prosody
83822be7704d
net/resolvers/basic.lua
Software / code / prosody
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net/resolvers/basic.lua @ 11516:83822be7704d
util.xmppstream: Send <?xml?> declaration in same call as stream open
If network_settings.opportunistic_writes is enabled then this would
previously have resulted in two socket writes, and possibly two packets
being sent. This caused some issues in older versions of Gajim, which
apparently expected the stream opening in the first packet, and thus it
could not connect.
With this change and opportunistic_writes enabled, the first packet
should contain both the xml declaration and the stream open tag.
Without opportunistic_writes, there should be no observable change.
Tested with Gajim 1.1.2 (on same machine). Unsure if loopback behaves
differently than the network here.
| author | Kim Alvefur <zash@zash.se> |
|---|---|
| date | Wed, 14 Apr 2021 15:21:13 +0200 |
| parent | 11430:56a282ecdcf1 |
| child | 11708:5ef729c355f3 |
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local adns = require "net.adns"; local inet_pton = require "util.net".pton; local inet_ntop = require "util.net".ntop; local idna_to_ascii = require "util.encodings".idna.to_ascii; local unpack = table.unpack or unpack; -- luacheck: ignore 113 local methods = {}; local resolver_mt = { __index = methods }; -- FIXME RFC 6724 -- Find the next target to connect to, and -- pass it to cb() function methods:next(cb) if self.targets then if #self.targets == 0 then cb(nil); return; end local next_target = table.remove(self.targets, 1); cb(unpack(next_target, 1, 4)); return; end if not self.hostname then -- FIXME report IDNA error cb(nil); return; end local secure = true; local tlsa = {}; local targets = {}; local n = 3; local function ready() n = n - 1; if n > 0 then return; end self.targets = targets; --[[ -- TODO stash tlsa somewhere per connection -- FIXME 'extra' here is not per connection if self.extra and self.extra.use_dane then if secure and tlsa[1] then end end --]] self:next(cb); end -- Resolve DNS to target list local dns_resolver = adns.resolver(); if not self.extra or self.extra.use_ipv4 ~= false then dns_resolver:lookup(function (answer) if answer then secure = secure and answer.secure; for _, record in ipairs(answer) do table.insert(targets, { self.conn_type.."4", record.a, self.port, self.extra }); end end ready(); end, self.hostname, "A", "IN"); else ready(); end if not self.extra or self.extra.use_ipv6 ~= false then dns_resolver:lookup(function (answer) if answer then secure = secure and answer.secure; for _, record in ipairs(answer) do table.insert(targets, { self.conn_type.."6", record.aaaa, self.port, self.extra }); end end ready(); end, self.hostname, "AAAA", "IN"); else ready(); end if self.extra and self.extra.use_dane == true then dns_resolver:lookup(function (answer) if answer then secure = secure and answer.secure; for _, record in ipairs(answer) do table.insert(tlsa, record.tlsa); end end ready(); end, ("_%d._tcp.%s"):format(self.port, self.hostname), "TLSA", "IN"); else ready(); end end local function new(hostname, port, conn_type, extra) local ascii_host = idna_to_ascii(hostname); local targets = nil; conn_type = conn_type or "tcp"; local is_ip = inet_pton(hostname); if not is_ip and hostname:sub(1,1) == '[' then is_ip = inet_pton(hostname:sub(2,-2)); end if is_ip then hostname = inet_ntop(is_ip); if #is_ip == 16 then targets = { { conn_type.."6", hostname, port, extra } }; elseif #is_ip == 4 then targets = { { conn_type.."4", hostname, port, extra } }; end end return setmetatable({ hostname = ascii_host; port = port; conn_type = conn_type; extra = extra; targets = targets; }, resolver_mt); end return { new = new; };
