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construct/modules/federation/send.cc

291 lines
6.3 KiB
C++

// Matrix Construct
//
// Copyright (C) Matrix Construct Developers, Authors & Contributors
// Copyright (C) 2016-2018 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.
using namespace ircd;
mapi::header
IRCD_MODULE
{
"federation send"
};
m::resource
send_resource
{
"/_matrix/federation/v1/send/",
{
"federation send",
resource::DIRECTORY,
}
};
conf::item<bool>
allow_self
{
{ "name", "ircd.federation.send.allow_self" },
{ "default", false },
};
conf::item<size_t>
eval_max_per_node
{
{ "name", "ircd.federation.send.eval.max_per_node" },
{ "default", 4L },
};
conf::item<bool>
fetch_state
{
{ "name", "ircd.federation.send.fetch_state" },
{ "default", true },
};
conf::item<bool>
fetch_prev
{
{ "name", "ircd.federation.send.fetch_prev" },
{ "default", true },
};
static void
handle_edu(client &client,
const m::resource::request::object<m::txn> &request,
const string_view &txn_id,
const m::edu &edu)
{
m::event event;
json::get<"origin"_>(event) = request.node_id;
json::get<"origin_server_ts"_>(event) = at<"origin_server_ts"_>(request);
json::get<"content"_>(event) = at<"content"_>(edu);
json::get<"type"_>(event) = at<"edu_type"_>(edu);
json::get<"depth"_>(event) = json::undefined_number;
m::vm::opts vmopts;
vmopts.nothrows = -1U;
vmopts.node_id = request.node_id;
vmopts.txn_id = txn_id;
vmopts.edu = true;
vmopts.notify_clients = false;
vmopts.notify_servers = false;
m::vm::eval eval
{
event, vmopts
};
}
static void
handle_pdus(client &client,
const m::resource::request::object<m::txn> &request,
const string_view &txn_id,
const json::array &pdus,
json::stack &out)
{
json::stack::object out_pdus
{
out, "pdus"
};
m::vm::opts vmopts;
vmopts.out = &out_pdus;
vmopts.warnlog = 0;
vmopts.infolog_accept = true;
vmopts.nothrows = -1U;
vmopts.node_id = request.node_id;
vmopts.txn_id = txn_id;
vmopts.phase.set(m::vm::phase::FETCH_PREV, bool(fetch_prev));
vmopts.phase.set(m::vm::phase::FETCH_STATE, bool(fetch_state));
vmopts.fetch_prev_wait_count = -1;
m::vm::eval eval
{
pdus, vmopts
};
}
static void
handle_txn(client &client,
const m::resource::request::object<m::txn> &request,
const string_view &txn_id,
json::stack &out)
try
{
// We process PDU's before EDU's and we process all PDU's at once by
// passing the complete array. The events are sorted and dependencies
// are detected within the array. If we looped here for eval'ing one
// at a time we'd risk issuing fetch requests for prev_events which may
// exist in the same array, etc.
if(!empty(json::get<"pdus"_>(request)))
handle_pdus(client, request, txn_id, json::get<"pdus"_>(request), out);
// We process EDU's after PDU's. This is because checks on EDU's may
// depend on updates provided by PDU's in the same txn; for example:
// 1. user X joins room Y. 2. user X starts typing in room Y. Note that
// we also process EDU's one at a time since there is no dependency graph
// or anything like that so if this loop wasn't here it would just be
// somewhere else.
for(const json::object edu : json::get<"edus"_>(request))
handle_edu(client, request, txn_id, edu);
}
catch(const m::vm::error &e)
{
const json::object &content
{
e.content
};
const json::string error[]
{
content["errcode"],
content["error"]
};
log::error
{
m::log, "Unhandled error processing txn '%s' from '%s' :%s :%s :%s",
txn_id,
request.node_id,
e.what(),
error[0],
error[1],
};
throw;
}
catch(const std::exception &e)
{
log::error
{
m::log, "Unhandled error processing txn '%s' from '%s' :%s",
txn_id,
request.node_id,
e.what(),
};
throw;
}
m::resource::response
handle_put(client &client,
const m::resource::request::object<m::txn> &request)
{
if(request.parv.size() < 1)
throw m::NEED_MORE_PARAMS
{
"txn_id path parameter required"
};
char txn_id_buf[128];
const auto txn_id
{
url::decode(txn_id_buf, request.parv[0])
};
const string_view &origin
{
json::at<"origin"_>(request)
};
char rembuf[64];
log::debug
{
m::log, "%s :%s | %s --> edus:%zu pdus:%zu",
txn_id,
origin,
string(rembuf, remote(client)),
json::get<"edus"_>(request).count(),
json::get<"pdus"_>(request).count(),
};
if(origin && origin != request.node_id)
throw m::ACCESS_DENIED
{
"txn[%s] originating from '%s' not accepted when relayed by '%s'",
txn_id,
origin,
request.node_id,
};
// Don't accept sends to ourself for whatever reason (i.e a 127.0.0.1
// leaked into the target list). This should be a 500 so it's not
// considered success or cached as failure by the sender's state.
if(unlikely(my_host(request.node_id)) && !bool(allow_self))
throw m::error
{
"M_SEND_TO_SELF", "Tried to send %s from myself to myself.",
txn_id
};
size_t evals{0};
bool txn_in_progress{false};
m::vm::eval::for_each([&txn_id, &request, &evals, &txn_in_progress]
(const auto &eval)
{
assert(eval.opts);
const bool match_node
{
eval.opts->node_id == request.node_id
};
const bool match_txn
{
match_node &&
eval.opts->txn_id == txn_id
};
evals += match_node;
txn_in_progress |= match_txn;
return evals < size_t(eval_max_per_node);
});
if(evals >= size_t(eval_max_per_node))
return m::resource::response
{
client, http::TOO_MANY_REQUESTS
};
if(txn_in_progress)
return m::resource::response
{
client, http::ACCEPTED
};
char chunk[1536];
m::resource::response::chunked response
{
client, http::OK, 0UL, chunk
};
json::stack out
{
response.buf, response.flusher()
};
json::stack::object top
{
out
};
handle_txn(client, request, txn_id, out);
return std::move(response);
}
m::resource::method
method_put
{
send_resource, "PUT", handle_put,
{
method_put.VERIFY_ORIGIN,
// Coarse timeout
90s, //TODO: conf
// Payload maximum
4_MiB // larger = HTTP 413 //TODO: conf
}
};