// 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 using namespace ircd; IRCD_EXCEPTION_HIDENAME(ircd::error, bad_command) static void init_cmds(); mapi::header IRCD_MODULE { "IRCd terminal console: runtime-reloadable self-reflecting command library.", [] { init_cmds(); } }; conf::item default_synapse { { "name", "ircd.console.timeout" }, { "default", 45L }, }; /// The first parameter for all commands. This aggregates general options /// passed to commands as well as providing the output facility with an /// ostream interface. Commands should only send output to this object. The /// command's input line is not included here; it's the second param to a cmd. struct opt { std::ostream &out; bool html {false}; seconds timeout {default_synapse}; string_view special; operator std::ostream &() { return out; } template auto &operator<<(T&& t) { out << std::forward(t); return out; } auto &operator<<(std::ostream &(*manip)(std::ostream &)) { return manip(out); } }; /// Instances of this object are generated when this module reads its /// symbols to find commands. These instances are then stored in the /// cmds set for lookup and iteration. struct cmd { using is_transparent = void; static constexpr const size_t &PATH_MAX { 8 }; std::string name; std::string symbol; mods::sym_ptr ptr; bool operator()(const cmd &a, const cmd &b) const { return a.name < b.name; } bool operator()(const string_view &a, const cmd &b) const { return a < b.name; } bool operator()(const cmd &a, const string_view &b) const { return a.name < b; } cmd(std::string name, std::string symbol) :name{std::move(name)} ,symbol{std::move(symbol)} ,ptr{IRCD_MODULE, this->symbol} {} cmd() = default; cmd(cmd &&) = delete; cmd(const cmd &) = delete; }; std::set cmds; void init_cmds() { auto symbols { mods::symbols(mods::path(IRCD_MODULE)) }; for(std::string &symbol : symbols) { // elide lots of grief by informally finding this first if(!has(symbol, "console_cmd")) continue; thread_local char buf[1024]; const string_view demangled { demangle(buf, symbol) }; std::string command { replace(between(demangled, "__", "("), "__", " ") }; const auto iit { cmds.emplace(std::move(command), std::move(symbol)) }; if(!iit.second) throw error { "Command '%s' already exists", command }; } } const cmd * find_cmd(const string_view &line) { const size_t elems { std::min(token_count(line, ' '), cmd::PATH_MAX) }; for(size_t e(elems+1); e > 0; --e) { const auto name { tokens_before(line, ' ', e) }; const auto it{cmds.lower_bound(name)}; if(it == end(cmds) || it->name != name) continue; return &(*it); } return nullptr; } // // Main command dispatch // int console_command_derived(opt &, const string_view &line); static int _console_command(opt &out, const string_view &line) { const cmd *const cmd { find_cmd(line) }; if(!cmd) return console_command_derived(out, line); const auto args { lstrip(split(line, cmd->name).second, ' ') }; const auto &ptr{cmd->ptr}; using prototype = bool (struct opt &, const string_view &); return ptr.operator()(out, args); } /// This function may be linked and called by those wishing to execute a /// command. Output from the command will be appended to the provided ostream. /// The input to the command is passed in `line`. Since `struct opt` is not /// accessible outside of this module, all public options are passed via a /// plaintext string which is parsed here. extern "C" int console_command(std::ostream &out, const string_view &line, const string_view &opts) try { opt opt { out, has(opts, "html") }; return _console_command(opt, line); } catch(const params::error &e) { out << e.what() << std::endl; return true; } catch(const bad_command &e) { return -2; } // // Help // bool console_cmd__help(opt &out, const string_view &line) { if(empty(line)) for(size_t i(0); !empty(info::credits[i]); ++i) out << info::credits[i] << std::endl; const auto cmd { find_cmd(line) }; if(cmd) { out << "No help available for '" << cmd->name << "'." << std::endl; //TODO: help string symbol map } out << "Commands available: \n" << std::endl; const size_t elems { std::min(token_count(line, ' '), cmd::PATH_MAX) }; for(size_t e(elems+1); e > 0; --e) { const auto name { tokens_before(line, ' ', e) }; string_view last; auto it{cmds.lower_bound(name)}; if(it == end(cmds)) continue; for(; it != end(cmds); ++it) { if(!startswith(it->name, name)) break; const auto prefix { tokens_before(it->name, ' ', e) }; if(last == prefix) continue; if(name && prefix != name && !startswith(lstrip(prefix, name), ' ')) break; last = prefix; const auto suffix { e > 1? tokens_after(prefix, ' ', e - 2) : prefix }; if(empty(suffix)) continue; out << suffix << std::endl; } break; } return true; } // // Test trigger stub // bool console_cmd__test(opt &out, const string_view &line) { return true; } // // Time cmd prefix (like /usr/bin/time) // bool console_cmd__time(opt &out, const string_view &line) { ircd::timer timer; const auto ret { _console_command(out, line) }; thread_local char buf[32]; out << std::endl << pretty(buf, timer.at()) << std::endl; return ret; } // // Derived commands // int console_command_numeric(opt &, const string_view &line); bool console_id__user(opt &, const m::user::id &id, const string_view &line); bool console_id__node(opt &, const m::node::id &id, const string_view &line); bool console_id__room(opt &, const m::room::id &id, const string_view &line); bool console_id__event(opt &, const m::event::id &id, const string_view &line); bool console_json(const json::object &); int console_command_derived(opt &out, const string_view &line) { const string_view id { token(line, ' ', 0) }; // First check if the line starts with a number, this is a special case // sent to a custom dispatcher (which right now is specifically for the // event stager suite). if(try_lex_cast(id)) return console_command_numeric(out, line); if(m::has_sigil(id)) switch(m::sigil(id)) { case m::id::EVENT: return console_id__event(out, id, line); case m::id::ROOM: return console_id__room(out, id, line); case m::id::NODE: return console_id__node(out, id, line); case m::id::USER: return console_id__user(out, id, line); case m::id::ROOM_ALIAS: { const auto room_id{m::room_id(id)}; return console_id__room(out, room_id, line); } default: break; } return -1; } // // Command by JSON // bool console_json(const json::object &object) { if(!object.has("type")) return true; //return console_cmd__exec__event(object); return true; } // // Command by ID // // // misc // bool console_cmd__exit(opt &out, const string_view &line) { return false; } bool console_cmd__credits(opt &out, const string_view &line) { for(size_t i(0); !empty(info::credits[i]); ++i) out << info::credits[i] << std::endl; return true; } bool console_cmd__debug(opt &out, const string_view &line) { if(!RB_DEBUG_LEVEL) { out << "Debugging is not compiled in." << std::endl; return true; } if(log::console_enabled(log::DEBUG)) { out << "Turning off debuglog..." << std::endl; log::console_disable(log::DEBUG); return true; } else { out << "Turning on debuglog..." << std::endl; log::console_enable(log::DEBUG); return true; } } // // main // bool console_cmd__die(opt &out, const string_view &line) { ircd::quit(); return false; } [[noreturn]] bool console_cmd__die__hard(opt &out, const string_view &line) { ircd::terminate(); __builtin_unreachable(); } // // log // bool console_cmd__log(opt &out, const string_view &line) { for(const auto *const &log : log::log::list) out << (log->snote? log->snote : '-') << " " << std::setw(8) << std::left << log->name << " " << (log->fmasked? " FILE" : "") << (log->cmasked? " CONSOLE" : "") << std::endl; return true; } bool console_cmd__log__level(opt &out, const string_view &line) { const params param{line, " ", { "level", }}; if(!param.count()) { for(int i(0); i < num_of(); ++i) if(i > RB_LOG_LEVEL) out << "[\033[1;40m-\033[0m]: " << reflect(log::level(i)) << std::endl; else if(console_enabled(log::level(i))) out << "[\033[1;42m+\033[0m]: " << reflect(log::level(i)) << std::endl; else out << "[\033[1;41m-\033[0m]: " << reflect(log::level(i)) << std::endl; return true; } const int level { param.at(0) }; for(int i(0); i < num_of(); ++i) if(i > RB_LOG_LEVEL) { out << "[\033[1;40m-\033[0m]: " << reflect(log::level(i)) << std::endl; } else if(i <= level) { console_enable(log::level(i)); out << "[\033[1;42m+\033[0m]: " << reflect(log::level(i)) << std::endl; } else { console_disable(log::level(i)); out << "[\033[1;41m-\033[0m]: " << reflect(log::level(i)) << std::endl; } return true; } bool console_cmd__log__mask(opt &out, const string_view &line) { thread_local string_view list[64]; const auto &count { tokens(line, ' ', list) }; log::console_mask({list, count}); return true; } bool console_cmd__log__unmask(opt &out, const string_view &line) { thread_local string_view list[64]; const