/* * Copyright (C) 2016 Charybdis Development Team * Copyright (C) 2016 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. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR oPROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include #include #include "charybdis.h" const char *const generic_message {R"( *** - To end the console session: type ctrl-d -> EOF *** - To exit cleanly: type exit, die, or ctrl-\ -> SIGQUIT *** - To generate a coredump for developers, type ABORT -> abort() *** )"}; const size_t stack_sz { 8_MiB }; bool console_active; bool console_inwork; ircd::ctx::ctx *console_ctx; boost::asio::posix::stream_descriptor *console_in; static bool handle_line(const std::string &line); static void execute(const std::vector lines); static void console(); static void check_console_active() { if(console_active) throw ircd::error("Console is already active and cannot be reentered"); } void console_execute(const std::vector &lines) { check_console_active(); ircd::context { "execute", stack_sz, std::bind(&execute, lines), ircd::context::DETACH }; } void console_spawn() { check_console_active(); ircd::context { "console", stack_sz, std::bind(&console), ircd::context::DETACH }; } void console_cancel() try { if(!console_active) return; if(console_inwork && console_ctx) { interrupt(*console_ctx); return; } if(console_in) { console_in->cancel(); console_in->close(); } } catch(const std::exception &e) { ircd::log::error("Interrupting console: %s", e.what()); } void console_hangup() try { using log::console_quiet; console_cancel(); static console_quiet *quieted; if(!quieted) { log::notice("Suppressing console log output after terminal hangup"); quieted = new console_quiet; return; } log::notice("Reactivating console logging after second hangup"); delete quieted; quieted = nullptr; } catch(const std::exception &e) { ircd::log::error("console_hangup(): %s", e.what()); } const char *const termstop_message {R"( *** *** The server has been paused and will resume when you hit enter. *** This is a client and your commands will originate from the server itself. ***)"}; void console_termstop() try { console_cancel(); std::cout << termstop_message << generic_message; std::string line; std::cout << "\n> " << std::flush; std::getline(std::cin, line); if(std::cin.eof()) { std::cout << std::endl; std::cin.clear(); return; } handle_line(line); } catch(const std::exception &e) { ircd::log::error("console_termstop(): %s", e.what()); } ircd::m::session *moi; const char *const console_message {R"( *** *** The server is still running in the background. A command line is now available below. *** This is a client and your commands will originate from the server itself. ***)"}; void console() try { if(ircd::runlevel != ircd::runlevel::RUN) return; const unwind atexit([] { console_active = false; console_in = nullptr; delete moi; moi = nullptr; std::cin.clear(); }); console_active = true; console_ctx = &ctx::cur(); std::cout << console_message << generic_message; boost::asio::posix::stream_descriptor in{*::ios, dup(STDIN_FILENO)}; console_in = ∈ boost::asio::streambuf buf{BUFSIZE}; std::istream is{&buf}; std::string line; while(1) { std::cout << "\n> " << std::flush; // Suppression scope ends after the command is entered // so the output of the command (if log messages) can be seen. { const log::console_quiet quiet(false); boost::asio::async_read_until(in, buf, '\n', yield_context{to_asio{}}); } std::getline(is, line); std::cin.clear(); if(line.empty()) continue; if(!handle_line(line)) break; } } catch(const std::exception &e) { std::cout << std::endl; std::cout << "***\n"; std::cout << "*** The console session has ended: " << e.what() << "\n"; std::cout << "***" << std::endl; std::cout << std::flush; std::cout.clear(); ircd::log::debug("The console session has ended: %s", e.what()); } void execute(const std::vector lines) try { if(ircd::runlevel != ircd::runlevel::RUN) return; const unwind atexit([] { console_active = false; delete moi; moi = nullptr; }); console_active = true; console_ctx = &ctx::cur(); for(const