8.8.8", _"8.8.0.0", 16), true); assert_equal(match(_"8.8.4.4", _"8.8.0.0", 16), true); end function parse_cidr(parse_cidr, _M) local new_ip = _M.new_ip; assert_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_equal(new_ip(ip), parsed_ip, cidr.." parsed ip is "..ip); assert_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 function new_ip(new_ip) local v4, v6 = "IPv4", "IPv6"; local function assert_proto(s, proto) local ip = new_ip(s); if proto then assert_equal(ip and ip.proto, proto, "protocol is correct for "..("%q"):format(s)); else assert_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 function commonPrefixLength(cpl, _M) local new_ip = _M.new_ip; 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_equal(cpl(ipa, ipb), len, "common prefix length of "..a.." and "..b.." is "..len); assert_equal(cpl(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); end