auto &count { tokens(line, ' ', list) }; log::console_unmask({list, count}); return true; } bool console_cmd__log__mark(opt &out, const string_view &line) { const string_view &msg { empty(line)? "marked by console": line }; log::mark { msg }; out << "The log files were marked with '" << msg << "'" << std::endl; return true; } bool console_cmd__mark(opt &out, const string_view &line) { return console_cmd__log__mark(out, line); } // // info // bool console_cmd__info(opt &out, const string_view &line) { info::dump(); out << "Daemon information was written to the log." << std::endl; return true; } bool console_cmd__uptime(opt &out, const string_view &line) { const seconds uptime { ircd::uptime() }; const hours uptime_h { uptime.count() / (60L * 60L) }; const minutes uptime_m { (uptime.count() / 60L) % 60L }; const minutes uptime_s { uptime.count() % 60L }; out << "Running for "; if(uptime_h.count()) out << uptime_h.count() << " hours "; if(uptime_m.count()) out << uptime_m.count() << " minutes "; out << uptime_s.count() << " seconds." << std::endl; return true; } bool console_cmd__date(opt &out, const string_view &line) { out << ircd::time() << std::endl; thread_local char buf[128]; const auto now{ircd::now()}; out << timef(buf, now, ircd::localtime) << std::endl; out << timef(buf, now) << " (UTC)" << std::endl; return true; } // // proc // bool console_cmd__proc(opt &out, const string_view &line) { const params param{line, " ", { "filename" }}; const auto filename { param.at("filename", ""_sv) }; static const auto prefix { "/proc/self/"_sv }; char pathbuf[128]; const string_view path{fmt::sprintf { pathbuf, "%s%s", prefix, filename }}; if(fs::is_dir(path)) { for(const auto &file : fs::ls(path)) out << lstrip(file, prefix) << (fs::is_dir(file)? "/" : "") << std::endl; return true; } fs::fd fd { path, std::ios::in }; fs::read_opts opts; opts.aio = false; opts.offset = 0; const unique_buffer buf { info::page_size }; string_view read; do { read = fs::read(fd, buf, opts); opts.offset += size(read); out << read; } while(!empty(read)); out << std::endl; return true; } // // mem // bool console_cmd__mem(opt &out, const string_view &line) { auto &this_thread { ircd::allocator::profile::this_thread }; out << "IRCd thread allocations:" << std::endl << "alloc count: " << this_thread.alloc_count << std::endl << "freed count: " << this_thread.free_count << std::endl << "alloc bytes: " << pretty(iec(this_thread.alloc_bytes)) << std::endl << "freed bytes: " << pretty(iec(this_thread.free_bytes)) << std::endl << std::endl; thread_local char buf[1024]; out << "malloc() information:" << std::endl << allocator::info(buf) << std::endl ; return true; } bool console_cmd__mem__trim(opt &out, const string_view &line) { const params param{line, " ", { "pad" }}; const size_t &pad { param.at("pad", 0UL) }; const auto ret { ircd::allocator::trim(pad) }; out << "malloc trim " << (ret? "was able to release some memory." : "did not release any memory.") << std::endl; return true; } // // env // bool console_cmd__env(opt &out, const string_view &line) { if(!::environ) throw error { "Env variable list not available." }; const params param{line, " ", { "key" }}; if(param["key"] == "*") { for(const char *const *e(::environ); *e; ++e) out << *e << std::endl; return true; } if(param["key"]) { out << util::getenv(param["key"]) << std::endl; return true; } for(const char *const *e(::environ); *e; ++e) { string_view kv[2]; tokens(*e, '=', kv); if(!startswith(kv[0], "IRCD_") && !startswith(kv[0], "ircd_")) continue; out << std::setw(64) << std::left << kv[0] << " :" << kv[1] << std::endl; } return true; } // // aio // bool console_cmd__aio(opt &out, const string_view &line) { if(!fs::aio::system) throw error { "AIO is not available." }; const auto &s { fs::aio::stats }; out << std::setw(12) << std::left << "requests" << std::setw(9) << std::right << s.requests << " " << pretty(iec(s.bytes_requests)) << std::endl; out << std::setw(12) << std::left << "requests cur" << std::setw(9) << std::right << (s.requests - s.complete) << " " << pretty(iec(s.bytes_requests - s.bytes_complete)) << std::endl; out << std::setw(12) << std::left << "requests que" << std::setw(9) << std::right << s.cur_queued << std::endl; out << std::setw(12) << std::left << "requests out" << std::setw(9) << std::right << s.cur_submits << std::endl; out << std::setw(12) << std::left << "requests avg" << std::setw(9) << std::right << "-" << " " << pretty(iec(s.bytes_requests / s.requests)) << std::endl; out << std::setw(12) << std::left << "requests max" << std::setw(9) << std::right << s.max_requests << std::endl; out << std::setw(12) << std::left << "reads" << std::setw(9) << std::right << s.reads << " " << pretty(iec(s.bytes_read)) << std::endl; out << std::setw(12) << std::left << "reads cur" << std::setw(9) << std::right << s.cur_reads << std::endl; out << std::setw(12) << std::left << "reads avg" << std::setw(9) << std::right << "-" << " " << pretty(iec(s.bytes_read / s.reads)) << std::endl; out << std::setw(12) << std::left << "reads max" << std::setw(9) << std::right << s.max_reads << std::endl; out << std::setw(12) << std::left << "writes" << std::setw(9) << std::right << s.writes << " " << pretty(iec(s.bytes_write)) << std::endl; out << std::setw(12) << std::left << "writes cur" << std::setw(9) << std::right << s.cur_writes << " " << pretty(iec(s.cur_bytes_write)) << std::endl; out << std::setw(12) << std::left << "writes avg" << std::setw(9) << std::right << "-" << " " << pretty(iec(s.bytes_write / s.writes)) << std::endl; out << std::setw(12) << std::left << "writes max" << std::setw(9) << std::right << s.max_writes << std::endl; out << std::setw(12) << std::left << "errors" << std::setw(9) << std::right << s.errors << " " << pretty(iec(s.bytes_errors)) << std::endl; out << std::setw(12) << std::left << "cancel" << std::setw(9) << std::right << s.cancel << " " << pretty(iec(s.bytes_cancel)) << std::endl; out << std::setw(12) << std::left << "handles" << std::setw(9) << std::right << s.handles << std::endl; out << std::setw(12) << std::left << "events" << std::setw(9) << std::right << s.events << std::endl; out << std::setw(12) << std::left << "submits" << std::setw(9) << std::right << s.submits << std::endl; return true; } // // conf // bool console_cmd__conf__list(opt &out, const string_view &line) { thread_local char val[4_KiB]; for(const auto &item : conf::items) out << std::setw(48) << std::left << std::setfill('_') << item.first << " " << item.second->get(val) << "\033[0m" << std::endl; return true; } bool console_cmd__conf(opt &out, const string_view &line) { return console_cmd__conf__list(out, line); } bool console_cmd__conf__set(opt &out, const string_view &line) { const params param{line, " ", { "key", "value" }}; const auto &key { param.at(0) }; const auto &val { param.at(1) }; using prototype = m::event::id::buf (const m::user::id &, const string_view &key, const string_view &val); static mods::import set_conf_item { "s_conf", "set_conf_item" }; const auto event_id { set_conf_item(m::me, key, val) }; out << event_id << " <- " << key << " = " << val << std::endl; return true; } bool console_cmd__conf__get(opt &out, const string_view &line) { const params param{line, " ", { "key" }}; const auto &key { param.at(0) }; thread_local char val[4_KiB]; for(const auto &item : conf::items) { if(item.first != key) continue; out << std::setw(48) << std::right << item.first << " = " << item.second->get(val) << std::endl; return true; } throw m::NOT_FOUND { "Conf item '%s' not found", key }; } bool console_cmd__conf__rehash(opt &out, const string_view &line) { const params param{line, " ", { "prefix", "force" }}; using prototype = void (const string_view &, const bool &); static mods::import rehash_conf { "s_conf", "rehash_conf" }; string_view prefix { param.at("prefix", "*"_sv) }; if(prefix == "*") prefix = string_view{}; const bool force { param["force"] == "force" }; rehash_conf(prefix, force); out << "Saved runtime conf items" << (prefix? " with the prefix "_sv : string_view{}) << (prefix? prefix : string_view{}) << " from the current state into !conf:" << my_host() << std::endl; return true; } bool console_cmd__conf__default(opt &out, const string_view &line) { const params param{line, " ", { "prefix" }}; using prototype = void (const string_view &); static mods::import default_conf { "s_conf", "default_conf" }; string_view prefix { param.at("prefix", "*"_sv) }; if(prefix == "*") prefix = string_view{}; default_conf(prefix); out << "Set runtime conf items" << (prefix? " with the prefix "_sv : string_view{}) << (prefix? prefix : string_view{}) << " to their default value." << std::endl << "Note: These values must be saved with the rehash command" << " to survive a restart/reload." << std::endl; return