auto &line : lines) { if(line.empty()) continue; if(!handle_line(line)) break; } } catch(const std::exception &e) { std::cout << std::endl; std::cout << "***\n"; std::cout << "*** The execution aborted: " << e.what() << "\n"; std::cout << "***" << std::endl; std::cout << std::flush; std::cout.clear(); ircd::log::debug("The execution aborted: %s", e.what()); } bool handle_line(const std::string &line) try { // _theirs is copied for recursive reentrance const unwind outwork{[console_inwork_theirs(console_inwork)] { console_inwork = console_inwork_theirs; }}; console_inwork = true; if(line == "ABORT") abort(); if(line == "EXIT") exit(0); if(line == "exit" || line == "die") { ircd::quit(); return false; } switch(hash(token(line, " ", 0))) { case hash("reload"): { module matrix("matrix"); auto &root(matrix.get("root_module")); root->reset(); *root = module("root"); break; } case hash("show"): { const auto args(tokens_after(line, " ", 0)); const params token{args, " ", {"what"}}; const std::string what(token.at(0)); switch(hash(what)) { case hash("dbs"): { const auto dirs(ircd::db::available()); for(const auto &dir : dirs) std::cout << dir << ", "; std::cout << std::endl; break; } } break; } case hash("reconnect"): { handle_line("disconnect"); handle_line("connect"); break; } case hash("messages"): { if(!moi) { std::cerr << "No current session" << std::endl; break; } const auto args(tokens_after(line, " ", 0)); const params token{args, " ", {"room_id"}}; const string_view &room_id { token.at(0, ircd::m::my_room.room_id) }; char room_id_encoded[512]; char url[512]; const auto url_len { fmt::sprintf(url, "_matrix/client/r0/rooms/%s/messages", urlencode(room_id, room_id_encoded)) }; char query[1024]; snprintf(query, sizeof(query), "%s=%s", "access_token", moi->access_token.c_str()); m::request request { "GET", string_view{url, size_t(url_len)}, query, {} }; static char buf[65536]; ircd::parse::buffer pb{buf}; const json::object response{(*moi)(pb, request)}; const json::array chunk(response["chunk"]); for(const string_view &chunk : chunk) std::cout << chunk << std::endl; break; } case hash("members"): { if(!moi) { std::cerr << "No current session" << std::endl; break; } const auto args(tokens_after(line, " ", 0)); const params token{args, " ", {"room_id"}}; const string_view &room_id { token.at(0, ircd::m::my_room.room_id) }; char room_id_encoded[512]; char url[512]; const auto url_len { fmt::sprintf(url, "_matrix/client/r0/rooms/%s/members", urlencode(room_id, room_id_encoded)) }; char query[1024]; snprintf(query, sizeof(query), "%s=%s", "access_token", moi->access_token.c_str()); m::request request { "GET", string_view{url, size_t(url_len)}, query, {} }; static char buf[65536]; ircd::parse::buffer pb{buf}; const json::object response{(*moi)(pb, request)}; const json::array chunk(response["chunk"]); for(const string_view &chunk : chunk) std::cout << chunk << std::endl; break; } case hash("context"): { if(!moi) { std::cerr << "No current session" << std::endl; break; } const auto args(tokens_after(line, " ", 0)); const params token{args, " ", {"room_id", "event_id"}}; char room_id_buf[768], event_id_buf[768]; const auto room_id{urlencode(token.at(0), room_id_buf)}; const auto event_id{urlencode(token.at(1), event_id_buf)}; char url[512]; const auto url_len { fmt::snprintf(url, sizeof(url), "_matrix/client/r0/rooms/%s/context/%s", room_id, event_id) }; m::request request { "GET", string_view{url, size_t(url_len)}, {} }; static char buf[65536]; ircd::parse::buffer pb{buf}; const json::object response{(*moi)(pb, request)}; for(const auto &member : response) std::cout << member.first << " " << member.second << std::endl; break; } case hash("state"): { if(!moi) { std::cerr << "No current session" << std::endl; break; } const auto args(tokens_after(line, " ", 0)); const params token{args, " ", {"room_id", "event_type", "state_key"}}; char room_id_buf[512]; const auto room_id{urlencode(token.at(0), room_id_buf)}; const auto event_type{token[1]}; char state_key_buf[512]; const auto state_key { urlencode(token[2], state_key_buf) }; char url[512]; const auto url_len { event_type && state_key? fmt::snprintf(url, sizeof(url), "_matrix/client/r0/rooms/%s/state/%s/%s", room_id, event_type, state_key): event_type? fmt::snprintf(url, sizeof(url), "_matrix/client/r0/rooms/%s/state/%s", room_id, event_type): fmt::snprintf(url, sizeof(url), "_matrix/client/r0/rooms/%s/state", room_id) }; static char query[512]; const auto query_len { fmt::snprintf(query, sizeof(query), "%s=%s", "access_token", moi->access_token) }; m::request request { "GET", string_view{url, size_t(url_len)}, string_view{query, size_t(query_len)} }; static char buf[65536]; ircd::parse::buffer pb{buf}; const json::array response{(*moi)(pb, request)}; for(const auto &event : response) std::cout << event << std::endl << std::endl; break; } case hash("connect"): { if(moi) { std::cerr << "Already have session." << std::endl; break; } const auto args(tokens_after(line, " ", 0)); const params token{args, " ", {"host", "port"}}; const std::string host{token.at(0, "127.0.0.1"s)}; const auto port{token.at(1, 8448)}; moi = new m::session{{host, port}}; break; } case hash("disconnect"): { if(!moi) { std::cerr << "No current session" << std::endl; break; } delete moi; moi = nullptr; break; } case hash("versions"): { if(!moi) { std::cerr << "No current session" << std::endl; break; } m::request request { "GET", "_matrix/client/versions" }; static char buf[1024]; ircd::parse::buffer pb{buf}; const auto doc((*moi)(pb, request)); std::cout << doc << std::endl; break; } case hash("register"): { if(!moi) { std::cerr << "No current session" << std::endl; break; } const auto args(tokens_after(line, " ", 0)); const params token{args, " ", {"username", "password"}}; m::request request { "POST", "_matrix/client/r0/register?kind=user", {}, { { "username", token.at(0) }, { "password", token.at(1) }, { "auth", { { "type", "m.login.dummy" } } } } }; static char buf[4096]; ircd::parse::buffer pb{buf}; const string_view doc((*moi)(pb, request)); std::cout << doc << std::endl; break; } case hash("login"): { if(!moi) { std::cerr << "No current session" << std::endl; break; } const auto args(tokens_after(line, " ", 0)); if(args.empty()) { m::request request { "GET", "_matrix/client/r0/login", {}, {} }; static char buf[4096]; ircd::parse::buffer pb{buf}; const json::object doc((*moi)(pb, request)); const json::array flows(doc.at("flows")); size_t i(0); for(const auto &flow : flows) std::cout << i++ << ": " << flow << std::endl; break; } const params token { args, " ", { "username", "password" } }; m::request request { "POST", "_matrix/client/r0/login", {}, { { "user", token.at(0) }, { "password", token.at(1) }, { "type", "m.login.password" }, } }; static char buf[4096]; ircd::parse::buffer pb{buf}; const json::object doc((*moi)(pb, request)); std::cout << doc << std::endl; moi->access_token = std::string(unquote(doc.at("access_token"))); break; } case hash("sync"): { if(!moi) { std::cerr << "No current session" << std::endl; break; } const auto args { tokens_after(line, " ", 0) }; const params token { args, " ", { "timeout", "filter_id", "full_state", "set_presence" } }; const time_t timeout { token.at(0, 0) }; static char query[2048]; snprintf(query, sizeof(query), "%s=%s&timeout=%zd", "access_token", moi->access_token.c_str(), timeout * 1000); while(1) { m::request request { "GET", "_matrix/client/r0/sync", query, { } }; static char buf[8192]; ircd::parse::buffer pb{buf}; const json::object doc((*moi)(pb, request)); const auto since(doc.at("next_batch")); for(const auto &member : doc) std::cout << string_view{member.first} << " => " << string_view{member.second} << std::endl; fmt::snprintf(query, sizeof(query), "%s=%s&since=%s&timeout=%zd", "access_token", moi->access_token, since, timeout * 1000); } break; } case hash("createroom"): { if(!moi) { std::cerr << "No current session" << std::endl; break; } const auto args(tokens_after(line, " ", 0)); const params token{args, " ", {"name"}}; char query[1024]; snprintf(query, sizeof(query), "%s=%s", "access_token", moi->access_token.c_str()); m::request