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construct/matrix/fed_well_known.cc

613 lines
12 KiB
C++

// The Construct
//
// Copyright (C) The Construct Developers, Authors & Contributors
// Copyright (C) 2016-2020 Jason Volk <jason@zemos.net>
//
// Permission to use, copy, modify, and/or distribute this software for any
// purpose with or without fee is hereby granted, provided that the above
// copyright notice and this permission notice is present in all copies. The
// full license for this software is available in the LICENSE file.
namespace ircd::m::fed::well_known
{
static net::hostport make_remote(const string_view &);
static void submit(request &);
static void receive(request &);
static void finish(request &);
static bool redirect(request &);
static bool handle(request &);
static void worker();
static server::request request_skip;
extern ctx::dock worker_dock;
extern ctx::context worker_context;
extern run::changed handle_quit;
extern log::log log;
}
template<>
decltype(ircd::util::instance_list<ircd::m::fed::well_known::request>::allocator)
ircd::util::instance_list<ircd::m::fed::well_known::request>::allocator
{};
template<>
decltype(ircd::util::instance_list<ircd::m::fed::well_known::request>::list)
ircd::util::instance_list<ircd::m::fed::well_known::request>::list
{
allocator
};
decltype(ircd::m::fed::well_known::log)
ircd::m::fed::well_known::log
{
"m.well-known"
};
decltype(ircd::m::fed::well_known::cache_default)
ircd::m::fed::well_known::cache_default
{
{ "name", "ircd.m.fed.well-known.cache.default" },
{ "default", 24 * 60 * 60L },
};
decltype(ircd::m::fed::well_known::cache_error)
ircd::m::fed::well_known::cache_error
{
{ "name", "ircd.m.fed.well-known.cache.error" },
{ "default", 36 * 60 * 60L },
};
///NOTE: not yet used until HTTP cache headers in response are respected.
decltype(ircd::m::fed::well_known::cache_max)
ircd::m::fed::well_known::cache_max
{
{ "name", "ircd.m.fed.well-known.cache.max" },
{ "default", 48 * 60 * 60L },
};
decltype(ircd::m::fed::well_known::request::path)
ircd::m::fed::well_known::request::path
{
"/.well-known/matrix/server"
};
decltype(ircd::m::fed::well_known::request::type)
ircd::m::fed::well_known::request::type
{
"well-known.matrix.server"
};
decltype(ircd::m::fed::well_known::request::sopts)
ircd::m::fed::well_known::request::sopts
{
false // http_exceptions
};
decltype(ircd::m::fed::well_known::request::timeout)
ircd::m::fed::well_known::request::timeout
{
{ "name", "ircd.m.fed.well-known.request.timeout" },
{ "default", 15L },
};
decltype(ircd::m::fed::well_known::request::redirects_max)
ircd::m::fed::well_known::request::redirects_max
{
{ "name", "ircd.m.fed.well-known.request.redirects.max" },
{ "default", 2L },
};
decltype(ircd::m::fed::well_known::request::id_ctr)
ircd::m::fed::well_known::request::id_ctr;
decltype(ircd::m::fed::well_known::request::mutex)
ircd::m::fed::well_known::request::mutex;
decltype(ircd::m::fed::well_known::worker_dock)
ircd::m::fed::well_known::worker_dock;
decltype(ircd::m::fed::well_known::worker_context)
ircd::m::fed::well_known::worker_context
{
"m.fed.well_known",
512_KiB,
&worker,
context::POST
};
decltype(ircd::m::fed::well_known::handle_quit)
ircd::m::fed::well_known::handle_quit
{
run::level::QUIT, []() noexcept
{
worker_dock.notify_all();
}
};
ircd::ctx::future<ircd::string_view>
ircd::m::fed::well_known::get(const mutable_buffer &buf,
const string_view &target,
const opts &opts)
try
{
const m::room::id::buf cache_room_id
{
"dns", m::my_host()
};
const m::room cache_room
{
cache_room_id
};
const m::event::idx event_idx
{
likely(opts.cache_check)?