true; } bool console_cmd__conf__reload(opt &out, const string_view &line) { using prototype = void (); static mods::import reload_conf { "s_conf", "reload_conf" }; reload_conf(); out << "Updated any runtime conf items" << " from the current state in !conf:" << my_host() << std::endl; return true; } bool console_cmd__conf__reset(opt &out, const string_view &line) { using prototype = void (); static mods::import refresh_conf { "s_conf", "refresh_conf" }; refresh_conf(); out << "All conf items which execute code upon a change" << " have done so with the latest runtime value." << std::endl; return true; } // // hook // bool console_cmd__hook__list(opt &out, const string_view &line) { for(const auto &site : m::hook::base::site::list) { out << std::setw(24) << std::left << site->name() << std::endl; out << string_view{site->feature} << std::endl; for(const auto &hookp : site->hooks) out << (hookp->registered? '+' : '-') << " " << string_view{hookp->feature} << std::endl; out << std::endl; } return true; } bool console_cmd__hook(opt &out, const string_view &line) { return console_cmd__hook__list(out, line); } // // mod // bool console_cmd__mod(opt &out, const string_view &line) { auto avflist(mods::available()); const auto b(std::make_move_iterator(begin(avflist))); const auto e(std::make_move_iterator(end(avflist))); std::vector available(b, e); std::sort(begin(available), end(available)); for(const auto &mod : available) { const auto loadstr { mods::loaded(mod)? "\033[1;32;42m+\033[0m" : " " }; out << "[" << loadstr << "] " << mod << std::endl; } return true; } bool console_cmd__mod__path(opt &out, const string_view &line) { for(const auto &path : ircd::mods::paths) out << path << std::endl; return true; } bool console_cmd__mod__syms(opt &out, const string_view &line) { const std::string path { token(line, ' ', 0) }; const std::vector symbols { mods::symbols(path) }; for(const auto &sym : symbols) out << sym << std::endl; out << " -- " << symbols.size() << " symbols in " << path << std::endl; return true; } bool console_cmd__mod__reload(opt &out, const string_view &line) { const auto names { tokens(line, ' ') }; for(auto it(names.begin()); it != names.end(); ++it) { const auto &name{*it}; if(mods::imports.erase(std::string{name})) out << name << " unloaded." << std::endl; else out << name << " is not loaded." << std::endl; } for(auto it(names.rbegin()); it != names.rend(); ++it) { const auto &name{*it}; if(mods::imports.emplace(std::string{name}, name).second) out << name << " loaded." << std::endl; else out << name << " is already loaded." << std::endl; } return true; } bool console_cmd__mod__load(opt &out, const string_view &line) { tokens(line, ' ', [&out] (const string_view &name) { if(mods::imports.find(name) != end(mods::imports)) { out << name << " is already loaded." << std::endl; return; } mods::imports.emplace(std::string{name}, name); out << name << " loaded." << std::endl; }); return true; } bool console_cmd__mod__unload(opt &out, const string_view &line) { tokens(line, ' ', [&out] (const string_view &name) { if(!mods::imports.erase(std::string{name})) { out << name << " is not loaded." << std::endl; return; } out << "unloaded " << name << std::endl; }); return true; } // // ctx // bool console_cmd__ctx__interrupt(opt &out, const string_view &line) { const params param{line, " ", { "id", "[id]..." }}; for(size_t i(0); i < param.count(); ++i) for(auto *const &ctx : ctx::ctxs) if(id(*ctx) == param.at(i)) { interrupt(*ctx); break; } return true; } bool console_cmd__ctx__prof(opt &out, const string_view &line) { const params param{line, " ", { "id", }}; const auto display{[&out] (const ctx::prof::ticker &t) { for_each([&out, &t] (const auto &event) { out << std::left << std::setw(15) << std::setfill('_') << reflect(event) << " " << t.event.at(uint8_t(event)) << std::endl; }); out << std::left << std::setw(15) << std::setfill('_') << "cycles" << " " << t.cycles << std::endl; }}; if(!param["id"]) { out << "Profile totals for all contexts:\n" << std::endl; display(ctx::prof::get()); return true; } for(size_t i(0); i < param.count(); ++i) for(auto *const &ctx : ctx::ctxs) if(id(*ctx) == param.at(i)) { out << "Profile for ctx:" << id(*ctx) << " '" << name(*ctx) << "':\n" << std::endl; display(ctx::prof::get(*ctx)); break; } return true; } bool console_cmd__ctx__term(opt &out, const string_view &line) { const params param{line, " ", { "id", "[id]..." }}; for(size_t i(0); i < param.count(); ++i) for(auto *const &ctx : ctx::ctxs) if(id(*ctx) == param.at(i)) { terminate(*ctx); break; } return true; } bool console_cmd__ctx__list(opt &out, const string_view &line) { out << " " << "ID" << " " << "STATE" << " " << "YIELDS" << " " << "CYCLE COUNT" << " " << "PCT" << " " << "STACK " << " " << "LIMIT" << " " << "PCT" << " " << ":NAME" << std::endl; for(const auto *const &ctxp : ctx::ctxs) { const auto &ctx{*ctxp}; out << std::setw(5) << std::right << id(ctx); out << " " << (started(ctx)? 'S' : '-') << (running(ctx)? 'R' : '-') << (waiting(ctx)? 'W' : '-') << (finished(ctx)? 'F' : '-') << (interruptible(ctx)? '-' : 'N') << (interruption(ctx)? 'I' : '-') << (termination(ctx)? 'T' : '-') ; out << " " << std::setw(8) << std::right << yields(ctx) << " "; out << " " << std::setw(15) << std::right << cycles(ctx) << " "; const long double total_cyc(ctx::prof::get().cycles); const auto tsc_pct { total_cyc > 0.0? (cycles(ctx) / total_cyc) : 0.0L }; out << " " << std::setw(5) << std::right << std::fixed << std::setprecision(2) << (tsc_pct * 100) << "% "; out << " " << std::setw(7) << std::right << stack_at(ctx) << " "; out << " " << std::setw(7) << std::right << stack_max(ctx) << " "; const auto stack_pct { stack_at(ctx) / (long double)stack_max(ctx) }; out << " " << std::setw(5) << std::right << std::fixed << std::setprecision(2) << (stack_pct * 100) << "% "; out << " :" << name(ctx); out << std::endl; } return true; } bool console_cmd__ctx(opt &out, const string_view &line) { if(empty(line)) return console_cmd__ctx__list(out, line); return true; } // // db // bool console_cmd__db__compressions(opt &out, const string_view &line) { out << "Available compressions:" << std::endl << std::endl; for(const auto &name : db::compressions) if(!name.empty()) out << name << std::endl; return true; } bool console_cmd__db__pause(opt &out, const string_view &line) try { const params param{line, " ", { "dbname", }}; const auto dbname { param.at(0) }; auto &database { db::database::get(dbname) }; bgpause(database); out << "Paused background jobs for '" << dbname << "'" << std::endl; return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__continue(opt &out, const string_view &line) try { const params param{line, " ", { "dbname", }}; const auto dbname { param.at(0) }; auto &database { db::database::get(dbname) }; bgcontinue(database); out << "Resumed background jobs for '" << dbname << "'" << std::endl; return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__cancel(opt &out, const string_view &line) try { const params param{line, " ", { "dbname", }}; const auto dbname { param.at(0) }; auto &database { db::database::get(dbname) }; bgcancel(database); out << "canceld background jobs for '" << dbname << "'" << std::endl; return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__sync(opt &out, const string_view &line) try { const params param{line, " ", { "dbname", }}; const auto dbname { param.at(0) }; auto &database { db::database::get(dbname) }; sync(database); out << "done" << std::endl; return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__loglevel(opt &out, const string_view &line) try { const params param{line, " ", { "dbname", "level" }}; const auto dbname { param.at("dbname") }; auto &database { db::database::get(dbname) }; if(param.count() == 1) { out << reflect(loglevel(database)) << std::endl; return true; } const log::level &lev { log::reflect(param.at("level")) }; loglevel(database, lev); out << "set logging level of '" << name(database) << "'" << " database to '" << reflect(lev) << "'" << std::endl; return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__flush(opt &out, const string_view &line) try { const params param{line, " ", { "dbname", "[sync]" }}; const auto dbname { param.at(0) }; const auto sync { param.at(1, false) }; auto &database { db::database::get(dbname) }; flush(database, sync); out << "done" << std::endl; return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__sort(opt &out, const string_view &line) try { const params param{line, " ", { "dbname", "column", "[blocking]", "[now]" }}; const auto dbname { param.at(0) }; const auto colname { param.at("column", "*"_sv) }; const auto blocking { param.at("[blocking]", true) }; const auto now { param.at("[now]", true) }; auto &database { db::database::get(dbname) }; if(colname == "*") { db::sort(database, blocking, now); out << "done" << std::endl; return true; } db::column column { database, colname }; db::sort(column, blocking, now); out << "done" << std::endl; return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__compact(opt &out, const string_view &line) try { const params param{line, " ", { "dbname", "[colname]", "[begin]", "[end]", "[level]" }}; const auto dbname { param.at(0) }; const auto colname { param[1] }; const auto level { param.at(2, -1) }; const auto begin { param[3] }; const auto end { param[4] }; auto &database { db::database::get(dbname) }; if(!colname) { compact(database); out << "done" << std::endl; return true; } const bool integer { begin? try_lex_cast(begin) : false }; const uint64_t integers[2] { integer? lex_cast(begin) : 0, integer && end? lex_cast(end) : 0 }; const std::pair range { integer? byte_view(integers[0]) : begin, integer && end? byte_view(integers[1]) : end, }; const auto compact_column{[&out, &database, &level, &range] (const string_view &colname) { db::column column { database, colname }; compact(column, range, level); }}; if(colname != "*") compact_column(colname); else for(const auto &column : database.columns) compact_column(name(*column)); out << "done" << std::endl; return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__compact__files(opt &out, const string_view &line) try { const params param{line, " ", { "dbname", "[colname]", "[srclevel]", "[dstlevel]" }}; const auto dbname { param.at(0) }; const auto colname { param[1] }; const std::pair level { param.at(2, -1), param.at(3, -1) }; auto &database { db::database::get(dbname) }; if(!colname) { compact(database, level); out << "done" << std::endl; return true; } const auto compact_column{[&out, &database, &level] (const string_view &colname) { db::column column { database, colname }; compact(column, level); }}; if(colname != "*") compact_column(colname); else for(const auto &column : database.columns) compact_column(name(*column)); out << "done" << std::endl; return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__resume(opt &out, const string_view &line) try { const params param{line, " ", { "dbname", }}; const auto dbname { param.at("dbname") }; auto &database { db::database::get(dbname) }; resume(database); out << "resumed database " << dbname << std::endl; return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__errors(opt &out, const string_view &line) try { const params param{line, " ", { "dbname", }}; const auto dbname { param.at("dbname") }; auto &database { db::database::get(dbname) }; const auto &errors { db::errors(database) }; size_t i(0); for(const auto &error : errors) out << std::setw(2) << std::left << (i++) << ':' << error << std::endl; return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__ticker(opt &out, const string_view &line) try { const params param{line, " ", { "dbname", "[ticker]" }}; const auto dbname { param.at(0) }; const auto ticker { param[1] }; auto &database { db::database::get(dbname) }; // Special branch for integer properties that RocksDB aggregates. if(ticker && ticker != "-a") { out << ticker << ": " << db::ticker(database, ticker) << std::endl; return true; } for(uint32_t i(0); i < db::ticker_max; ++i) { const string_view &name { db::ticker_id(i) }; if(!name) continue; const auto &val { db::ticker(database, i) }; if(val == 0 && ticker != "-a") continue; out << std::left << std::setw(48) << std::setfill('_') << name << " " << val << std::endl; } for(uint32_t i(0); i < db::histogram_max; ++i) { const string_view &name { db::histogram_id(i) }; if(!name) continue; const auto &val { db::histogram(database, i) }; if(!(val.max > 0.0) && ticker != "-a") continue; out << std::left << std::setw(48) << std::setfill('_') << name << std::setfill(' ') << std::right << " " << std::setw(9) << val.hits << " hit " << " " << std::setw(13) << val.time << " tot " << " " << std::setw(12) << uint64_t(val.max) << " max " << " " << std::setw(10) << uint64_t(val.median) << " med " << " " << std::setw(9) << uint64_t(val.avg) << " avg " << " " << std::setw(10) << val.stddev << " dev " << " " << std::setw(10) << val.pct95 << " p95 " << " " << std::setw(10) << val.pct99 << " p99 " << std::endl; } return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__io(opt &out, const string_view &line) { const auto &ic { db::iostats_current() }; out << db::string(ic) << std::endl; return true; } bool console_cmd__db__perf(opt &out, const string_view &line) { const auto &pc { db::perf_current() }; out << db::string(pc) << std::endl; return true; } bool console_cmd__db__perf__level(opt &out, const string_view &line) { const params param{line, " ", { "[level]" }}; if(!param.count()) { const auto &level { db::perf_level() }; out << "Current level is: " << level << std::endl; return true; } const auto &level { param.at(0) }; db::perf_level(level); out << "Set level to: " << level << std::endl; return true; } bool console_cmd__db__prop(opt &out, const string_view &line) try { const params param{line, " ", { "dbname", "column", "property" }}; const auto dbname { param.at(0) }; const auto colname { param.at(1, "*"_sv) }; const auto property { param.at(2) }; auto &database { db::database::get(dbname) }; // Special branch for integer properties that RocksDB aggregates. if(colname == "*") { const uint64_t value { db::property(database, property) }; out << value << std::endl; return true; } const auto query{[&out, &database, &property] (const string_view &colname) { const db::column column { database, colname }; const auto value { db::property(column, property) }; for(const auto &p : value) out << p.first << " : " << p.second << std::endl; }}; // Branch for querying the property for a single column if(colname != "**") { query(colname); return true; } // Querying the property for all columns in a loop for(const auto &column : database.columns) { out << std::setw(16) << std::right << name(*column) << " : "; query(name(*column)); } return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__cache(opt &out, const string_view &line) try { const params param{line, " ", { "dbname", "column", }}; const auto dbname { param.at(0) }; auto colname { param[1] }; auto &database { db::database::get(dbname) }; struct stats { size_t usage; size_t pinned; size_t capacity; size_t hits; size_t misses; size_t inserts; size_t inserts_bytes; stats &operator+=(const stats &b) { usage += b.usage; pinned += b.pinned; capacity += b.capacity; hits += b.hits; misses += b.misses; inserts += b.inserts; inserts_bytes += b.inserts_bytes; return *this; } }; if(!colname) { const auto usage(db::usage(cache(database))); const auto pinned(db::pinned(cache(database))); const auto capacity(db::capacity(cache(database))); const auto usage_pct { capacity > 0.0? (double(usage) / double(capacity)) : 0.0L }; const auto hits(db::ticker(cache(database), db::ticker_id("rocksdb.block.cache.hit"))); const auto misses(db::ticker(cache(database), db::ticker_id("rocksdb.block.cache.miss"))); const auto inserts(db::ticker(cache(database), db::ticker_id("rocksdb.block.cache.add"))); const auto inserts_bytes(db::ticker(cache(database), db::ticker_id("rocksdb.block.cache.data.bytes.insert"))); out << std::left << std::setw(16) << "ROW" << std::right << " " << std::setw(7) << "PCT" << " " << std::setw(9) << "HITS" << " " << std::setw(9) << "MISSES" << " " << std::setw(9) << "INSERT" << " " << std::setw(26) << "CACHED" << " " << std::setw(26) << "CAPACITY" << " " << std::setw(26) << "INSERT TOTAL" << " " << std::setw(20) << "LOCKED" << " " << std::endl; out << std::left << std::setw(16) << "*" << std::right << " " << std::setw(6) << std::right << std::fixed << std::setprecision(2) << (usage_pct * 100) << "%" << " " << std::setw(9) << hits << " " << std::setw(9) << misses << " " << std::setw(9) << inserts << " " << std::setw(26) << std::right << pretty(iec(usage)) << " " << std::setw(26) << std::right << pretty(iec(capacity)) << " " << std::setw(26) << std::right << pretty(iec(inserts_bytes)) << " " << std::setw(20) << std::right << pretty(iec(pinned)) << " " << std::endl << std::endl; // Now set the colname to * so the column total branch is taken // below and we output that line too. colname = "*"; } out << std::left << std::setw(16) << "COLUMN" << std::right << " " << std::setw(7) << "PCT" << " " << std::setw(9) << "HITS" << " " << std::setw(9) << "MISSES" << " " << std::setw(9) << "INSERT" << " " << std::setw(26) << "CACHED" << " " << std::setw(26) << "CAPACITY" << " " << std::setw(26) << "INSERT TOTAL" << " " << std::setw(20) << "LOCKED" << " " << std::endl; //TODO: compressed cache reenable /* << "|" << std::setw(9) << "HITS" << " " << std::setw(9) << "INSERTS" << " " << std::setw(26) << "COMPRESSED CACHED" << " " << std::setw(26) << "COMPRESSED