request { "POST", "_matrix/client/r0/createRoom", query, { { "name", token.at(0) }, } }; static char buf[4096]; ircd::parse::buffer pb{buf}; const auto doc((*moi)(pb, request)); std::cout << doc << std::endl; break; } /* case hash("GET"): case hash("POST"): { if(!moi) { std::cerr << "No current session" << std::endl; break; } const auto raw(line); m::request::quote q { "GET", "/foo", "{}" }; moi->quote(q); break; } */ case hash("privmsg"): { if(!moi) { std::cerr << "No current session" << std::endl; break; } static uint txnid; const auto args(tokens_after(line, " ", 0)); const params token{args, " ", {"room_id", "msgtype"}}; const auto &room_id{token.at(0)}; const auto &msgtype{token.at(1)}; const auto &event_type{"m.room.message"}; const auto text(tokens_after(line, " ", 2)); static char query[512]; const auto query_len { fmt::snprintf(query, sizeof(query), "%s=%s", "access_token", moi->access_token) }; static char url[512]; const auto url_len { fmt::snprintf(url, sizeof(url), "_matrix/client/r0/rooms/%s/send/%s/%u", room_id, event_type, txnid++) }; m::request request { "PUT", url, query, json::members { { "body", text }, { "msgtype", msgtype } } }; static char buf[4096]; ircd::parse::buffer pb{buf}; const json::object response{(*moi)(pb, request)}; std::cout << string_view{response} << std::endl; break; } case hash("password"): { if(!moi) { std::cerr << "No current session" << std::endl; break; } const auto args(tokens_after(line, " ", 0)); const params token{args, " ", {"new_password"}}; static char query[512]; const auto query_len { fmt::snprintf(query, sizeof(query), "%s=%s", "access_token", moi->access_token) }; m::request request { "POST", "_matrix/client/r0/account/password", query, json::members { { "new_password", token.at(0) }, { "auth", json::members { { "type", "m.login.password" } }}, } }; static char buf[4096]; ircd::parse::buffer pb{buf}; const json::object response{(*moi)(pb, request)}; std::cout << string_view{response} << std::endl; break; } case hash("deactivate"): { if(!moi) { std::cerr << "No current session" << std::endl; break; } const auto args(tokens_after(line, " ", 0)); static char query[512]; const auto query_len { fmt::snprintf(query, sizeof(query), "%s=%s", "access_token", moi->access_token) }; m::request request { "POST", "_matrix/client/r0/account/deactivate", query, json::members { { "auth", json::members { { "type", "m.login.password" } }}, } }; static char buf[4096]; ircd::parse::buffer pb{buf}; const json::object response{(*moi)(pb, request)}; std::cout << string_view{response} << std::endl; break; } case hash("setfilter"): { if(!moi) { std::cerr << "No current session" << std::endl; break; } const auto args { tokens_after(line, " ", 0) }; const auto user_id { token(args, " ", 0) }; const json::object filter { tokens_after(args, " ", 0) }; static char url[128]; const auto url_len { fmt::snprintf(url, sizeof(url), "_matrix/client/r0/user/%s/filter", user_id) }; static char query[512]; const auto query_len { fmt::snprintf(query, sizeof(query), "%s=%s", "access_token", moi->access_token) }; m::request request { "POST", url, query, filter }; static char buf[4096]; ircd::parse::buffer pb{buf}; const json::object response{(*moi)(pb, request)}; std::cout << string_view{response} << std::endl; break; } case hash("getfilter"): { if(!moi) { std::cerr << "No current session" << std::endl; break; } const auto args { tokens_after(line, " ", 0) }; const auto user_id { token(args, " ", 0) }; const auto filter_id { tokens_after(args, " ", 0) }; static char url[128]; const auto url_len { fmt::snprintf(url, sizeof(url), "_matrix/client/r0/user/%s/filter/%s", user_id, filter_id) }; static char query[512]; const auto query_len { fmt::snprintf(query, sizeof(query), "%s=%s", "access_token", moi->access_token) }; m::request request { "GET", url, query, {} }; static char buf[4096]; ircd::parse::buffer pb{buf}; const json::object response{(*moi)(pb, request)}; std::cout << string_view{response} << std::endl; break; } case