cache_room.get(std::nothrow, request::type, target):
0UL
};
const milliseconds origin_server_ts
{
m::get<time_t>(std::nothrow, event_idx, "origin_server_ts", time_t(0))
};
const json::object content
{
m::get(std::nothrow, event_idx, "content", buf)
};
const seconds ttl
{
content.get<time_t>("ttl", time_t(86400))
};
const system_point expires
{
origin_server_ts + ttl
};
const bool expired
{
ircd::now<system_point>() > expires
};
const json::string cached
{
content["m.server"]
};
const bool valid
{
// entry must not be blank
!empty(cached)
// entry must not be expired unless options allow expired hits
&& (!expired || opts.expired)
};
// Branch to return cache hit
if(likely(valid))
return ctx::future<string_view>
{
ctx::already, string_view
{
data(buf), move(buf, cached)
}
};
const net::hostport remote
{
make_remote(target)
};
const bool fetch
{
// options must allow network request
opts.request
// check if the peer already has a cached error in server::
&& !server::errant(remote)
};
// Branch if won't fetch; return target itself as result
if(!fetch)
return ctx::future<string_view>
{
ctx::already, string_view
{
data(buf), move(buf, target)
}
};
if(opts.cache_check)
{
char tmbuf[48];
log::dwarning
{
log, "%s cache invalid %s event_idx:%u expires %s",
target,
cached?: json::string{"<not found>"},
event_idx,
cached? timef(tmbuf, expires, localtime): "<never>"_sv,
};
}
// Synchronize modification of the request::list
const std::lock_guard request_lock
{
request::mutex
};
// Start request
auto req
{
std::make_unique<request>()
};
// req->target is a copy in the request struct so the caller can disappear.
req->target = string_view
{
req->tgtbuf[0], copy(req->tgtbuf[0], target)
};
// req->m_server is a copy in the request struct so the caller can disappear.
req->m_server = string_view
{
req->tgtbuf[1], copy(req->tgtbuf[1], cached)
};
// but req->out is not safe once the caller destroys their future, which
// is indicated by req->promise's invalidation. Do not write to this
// unless the promise is valid.
req->out = buf;
// all other properties are independent of the caller
req->opts = opts;
req->expires = expires;
req->uri.path = request::path;
req->uri.remote = req->target;
ctx::future<string_view> ret{req->promise}; try
{
submit(*req);
req.release();
}
catch(const std::exception &e)
{
log::derror
{
log, "request submit for %s :%s",
target,
e.what(),
};
const ctx::exception_handler eh;
finish(*req);
}
return ret;
}
catch(const ctx::interrupted &)
{
throw;
}
catch(const std::exception &e)
{
log::error
{
log, "get %s :%s",
target,
e.what(),
};
return ctx::future<string_view>
{
ctx::already, string_view
{
data(buf), move(buf, target)
}
};
}
void
ircd::m::fed::well_known::worker()
try
{
// Wait for runlevel RUN before proceeding...
run::barrier<ctx::interrupted>{};
while(!request::list.empty() || run::level == run::level::RUN)
{
worker_dock.wait([]() noexcept
{
return !request::list.empty() || run::level != run::level::RUN;
});
if(request::list.empty())
break;
auto next
{
ctx::when_any(std::begin(request::list), std::end(request::list), []
(auto &it) -> server::request &
{
return !(*it)->req? request_skip: (*it)->req;
})
};
const ctx::uninterruptible::nothrow ui;
if(!next.wait(milliseconds(250), std::nothrow))
continue;
const auto it
{
next.get()
};
assert(it != std::end(request::list));
if(unlikely(it == std::end(request::list)))
continue;
const std::lock_guard request_lock
{
request::mutex
};
std::unique_ptr<request> req
{
*it
};
if(!handle(*req)) // redirect
req.release();
else
finish(*req);
}
assert(request::list.empty());
}
catch(const ctx::interrupted &)
{
throw;
}
catch(const std::exception &e)
{
log::critical
{
log, "Worker unhandled :%s",
e.what(),
};
}
/// Returns true if the request is done with either success or error; false
/// if the request resubmitted itself.
bool
ircd::m::fed::well_known::handle(request &req)
try
{
receive(req);
// Handle redirection.