CAPACITY" << " " << std::setw(7) << "PCT" << " " << std::endl; */ const auto output{[&out] (const string_view &column_name, const stats &s, const stats &comp) { const auto pct { s.capacity > 0.0? (double(s.usage) / double(s.capacity)) : 0.0L }; const auto pct_comp { comp.capacity > 0.0? (double(comp.usage) / double(comp.capacity)) : 0.0L }; out << std::setw(16) << std::left << column_name << std::right << " " << std::setw(6) << std::right << std::fixed << std::setprecision(2) << (pct * 100) << '%' << " " << std::setw(9) << s.hits << " " << std::setw(9) << s.misses << " " << std::setw(9) << s.inserts << " " << std::setw(26) << std::right << pretty(iec(s.usage)) << " " << std::setw(26) << std::right << pretty(iec(s.capacity)) << " " << std::setw(26) << pretty(iec(s.inserts_bytes)) << " " << std::setw(20) << std::right << pretty(iec(s.pinned)) << " "; //TODO: compressed cache reenable if(1) { out << std::endl; return; } out << "|" << std::setw(9) << comp.hits << " " << std::setw(9) << comp.inserts << " " << std::setw(26) << std::right << pretty(iec(comp.usage)) << " " << std::setw(26) << std::right << pretty(iec(comp.capacity)) << " " << std::setw(6) << std::right << std::fixed << std::setprecision(2) << (pct_comp * 100) << '%' << " " << std::endl; }}; const auto query{[&database] (const string_view &colname, const auto &output) { const db::column column { database, colname }; const stats s { db::usage(cache(column)), db::pinned(cache(column)), db::capacity(cache(column)), db::ticker(cache(column), db::ticker_id("rocksdb.block.cache.hit")), db::ticker(cache(column), db::ticker_id("rocksdb.block.cache.miss")), db::ticker(cache(column), db::ticker_id("rocksdb.block.cache.add")), db::ticker(cache(column), db::ticker_id("rocksdb.block.cache.data.bytes.insert")), }; const stats comp { db::usage(cache_compressed(column)), 0, db::capacity(cache_compressed(column)), db::ticker(cache_compressed(column), db::ticker_id("rocksdb.block.cache.hit")), 0, db::ticker(cache_compressed(column), db::ticker_id("rocksdb.block.cache.add")), 0 }; output(colname, s, comp); }}; // Querying the totals for all caches for all columns in a loop if(colname == "*") { stats s_total{0}, comp_total{0}; for(const auto &column : database.columns) query(name(*column), [&](const auto &column, const auto &s, const auto &comp) { s_total += s; comp_total += comp; }); output("*", s_total, comp_total); return true; } // Query the cache for a single column if(colname != "**") { query(colname, output); return true; } // Querying the cache for all columns in a loop for(const auto &column : database.columns) query(name(*column), output); return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__cache__clear(opt &out, const string_view &line) try { const params param{line, " ", { "dbname", "column", "[key]" }}; const auto &dbname { param.at(0) }; const auto &colname { param[1] }; const auto &key { param[2] }; auto &database { db::database::get(dbname) }; const auto clear{[&out, &database] (const string_view &colname) { db::column column { database, colname }; db::clear(cache(column)); db::clear(cache_compressed(column)); out << "Cleared caches for '" << name(database) << "' '" << colname << "'" << std::endl; }}; const auto remove{[&out, &database] (const string_view &colname, const string_view &key) { db::column column { database, colname }; const bool removed[] { db::remove(cache(column), key), db::remove(cache_compressed(column), key) }; out << "Removed key from"; if(removed[0]) out << " [uncompressed cache]"; if(removed[1]) out << " [compressed cache]"; out << std::endl; }}; if(!colname || colname == "**") { for(const auto &column : database.columns) clear(name(*column)); return true; } if(!key) { clear(colname); return true; } remove(colname, key); return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__cache__fetch(opt &out, const string_view &line) try { const params param{line, " ", { "dbname", "column", "key" }}; const auto dbname { param.at(0) }; const auto colname { param[1] }; const auto key { param[2] }; auto &database { db::database::get(dbname) }; db::column column { database, colname }; db::has(column, key); return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__stats(opt &out, const string_view &line) { const params param{line, " ", { "dbname", "column" }}; return console_cmd__db__prop(out, fmt::snstringf { 1024, "%s %s rocksdb.stats", param.at(0), param.at(1) }); } bool console_cmd__db__set(opt &out, const string_view &line) try { const params param{line, " ", { "dbname", "column", "option", "value" }}; const auto dbname { param.at(0) }; const auto colname { param.at(1, "*"_sv) }; const auto option { param.at(2) }; const auto value { param.at(3) }; auto &database { db::database::get(dbname) }; // Special branch for DBOptions if(colname == "*") { db::setopt(database, option, value); out << "done" << std::endl; return true; } const auto setopt{[&out, &database, &option, &value] (const string_view &colname) { db::column column { database, colname }; db::setopt(column, option, value); out << colname << " :done" << std::endl; }}; // Branch for querying the property for a single column if(colname != "**") { setopt(colname); return true; } // Querying the property for all columns in a loop for(const auto &column : database.columns) setopt(name(*column)); return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__ingest(opt &out, const string_view &line) try { const params param{line, " ", { "dbname", "column", "path" }}; const auto dbname { param.at("dbname") }; const auto colname { param.at("column") }; const auto path { param.at("path") }; auto &database { db::database::get(dbname) }; db::column column { database, colname }; db::ingest(column, path); return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } static void _print_sst_info_header(opt &out) { out << std::left << std::setfill(' ') << std::setw(12) << "name" << " " << std::setw(32) << "creation" << std::right << " " << std::setw(23) << "key range" << " " << std::setw(23) << "sequence number" << " " << std::setw(3) << "lev" << std::left << " " << std::setw(24) << "file size" << std::right << " " << std::setw(6) << "idxs" << " " << std::setw(9) << "blocks" << " " << std::setw(9) << "entries" << " " << std::setw(4) << "cfid" << std::left << " " << std::setw(20) << "column" << std::endl; } static void _print_sst_info(opt &out, const db::database::sst::info &f) { const uint64_t &min_key { f.min_key.size() == 8? uint64_t(byte_view(f.min_key)): 0UL }; const uint64_t &max_key { f.max_key.size() == 8? uint64_t(byte_view(f.max_key)): 0UL }; out << std::left << std::setfill(' ') << std::setw(12) << f.name << " " << std::setw(32) << std::left << timestr(f.created, ircd::localtime) << " " << std::setw(10) << std::right << min_key << " : " << std::setw(10) << std::left << max_key << " " << std::setw(10) << std::right << f.min_seq << " : " << std::setw(10) << std::left << f.max_seq << " " << std::setw(3) << std::right << f.level << " " << std::setw(24) << std::left << pretty(iec(f.size)) << " " << std::setw(6) << std::right << f.index_parts << " " << std::setw(9) << std::right << f.data_blocks << " " << std::setw(9) << std::right << f.entries << " " << std::setw(4) << std::right << f.cfid << " " << std::setw(20) << std::left << f.column << std::endl; } static void _print_sst_info_full(opt &out, const db::database::sst::info &f) { const uint64_t &min_key { f.min_key.size() == 8? uint64_t(byte_view(f.min_key)): 0UL }; const uint64_t &max_key { f.max_key.size() == 8? uint64_t(byte_view(f.max_key)): 0UL }; const auto closeout{[&out] (const string_view &name, const auto &closure) { out << std::left << std::setw(40) << std::setfill('_') << name << " "; closure(out); out << std::endl; }}; const auto close_auto{[&closeout] (const string_view &name, const auto &value) { closeout(name, [&value](opt &out) { out << value; }); }}; const auto close_size{[&closeout] (const string_view &name, const size_t &value) { closeout(name, [&value](opt &out) { out << pretty(iec(value)); }); }}; close_auto("name", f.name); close_auto("directory", f.path); close_auto("column ID", f.cfid); close_auto("column", f.column); close_auto("format", f.format); close_auto("version", f.version); close_auto("comparator", f.comparator); close_auto("merge operator", f.merge_operator); close_auto("prefix extractor", f.prefix_extractor); close_size("file size", f.size); close_auto("creation", timestr(f.created, ircd::localtime)); close_auto("level", f.level); close_auto("lowest sequence", f.min_seq); close_auto("highest sequence", f.max_seq); close_auto("lowest key", min_key); close_auto("highest key", max_key); close_auto("fixed key length", f.fixed_key_len); close_auto("range deletes", f.range_deletes); close_auto("compacting", f.compacting? "yes"_sv : "no"_sv); close_auto("compression", f.compression); close_auto("", ""); const auto blocks_size{f.keys_size + f.values_size}; const auto index_size{f.index_size + f.top_index_size}; const auto overhead_size{index_size + f.filter_size}; const auto file_size{overhead_size + blocks_size}; close_size("size", file_size); close_size("head size", overhead_size); close_size("data size", f.data_size); close_size("data blocks average size", f.data_size / double(f.data_blocks)); close_auto("data compression percent", 100 - 100.0L * (f.data_size / double(blocks_size))); close_auto("", ""); close_size("index size", index_size); close_size("index root size", f.top_index_size); close_auto("index data blocks", f.index_parts); close_size("index data size", f.index_size); close_size("index data block average size", f.index_size / double(f.index_parts)); close_size("index data average per-key", f.index_size / double(f.entries)); close_size("index data average per-block", f.index_size / double(f.data_blocks)); close_auto("index root percent of index", 100.0 * (f.top_index_size / double(f.index_size))); close_auto("index data percent of keys", 100.0 * (f.index_size / double(f.keys_size))); close_auto("index data percent of values", 100.0 * (f.index_size / double(f.values_size))); close_auto("index data percent of data", 100.0 * (f.index_size / double(f.data_size))); close_auto("", ""); close_auto("filter", f.filter); close_size("filter size", f.filter_size); close_auto("filter average per-key", f.filter_size / double(f.entries)); close_auto("filter average per-block", f.filter_size / double(f.data_blocks)); close_auto("filter percent of index", 100.0 * (f.filter_size / double(f.index_size))); close_auto("filter percent of data", 100.0 * (f.filter_size / double(f.data_size))); close_auto("filter percent of keys", 100.0 * (f.filter_size / double(f.keys_size))); close_auto("filter percent of values", 100.0 * (f.filter_size / double(f.values_size))); close_auto("", ""); close_auto("blocks", f.data_blocks); close_size("blocks size", blocks_size); close_size("blocks average size", blocks_size / double(f.data_blocks)); close_auto("blocks percent of keys", 100.0 * (f.data_blocks / double(f.entries))); close_auto("", ""); close_auto("keys", f.entries); close_size("keys size", f.keys_size); close_size("keys average size", f.keys_size / double(f.entries)); close_auto("keys percent of values", 100.0 * (f.keys_size / double(f.values_size))); close_auto("keys average per-block", f.entries / double(f.data_blocks)); close_auto("keys average per-index", f.entries / double(f.index_parts)); close_auto("", ""); close_auto("values", f.entries); close_size("values size", f.values_size); close_size("values average size", f.values_size / double(f.entries)); close_size("values average size per-block", f.values_size / double(f.data_blocks)); close_auto("", ""); } bool console_cmd__db__sst(opt &out, const string_view &line) { string_view buf[16]; const vector_view args { buf, tokens(line, " ", buf) }; db::database::sst::tool(args); return true; } bool console_cmd__db__sst__dump(opt &out, const string_view &line) { const params param{line, " ", { "dbname", "column", "begin", "end", "path" }}; const auto dbname { param.at("dbname") }; const auto colname { param.at("column", "*"_sv) }; const auto begin { param["begin"] }; const auto end { param["end"] }; const auto path { param["path"] }; auto &database { db::database::get(dbname) }; _print_sst_info_header(out); const auto do_dump{[&](const string_view &colname) { db::column column { database, colname }; const db::database::sst::dump dump { column, {begin, end}, path }; _print_sst_info(out, dump.info); }}; if(colname != "*") { do_dump(colname); return true; } for(const auto &column : database.columns) do_dump(name(*column)); return true; } bool console_cmd__db__wal(opt &out, const string_view &line) try { const params param{line, " ", { "dbname", }}; const auto dbname { param.at("dbname") }; auto &database { db::database::get(dbname) }; const db::database::wal::info::vector vec { database }; out << std::setw(12) << std::left << "PATH" << " " << std::setw(8) << std::left << "ID" << " " << std::setw(12) << std::right << "START SEQ" << " " << std::setw(20) << std::left << "SIZE" << " " << std::setw(8) << std::left << "STATUS" << " " << std::endl; for(const auto &info : vec) out << std::setw(12) << std::left << info.name << " " << std::setw(8) << std::left << info.number << " " << std::setw(12) << std::right << info.seq << " " << std::setw(20) << std::left << pretty(iec(info.size)) << " " << std::setw(8) << std::left << (info.alive? "LIVE"_sv : "ARCHIVE"_sv) << " " << std::endl; return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__files(opt &out, const string_view &line) try { const params param{line, " ", { "dbname", "column" }}; const auto dbname { param.at("dbname") }; const auto colname { param.at("column", "*"_sv) }; auto &database { db::database::get(dbname) }; if(colname == "*") { const auto fileinfos { db::database::sst::info::vector(database) }; _print_sst_info_header(out); for(const auto &fileinfo : fileinfos) _print_sst_info(out, fileinfo); out << "-- " << fileinfos.size() << " files" << std::endl; return true; } if(startswith(colname, "/")) { const db::database::sst::info info{database, colname}; _print_sst_info_full(out, info); return true; } const db::column column { database, colname }; const db::database::sst::info::vector vector{column}; _print_sst_info_header(out); for(const auto &info : vector) _print_sst_info(out, info); const size_t total_bytes { std::accumulate(begin(vector), end(vector), size_t(0), [] (auto ret, const auto &info) { return ret += info.size; }) }; out << "-- " << pretty(iec(total_bytes)) << " in " << vector.size() << " files" << std::endl; return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__bytes(opt &out, const string_view &line) try { const params param{line, " ", { "dbname", "column" }}; auto &database { db::database::get(param.at(0)) }; if(!param[1] || param[1] == "*") { const auto bytes { db::bytes(database) }; out << bytes << std::endl; return true; } const auto query{[&out, &database] (const string_view &colname) { const db::column column { database, colname }; const auto value { db::bytes(column) }; out << std::setw(16) << std::right << colname << " : " << value << std::endl; }}; if(param[1] != "**") { query(param.at(1)); return true; } for(const auto &column : database.columns) query(name(*column)); return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__txns(opt &out, const string_view &line) try { const params param{line, " ", { "dbname", "seqnum", "limit" }}; const auto dbname { param.at("dbname") }; if(dbname != "events") throw error { "Sorry, this command is specific to the events db for now." }; auto &database { db::database::get(dbname) }; const auto cur_seq { db::sequence(database) }; const auto seqnum { param.at("seqnum", cur_seq) }; const auto limit { param.at("limit", 32L) }; // note that we decrement the sequence number here optimistically // based on the number of possible entries in a txn. There are likely // fewer entries in a txn thus we will be missing the latest txns or // outputting more txns than the limit. We choose the latter here. const auto start { std::max(seqnum - limit * ssize_t(database.columns.size()), 0L) }; for_each(database, start, db::seq_closure_bool{[&out, &seqnum] (db::txn &txn, const int64_t &_seqnum) -> bool { m::event::id::buf event_id; txn.get(db::op::SET, "event_id", [&event_id] (const db::delta &delta) { event_id = m::event::id { std::get(delta) }; }); if(!event_id) return true; out << std::setw(12) << std::right << _seqnum << " : " << string_view{event_id} << std::endl; return _seqnum <= seqnum; }}); return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__txn(opt &out, const string_view &line) try { const auto dbname { token(line, ' ', 0) }; if(dbname != "events") throw error { "Sorry, this command is specific to the events db for now." }; const auto seqnum { lex_cast(token(line, ' ', 1, "0")) }; auto &database { db::database::get(dbname) }; get(database, seqnum, db::seq_closure{[&out] (db::txn &txn, const uint64_t &seqnum) { for_each(txn, [&out, &seqnum] (const db::delta &delta) { const string_view &dkey { std::get(delta) }; // !!! Assumption based on the events database schema. If the // key is 8 bytes we assume it's an event::idx in binary. No // other columns have 8 byte keys; instead they have plaintext // event_id amalgams with some binary characters which are simply // not displayed by the ostream. We could have a switch here to // use m::dbs's key parsers based on the column name but that is // not done here yet. const string_view &key { dkey.size() == 8? lex_cast(uint64_t(byte_view(dkey))): dkey }; out << std::setw(12) << std::right << seqnum << " : " << std::setw(8) << std::left << reflect(std::get(delta)) << " " << std::setw(18) << std::right << std::get(delta) << " " << key << std::endl; }); }}); return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__checkpoint(opt &out, const string_view &line) try { const auto dbname { token(line, ' ', 0) }; auto &database { db::database::get(dbname) }; const auto seqnum { checkpoint(database) }; out << "Checkpoint " << name(database) << " at sequence " << seqnum << " complete." << std::endl; return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__check(opt &out, const string_view &line) try { const auto dbname { token(line, ' ', 0) }; auto &database { db::database::get(dbname) }; check(database); out << "Check of " << dbname << " completed without error." << std::endl; return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__DROP__DROP__DROP(opt &out, const string_view &line) try { const params param{line, " ", { "dbname", "column" }}; const auto dbname { param.at("dbname") }; const auto colname { param.at("column") }; auto &database { db::database::get(dbname) }; db::column column { database, colname }; db::drop(column); out << "DROPPED COLUMN " << colname << " FROM DATABASE " << dbname << std::endl; return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__list(opt &out, const string_view &line) { const auto available { db::available() }; for(const auto &path : available) { const auto name { replace(lstrip(lstrip(path, fs::make_path(fs::DB)), '/'), "/", ":") }; const auto &d { db::database::get(std::nothrow, name) }; const auto &light { d? "\033[1;42m \033[0m" : " " }; out << "[" << light << "]" << " " << name << " `" << path << "'" << std::endl; } return true; } bool console_cmd__db__opts(opt &out, const string_view &line) try { const params param{line, " ", { "dbname", "[column]" }}; auto &d { db::database::get(param.at("dbname")) }; const db::column c { param.at("[column]", string_view{})? db::column{d, param.at("[column]")}: db::column{} }; const db::options::map opts_ { c? db::getopt(c): db::getopt(d) }; // Remap from the std::unordered_map to a sorted map for better UX. const std::map opts { begin(opts_), end(opts_) }; for(const auto &p : opts) out << std::left << std::setw(45) << std::setfill('_') << p.first << " " << p.second << std::endl; return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__columns(opt &out, const string_view &line) try { const params param{line, " ", { "dbname" }}; auto &d { db::database::get(param.at("dbname")) }; for(const auto &c : d.columns) { const db::column &column(*c); out << '[' << std::setw(3) << std::right << db::id(column) << ']' << " " << std::setw(18) << std::left << db::name(column) << " " << std::setw(25) << std::right << pretty(iec(bytes(column))) << std::endl; } return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db__info(opt &out, const string_view &line) try { const params param{line, " ", { "dbname", "[column]" }}; auto &d { db::database::get(param.at("dbname")) }; const db::column c { param.at("[column]", string_view{})? db::column{d, param.at("[column]")}: db::column{} }; const auto closeout{[&out] (const string_view &name, const auto &closure) { out << std::left << std::setw(40) << std::setfill('_') << name << " "; closure(); out << std::endl; }}; const auto property{[&out, &d, &c, &closeout] (const string_view &prop) { const auto name(lstrip(prop, "rocksdb.")); const auto val { c? db::property(c, prop): db::property(d, prop) }; if(!!val) closeout(name, [&out, &val] { out << val; }); }}; const auto sizeprop{[&out, &d, &c, &closeout] (const string_view &prop) { const auto name(lstrip(prop, "rocksdb.")); const auto val { c? db::property(c, prop): db::property(d, prop) }; if(!!val) closeout(name, [&out, &val] { out << pretty(iec(val)); }); }}; if(c) { out << db::describe(c).explain << std::endl; closeout("size", [&] { out << pretty(iec(bytes(c))); }); closeout("files", [&] { out << file_count(c); }); } else { closeout("uuid", [&] { out << uuid(d); }); closeout("size", [&] { out << pretty(iec(bytes(d))); }); closeout("columns", [&] { out << d.columns.size(); }); closeout("files", [&] { out << file_count(d); }); closeout("sequence", [&] { out << sequence(d); }); } property("rocksdb.estimate-num-keys"); property("rocksdb.background-errors"); property("rocksdb.base-level"); property("rocksdb.num-live-versions"); property("rocksdb.current-super-version-number"); property("rocksdb.min-log-number-to-keep"); property("rocksdb.is-file-deletions-enabled"); property("rocksdb.is-write-stopped"); property("rocksdb.actual-delayed-write-rate"); property("rocksdb.num-entries-active-mem-table"); property("rocksdb.num-deletes-active-mem-table"); property("rocksdb.mem-table-flush-pending"); property("rocksdb.num-running-flushes"); property("rocksdb.compaction-pending"); property("rocksdb.num-running-compactions"); sizeprop("rocksdb.estimate-pending-compaction-bytes"); property("rocksdb.num-snapshots"); property("rocksdb.oldest-snapshot-time"); sizeprop("rocksdb.size-all-mem-tables"); sizeprop("rocksdb.cur-size-all-mem-tables"); sizeprop("rocksdb.cur-size-active-mem-table"); sizeprop("rocksdb.estimate-table-readers-mem"); sizeprop("rocksdb.block-cache-capacity"); sizeprop("rocksdb.block-cache-usage"); sizeprop("rocksdb.block-cache-pinned-usage"); if(!c) closeout("row cache size", [&] { out << pretty(iec(db::usage(cache(d)))); }); sizeprop("rocksdb.estimate-live-data-size"); sizeprop("rocksdb.live-sst-files-size"); sizeprop("rocksdb.total-sst-files-size"); if(c) { out << std::endl; _print_sst_info_header(out); const db::database::sst::info::vector v{c}; for(const auto &info : v) _print_sst_info(out, info); } else { out << std::endl; for(const auto &column : d.columns) { const auto explain { split(db::describe(*column).explain, '\n').first }; out << std::left << std::setfill (' ') << std::setw(3) << db::id(*column) << " " << std::setw(20) << db::name(*column) << " " << std::setw(24) << pretty(iec(db::bytes(*column))) << " :" << explain << std::endl; } } if(!c && !errors(d).empty()) { size_t i(0); out << std::endl; out << "ERRORS (" << errors(d).size() << "): " << std::endl; for(const auto &error : errors(d)) out << std::setw(2) << (i++) << ':' << error << std::endl; } return true; } catch(const std::out_of_range &e) { out << "No open database by that name" << std::endl; return true; } bool console_cmd__db(opt &out, const string_view &line) { if(empty(line)) return console_cmd__db__list(out, line); return console_cmd__db__info(out, line); } // // peer // static bool html__peer(opt &out, const string_view &line) { out << ""; out << ""; out << ""; out << ""; out << ""; out << ""; out << ""; out << ""; out << ""; out << ""; out << ""; out << ""; for(const auto &p : server::peers) { using std::setw; using std::left; using std::right; const auto &host{p.first}; const auto &peer{*p.second}; const net::ipport &ipp{peer.remote}; out << ""; out << ""; out << ""; out << ""; out << ""; out << ""; out << ""; out << ""; out << ""; out << ""; out << ""; } out << "
HOST ADDR LINKS REQS â–² BYTES Q â–¼ BYTES Q â–² BYTES â–¼ BYTES ERROR
" << host << "" << ipp << "" << peer.link_count() << "" << peer.tag_count() << "" << peer.write_size() << "" << peer.read_size() << "" << peer.write_total() << "" << peer.read_total() << ""; if(peer.err_has() && peer.err_msg()) out << peer.err_msg(); else if(peer.err_has()) out << ""_sv; out << "
"; return true; } bool console_cmd__peer(opt &out, const string_view &line) { if(out.html) return html__peer(out, line); const auto print{[&out] (const auto &host, const auto &peer) { using std::setw; using std::left; using std::right; const net::ipport &ipp{peer.remote}; out << setw(40) << left << host; if(ipp) out << ' ' << setw(22) << left << ipp; else out << ' ' << setw(22) << left << " "; out << " " << setw(2) << right << peer.link_count() << " L" << " " << setw(2) << right << peer.tag_count() << " T" << " " << setw(2) << right << peer.tag_committed() << " TC" << " " << setw(9) << right << peer.write_size() << " UP Q" << " " << setw(9) << right << peer.read_size() << " DN Q" << " " << setw(9) << right << peer.write_total() << " UP" << " " << setw(9) << right << peer.read_total() << " DN" ; if(peer.err_has() && peer.err_msg()) out << " :" << peer.err_msg(); else if(peer.err_has()) out << " "_sv; out << std::endl; }}; const params param{line, " ", { "[hostport]", "[all]" }}; const auto &hostport { param[0] }; const bool all { has(line, "all") }; if(hostport && hostport != "all") { auto &peer { server::find(hostport) }; print(peer.hostcanon, peer); return true; } for(const auto &p : server::peers) { const auto &host{p.first}; const auto &peer{*p.second}; if(peer.err_has() && !all) continue; print(host, peer); } return true; } bool console_cmd__peer__count(opt &out, const