hash("keys"): { const auto args { tokens_after(line, " ", 0) }; const auto argc { token_count(args, " ") }; size_t arg(0); const string_view server_name { token(args, " ", arg++) }; const string_view key_id { argc >= ++arg? token(args, " ", arg - 1) : "" }; const string_view query_server { argc >= ++arg? token(args, " ", arg - 1) : "" }; if(key_id && query_server) { m::keys::get(server_name, key_id, query_server, [] (const auto &keys) { std::cout << keys << std::endl; }); } else if(key_id) { const string_view key_id{token(args, " ", 1)}; m::keys::get(server_name, key_id, [] (const auto &key) { std::cout << key << std::endl; }); } else { m::keys::get(server_name, [] (const auto &keys) { std::cout << keys << std::endl; }); } break; } case hash("backfill"): { const auto args { tokens_after(line, ' ', 0) }; const m::room room { m::room::id{token(args, ' ', 0)} }; const m::event::id event_id { token(args, ' ', 1) }; const auto limit { token_count(args, ' ') >= 2? lex_cast(token(args, ' ', 2)) : 0U }; m::vm::backfill(room, event_id, limit); break; } case hash("statefill"): { const auto args { tokens_after(line, ' ', 0) }; const m::room::id room_id { token(args, ' ', 0) }; const m::event::id event_id { token(args, ' ', 1) }; m::vm::statefill(room_id, event_id); break; } case hash("fedstate"): { const auto args { tokens_after(line, ' ', 0) }; const m::room::id room_id { token(args, ' ', 0) }; const m::event::id event_id { token(args, ' ', 1) }; const unique_buffer buf { 64_MiB }; const m::room::state state { room_id, event_id, buf }; std::cout << pretty(state) << std::endl; for_each(state, [](const auto &key, const auto &val) { if(bool(json::get<"event_id"_>(val))) std::cout << pretty_oneline(val) << std::endl; }); break; } case hash("pull"): { if(!moi) { std::cerr << "No current session" << std::endl; break; } const auto args { tokens_after(line, " ", 0) }; const auto origin_token { token(args, " ", 0) }; char origin_buf[512]; const auto origin { urlencode(origin_token, origin_buf) }; const auto event_id_token { token(args, " ", 0) }; char event_id_buf[512]; const auto event_id { urlencode(event_id_token, event_id_buf) }; static char url[128]; const auto url_len { fmt::snprintf(url, sizeof(url), "_matrix/federation/v1/pull/") }; static char query[512]; const auto query_len { fmt::snprintf(query, sizeof(query), "origin=%s&v=%s", origin, event_id) }; m::request request { "GET", url, string_view{query, size_t(query_len)}, {} }; static char buf[65536]; ircd::parse::buffer pb{buf}; const string_view response{(*moi)(pb, request)}; std::cout << response << std::endl; break; } case hash("sjoin"): { const auto args { tokens_after(line, ' ', 0) }; const m::room::id room_id { token(args, ' ', 0) }; const m::user::id user_id { token(args, ' ', 1) }; json::iov iov; json::iov::push push[] { { iov, { "sender", user_id } } }; m::vm::join(room_id, iov); break; } case hash("get"): { const auto args { tokens_after(line, ' ', 0) }; const m::event::id event_id { token(args, ' ', 0) }; static char buf[65536]; const m::event event { event_id, buf }; std::cout << event << std::endl; break; } case hash("fetch"): { const auto args { tokens_after(line, ' ', 0) }; const m::event::id event_id { token(args, ' ', 0) }; struct m::io::fetch::opts opts; opts.hint = net::remote { token(args, ' ', 1) }; static char buf[65536]; m::event::fetch fetch { event_id, buf, &opts }; std::cout << m::io::acquire(fetch) << std::endl; break; } case hash("mfetch"): { const auto args { tokens_after(line, ' ', 0) }; const auto event_ids { tokens_after(line, ' ', 0) }; // const net::remote remote // { // token(args, ' ', 0) // }; string_view event_id[8]; const auto count { tokens(event_ids, ' ', event_id) }; static char buf[8][65536]; m::event::fetch tab[count]; for(size_t i(0); i < count; ++i) { tab[i].event_id = event_id[i]; tab[i].buf = buf[i]; // tab[i].hint = remote; } m::io::acquire({tab, count}); for(size_t i(0); i < count; ++i) { std::cout << tab[i].event_id << ": size: " << string_view{tab[i].pdu}.size() << std::endl; } break; } case