// Matrix Construct // // Copyright (C) Matrix Construct Developers, Authors & Contributors // Copyright (C) 2016-2018 Jason Volk // // 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. #include "rooms.h" using namespace ircd::m; using namespace ircd; static bool check_transaction_id(const m::user::id &user_id, const string_view &transaction_id); static void save_transaction_id(const m::event &, m::vm::eval &); static m::resource::response handle_command(client &, const m::resource::request &, const room &); m::hookfn save_transaction_id_hookfn { save_transaction_id, { { "_site", "vm.post" }, { "origin", my_host() }, } }; conf::item new_content_workaround { { "name", "ircd.client.rooms.send.new_content_workaround" }, { "default", true }, }; static_assert ( m::event::MAX_SIZE >= 1_KiB ); static const size_t content_max { m::event::MAX_SIZE - 1_KiB }; m::resource::response put__send(client &client, const m::resource::request &request, const room::id &room_id) { if(request.parv.size() < 3) throw NEED_MORE_PARAMS { "type parameter missing" }; char type_buf[m::event::TYPE_MAX_SIZE]; const string_view &type { url::decode(type_buf, request.parv[2]) }; if(request.parv.size() < 4) throw NEED_MORE_PARAMS { "txnid parameter missing" }; char transaction_id_buf[64]; const string_view &transaction_id { url::decode(transaction_id_buf, request.parv[3]) }; if(!check_transaction_id(request.user_id, transaction_id)) throw m::error { http::CONFLICT, "M_DUPLICATE_TXNID", "Already processed request with txnid '%s'", transaction_id }; json::object content { request }; // Workaround for the quadruplication of content by certain clients // supporting message edits via `m.new_content`. The skinny is that // there's effectively four copies of the user's message data which can // be found within the content here. For this reason if the content size // with all four copies will exceed the threshold, we truncate two of the // four copies which won't be used by supporting clients. const bool workaround_new_content { // This functionality is enabled by the configuration new_content_workaround // For good-faith compatibility this functionality is enabled iff the // content size is excessive. && size(string_view(content)) > content_max // This workaround is only effective for m.new_content edits. && content.has("m.new_content") }; json::strung shorter_content; if(workaround_new_content) content = shorter_content = json::replace(content, json::members { { "body", " * "_sv }, { "formatted_body", " * "_sv }, }); // This is only a preliminary check that the content size is sane and // will fit. There may still be a rejection at a deeper stage. if(size(string_view(content)) > content_max) throw m::error { http::PAYLOAD_TOO_LARGE, "M_TOO_LARGE", "Message of %zu bytes exceeds maximum of %zu bytes.", size(request.content), content_max, }; m::vm::copts copts; copts.client_txnid = transaction_id; const room room { room_id, &copts }; if(type == "m.room.message") { const m::room::message message { content }; const bool cmd { json::get<"msgtype"_>(message) == "m.text" && startswith(json::get<"body"_>(message), "\\\\") }; if(cmd) return handle_command(client, request, room); } const auto event_id { m::send(room, request.user_id, type, content) }; return m::resource::response { client, json::members { { "event_id", event_id } } }; } m::resource::response handle_command(client &client, const m::resource::request &request, const room &room) { const user::room user_room { request.user_id, room.copts }; const auto event_id { send(user_room, request.user_id, "ircd.cmd", { { "msgtype", "m.text" }, { "body", request["body"] }, { "room_id", room.room_id }, }) }; return m::resource::response { client, json::members { { "event_id", event_id }, { "cmd", true }, } }; } void save_transaction_id(const m::event &event, m::vm::eval &eval) { if(!eval.copts) return; if(!eval.copts->client_txnid) return; if(!event.event_id) return; assert(my_host(at<"origin"_>(event))); const m::user::room user_room { at<"sender"_>(event) }; static const string_view &type { "ircd.client.txnid" }; const auto &state_key { event.event_id }; send(user_room, at<"sender"_>(event), type, state_key, { { "transaction_id", eval.copts->client_txnid } }); } // Using a linear search here because we have no index on txnids as this // is the only codepath where we'd perform that lookup; in contrast the // event_id -> txnid query is made far more often for client sync. // // This means we have to set some arbitrary limits on the linear search: // lim[0] is a total limit of events to iterate, so if the user's room // has a lot of activity we might return a false non-match and allow a // duplicate txnid; this is highly unlikely. lim[1] allows the user to // have several /sends in flight at the same time, also unlikely but we // avoid that case for false non-match. static bool check_transaction_id(const m::user::id &user_id, const string_view &transaction_id) { static const auto type_match { [](const string_view &type) { return type == "ircd.client.txnid"; } }; const auto content_match { [&transaction_id](const json::object &content) { const json::string &value { content["transaction_id"] }; return value == transaction_id; } }; ssize_t lim[] { 128, 3 }; const m::user::room user_room{user_id}; for(m::room::events it(user_room); it && lim[0] > 0 && lim[1] > 0; --it, --lim[0]) { if(!m::query(std::nothrow, it.event_idx(), "type", type_match)) continue; --lim[1]; if(!m::query(std::nothrow, it.event_idx(), "content", content_match)) continue; return false; } return true; }