if(http::category(req.code) == http::category::REDIRECT)
return redirect(req);
return true;
}
catch(const std::exception &e)
{
log::derror
{
log, "%s handling :%s",
req.target,
e.what(),
};
return true;
}
bool
ircd::m::fed::well_known::redirect(request &req)
{
// Indirection code, but no location response header
if(!req.location)
return true;
// Redirection; carry over the new target by copying it because it's
// in the buffer which we'll be overwriting for the new request.
req.carry = unique_mutable_buffer{req.location};
req.uri = string_view{req.carry};
// Indirection code, bad location header.
if(!req.uri.path || !req.uri.remote)
return true;
if(req.redirects++ >= request::redirects_max)
return true;
// Redirect
submit(req);
return false;
}
void
ircd::m::fed::well_known::finish(request &req)
try
{
json::string result;
const unwind resolve{[&req, &result]
{
if(req.promise.valid())
req.promise.set_value(string_view
{
data(req.out), move(req.out, result?: req.target)
});
}};
if(req.code == 200 && json::valid(req.response, std::nothrow))
result = req.response["m.server"];
if(!result)
result = req.m_server;
if(!result)
result = req.target;
if(!rfc3986::valid_remote(std::nothrow, result))
result = req.target;
if(result != req.target)
log::debug
{
log, "query to %s for %s resolved delegation to %s",
req.uri.remote,
req.target,
result,
};
const bool cache_expired
{
req.expires < now<system_point>()
};
const bool cache_result
{
result
&& req.opts.cache_result
&& req.opts.request
&& (cache_expired || result != req.m_server)
};
req.m_server = result;
if(!cache_result)
return;
// Any time the well-known result is the same as the req.target (that
// includes legitimate errors where fetch_well_known() returns the
// req.target to default) we consider that an error and use the error
// TTL value. Sorry, no exponential backoff implemented yet.
const auto cache_ttl
{
req.target == req.m_server?
seconds(cache_error).count():
seconds(cache_default).count()
};
const m::room::id::buf cache_room_id
{
"dns", m::my_host()
};
// Write our record to the cache room; note that this doesn't really
// match the format of other DNS records in this room since it's a bit
// simpler, but we don't share the ircd.dns.rr type prefix anyway.
const auto cache_id
{
m::send(cache_room_id, m::me(), request::type, req.target, json::members
{
{ "ttl", cache_ttl },
{ "m.server", req.m_server },
})
};
log::debug
{
log, "%s cached delegation to %s with %s ttl:%ld",
req.target,
req.m_server,
string_view{cache_id},
cache_ttl,
};
}
catch(const std::exception &e)
{
log::error
{
log, "%s completion :%s",
req.target,
e.what(),
};
}
void
ircd::m::fed::well_known::receive(request &req)
{
assert(req.sopts.http_exceptions == false);
req.code = req.req.get(seconds(request::timeout));
req.head = req.req.in.gethead(req.req);
req.location = req.head.location;
req.response = json::object
{
req.req.in.content
};
log::debug
{
log, "fetch to %s %s :%u %s",
req.uri.remote,
req.uri.path,
uint(req.code),
http::status(req.code),
};
}
void
ircd::m::fed::well_known::submit(request &req)
{
const net::hostport target
{
make_remote(req.uri.remote)
};
const http::header headers[]
{
{ "User-Agent", info::user_agent },
};
window_buffer window
{
req.buf
};
http::request
{
window, host(target), "GET", req.uri.path, 0, {}, headers
};
server::out out;
out.head = window.completed();
// Remaining space in buffer is used for received head; note that below
// we specify this same buffer for in.content, but that's a trick
// recognized by ircd::server to place received content directly after
// head in this buffer without any additional dynamic allocation.
server::in in;
in.head = mutable_buffer{req.buf} + size(out.head);
in.content = in.head;
req.code = http::code(0);
req.head = {};
req.response = {};
req.location = {};
req.req = server::request
{
target, std::move(out), std::move(in), &req.sopts
};
worker_dock.notify();
}
ircd::net::hostport
ircd::m::fed::well_known::make_remote(const string_view &target)
{
const net::hostport remote
{
target
};
// Hard target https service; do not inherit any matrix service from remote.
const net::hostport ret
{
net::host(remote), "https", net::port(remote)
};
return ret;
}