hash("eval"): { const auto args{tokens_after(line, ' ', 0)}; const params token{args, " ", { "event_id" }}; m::event::id event_id { token.at(0) }; if(m::vm::exists(event_id)) { std::cout << "exists" << std::endl; break; } static char buf[65536]; m::event::fetch fetch { event_id, buf }; m::io::acquire(fetch); if(bool(fetch.error)) std::rethrow_exception(fetch.error); assert(bool(fetch.pdu)); const m::event event { fetch.pdu }; m::vm::eval{event}; std::cout << pretty_oneline(event) << std::endl; break; } case hash("exec"): { const auto args { tokens_after(line, ' ', 0) }; const params token{args, " ", { "file path", "limit" }}; const auto path { token.at(0) }; const auto limit { token.at(1) }; const auto start { token[2]? lex_cast(token[2]) : 0 }; //TODO: The file might be too large for a single read into ram for // a big synapse server. We will need an iteration of the file // instead. const std::string data { ircd::fs::read(std::string(path)) }; std::cout << "read " << data.size() << " bytes " << std::endl; const json::vector vector { data }; struct ircd::m::vm::opts opts; ircd::m::vm::eval eval { opts }; size_t j(0), s(0); static const auto max{1024}; for(auto it(begin(vector)); it != end(vector) && j < limit;) { if(s++ < start) { ++it; continue; } size_t i(0); std::array a; for(; i < max && it != end(vector) && j < limit; ++it) { const json::object obj{*it}; { a[i] = m::event{*it}; ++i, ++j; } } switch(eval(vector_view(a.data(), i))) { using fault = m::vm::fault; case fault::ACCEPT: continue; case fault::EVENT: std::cout << "EVENT FAULT " << eval.ef.size() << std::endl; //for(const auto &eid : eval.ef) // std::cout << eid << std::endl; break; case fault::STATE: std::cout << "STATE FAULT " << std::endl; break; default: std::cout << "FAULT " << std::endl; break; } } break; } case hash("trace"): { const auto args { tokens_after(line, ' ', 0) }; m::event::id event_id { token(args, ' ', 0) }; m::vm::trace(event_id, [] (const auto &event, auto &next) { std::cout << m::pretty_oneline(event) << std::endl; std::cout << m::pretty(m::event::prev{event}) << std::endl; return true; }); break; } case hash("directory"): { if(!moi) { std::cerr << "No current session" << std::endl; break; } const auto args { tokens_after(line, " ", 0) }; const auto query_type { "directory" }; const auto room_alias_token { token(args, " ", 0) }; char room_alias_buf[512]; const auto room_alias { urlencode(room_alias_token, room_alias_buf) }; static char url[128]; const auto url_len { fmt::snprintf(url, sizeof(url), "_matrix/federation/v1/query/%s", query_type) }; static char query[512]; const auto query_len { fmt::snprintf(query, sizeof(query), "%s=%s", "room_alias", room_alias) }; m::request request { "GET", url, string_view{query, size_t(query_len)}, {} }; static char buf[65536]; ircd::parse::buffer pb{buf}; const json::object response{(*moi)(pb, request)}; std::cout << response << std::endl; break; } case hash("profile"): { if(!moi) { std::cerr << "No current session" << std::endl; break; } const auto args { tokens_after(line, " ", 0) }; const auto query_type { "profile" }; const auto user_id_token { token(args, " ", 0) }; char user_id_buf[512]; const auto user_id { urlencode(user_id_token, user_id_buf) }; static char url[128]; const auto url_len { fmt::snprintf(url, sizeof(url), "_matrix/federation/v1/query/%s", query_type) }; static char query[512]; const auto query_len { fmt::snprintf(query, sizeof(query), "%s=%s", "user_id", user_id) }; m::request request { "GET", url, string_view{query, size_t(query_len)}, {} }; static char buf[65536]; ircd::parse::buffer pb{buf}; const json::object response{(*moi)(pb, request)}; std::cout << response << std::endl; break; } default: std::cerr << "Bad command or filename" << std::endl; } return true; } catch(const std::out_of_range &e) { std::cerr << "missing required arguments." << std::endl; return true; } catch(const ircd::http::error &e) { ircd::log::error("%s %s", e.what(), e.content); return true; } catch(const std::exception &e) { ircd::log::error("%s", e.what()); return true; }