string_view &line) { size_t i{0}; for(const auto &pair : ircd::server::peers) { assert(bool(pair.second)); const auto &peer{*pair.second}; if(!peer.err_has()) ++i; } out << i << std::endl; return true; } bool console_cmd__peer__error(opt &out, const string_view &line) { for(const auto &pair : ircd::server::peers) { using std::setw; using std::left; using std::right; const auto &host{pair.first}; assert(bool(pair.second)); const auto &peer{*pair.second}; if(!peer.err_has()) continue; const net::ipport &ipp{peer.remote}; out << setw(40) << right << host; if(ipp) out << ' ' << setw(22) << left << ipp; else out << ' ' << setw(22) << left << " "; out << peer.e->etime; if(peer.err_msg()) out << " :" << peer.err_msg(); else out << " "_sv; out << std::endl; } return true; } bool console_cmd__peer__error__count(opt &out, const string_view &line) { size_t i{0}; for(const auto &pair : ircd::server::peers) { assert(bool(pair.second)); const auto &peer{*pair.second}; if(peer.err_has()) ++i; } out << i << std::endl; return true; } bool console_cmd__peer__error__clear__all(opt &out, const string_view &line) { size_t cleared(0); for(auto &pair : ircd::server::peers) { const auto &name{pair.first}; assert(bool(pair.second)); auto &peer{*pair.second}; cleared += peer.err_clear(); } out << "cleared " << cleared << " of " << ircd::server::peers.size() << std::endl; return true; } bool console_cmd__peer__error__clear(opt &out, const string_view &line) { if(empty(line)) return console_cmd__peer__error__clear__all(out, line); const net::hostport hp { token(line, ' ', 0) }; const auto cleared { server::errclear(hp) }; out << std::boolalpha << cleared << std::endl; return true; } bool console_cmd__peer__version(opt &out, const string_view &line) { for(const auto &p : server::peers) { using std::setw; using std::left; using std::right; const auto &host{p.first}; const auto &peer{*p.second}; const net::ipport &ipp{peer.remote}; out << setw(40) << right << host; if(ipp) out << ' ' << setw(22) << left << ipp; else out << ' ' << setw(22) << left << " "; if(!empty(peer.server_name)) out << " :" << peer.server_name; out << std::endl; } return true; } bool console_cmd__peer__find(opt &out, const string_view &line) { const params param{line, " ", { "ip:port" }}; const auto &ip{rsplit(param.at(0), ':').first}; const auto &port{rsplit(param.at(0), ':').second}; const net::ipport ipp{ip, port? port : "0"}; for(const auto &p : server::peers) { const auto &hostname{p.first}; const auto &peer{*p.second}; const net::ipport &ipp_ { peer.remote }; if(is_v6(ipp) && (!is_v6(ipp_) || host6(ipp) != host6(ipp_))) continue; if(is_v4(ipp) && (!is_v4(ipp_) || host4(ipp) != host4(ipp_))) continue; if(net::port(ipp) && net::port(ipp) != net::port(ipp_)) continue; out << hostname << std::endl; break; } return true; } bool console_cmd__peer__cancel(opt &out, const string_view &line) try { const params param{line, " ", { "hostport" }}; const auto &hostport { param.at(0) }; auto &peer { server::find(hostport) }; peer.cancel(); return true; } catch(const std::out_of_range &e) { throw error { "Peer not found" }; } bool console_cmd__peer__close(opt &out, const string_view &line) try { const params param{line, " ", { "hostport", "[dc]" }}; const auto &hostport { param.at(0) }; const auto &dc { param.at(1, "SSL_NOTIFY"_sv) }; auto &peer { server::find(hostport) }; const net::close_opts opts { dc == "RST"? net::dc::RST: dc == "SSL_NOTIFY"? net::dc::SSL_NOTIFY: net::dc::SSL_NOTIFY }; peer.close(opts); peer.err_clear(); return true; } catch(const std::out_of_range &e) { throw error { "Peer not found" }; } // // net // bool console_cmd__net__host(opt &out, const string_view &line) { const params param{line, " ", { "hostport" }}; const net::hostport hostport { param["hostport"] }; ctx::dock dock; bool done{false}; net::ipport ipport; std::exception_ptr eptr; net::dns::resolve(hostport, [&done, &dock, &eptr, &ipport] (std::exception_ptr eptr_, const net::hostport &, const net::ipport &ipport_) { eptr = std::move(eptr_); ipport = ipport_; done = true; dock.notify_one(); }); while(!done) dock.wait(); if(eptr) std::rethrow_exception(eptr); else out << ipport << std::endl; return true; } bool console_cmd__host(opt &out, const string_view &line) { return console_cmd__net__host(out, line); } bool console_cmd__net__host__cache__A(opt &out, const string_view &line) { net::dns::cache::for_each("A", [&] (const auto &host, const auto &r) { const auto &record { dynamic_cast(r) }; const net::ipport ipp{record.ip4, 0}; out << std::setw(48) << std::right << host << " => " << std::setw(21) << std::left << ipp << " expires " << timestr(record.ttl, ircd::localtime) << " (" << record.ttl << ")" << std::endl; return true; }); return true; } bool console_cmd__net__host__cache__A__count(opt &out, const string_view &line) { size_t count[2] {0}; net::dns::cache::for_each("A", [&] (const auto &host, const auto &r) { const auto &record { dynamic_cast(r) }; ++count[bool(record.ip4)]; return true; }); out << "resolved: " << count[1] << std::endl; out << "error: " << count[0] << std::endl; return true; } bool console_cmd__net__host__cache__A__clear(opt &out, const string_view &line) { const params param{line, " ", { "hostport" }}; if(!param.count()) { out << "NOT IMPLEMENTED" << std::endl; return true; } const net::hostport hostport { param.at("hostport") }; out << "NOT IMPLEMENTED" << std::endl; return true; } bool console_cmd__net__host__cache__SRV(opt &out, const string_view &line) { net::dns::cache::for_each("SRV", [&] (const auto &key, const auto &r) { const auto &record { dynamic_cast(r) }; thread_local char buf[256]; const string_view remote{fmt::sprintf { buf, "%s:%u", rstrip(record.tgt, '.'), record.port }}; out << std::setw(48) << std::right << key << " => " << std::setw(48) << std::left << remote << " expires " << timestr(record.ttl, ircd::localtime) << " (" << record.ttl << ")" << std::endl; return true; }); return true; } bool console_cmd__net__host__cache__SRV__count(opt &out, const string_view &line) { size_t count[2] {0}; net::dns::cache::for_each("SRV", [&] (const auto &host, const auto &r) { const auto &record { dynamic_cast(r) }; ++count[bool(record.tgt)]; return true; }); out << "resolved: " << count[1] << std::endl; out << "error: " << count[0] << std::endl; return true; } bool console_cmd__net__host__cache__SRV__clear(opt &out, const string_view &line) { const params param{line, " ", { "hostport", "[service]" }}; if(!param.count()) { out << "NOT IMPLEMENTED" << std::endl; return true; } const net::hostport hostport { param.at("hostport") }; net::dns::opts opts; opts.srv = param.at("[service]", "_matrix._tcp."_sv); thread_local char srv_key_buf[128]; const auto srv_key { net::dns::make_SRV_key(srv_key_buf, hostport, opts) }; out << "NOT IMPLEMENTED" << std::endl; return true; } bool console_cmd__net__host__prefetch(opt &out, const string_view &line) { const params param{line, " ", { "room_id", }}; const auto &room_id { m::room_id(param.at(0)) }; const m::room room { room_id }; const m::room::origins origins { room }; size_t count{0}; origins.for_each([&count](const string_view &origin) { net::dns::resolve(origin, net::dns::prefetch_ipport); ++count; }); out << "Prefetch resolving " << count << " origins." << std::endl; return true; } bool console_cmd__net__listen__list(opt &out, const string_view &line) { using list = std::list; static mods::import listeners { "s_listen", "listeners" }; const list &l(listeners); for(const auto &listener : l) { const json::object opts(listener); out << listener << ": " << opts << std::endl; } return true; } bool console_cmd__net__listen(opt &out, const string_view &line) { if(empty(line)) return console_cmd__net__listen__list(out, line); const params token{line, " ", { "name", "host", "port", "certificate_pem_path", "private_key_pem_path", "tmp_dh_path", "backlog", "max_connections", }}; const json::members opts { { "host", token.at("host", "0.0.0.0"_sv) }, { "port", token.at("port", 8448L) }, { "certificate_pem_path", token.at("certificate_pem_path") }, { "private_key_pem_path", token.at("private_key_pem_path") }, { "tmp_dh_path", token.at("tmp_dh_path", ""_sv) }, { "backlog", token.at("backlog", -1L) }, { "max_connections", token.at("max_connections", -1L) }, }; const auto eid { m::send(m::my_room, m::me, "ircd.listen", token.at("name"), opts) }; out << eid << std::endl; return true; } bool console_cmd__net__listen__load(opt &out, const string_view &line) { using prototype = bool (const string_view &); static mods::import load_listener { "s_listen", "load_listener" }; const params params{line, " ", { "name", }}; if(load_listener(params.at("name"))) out << "loaded listener '" << params.at("name") << "'" << std::endl; else out << "failed to load listener '" << params.at("name") << "'" << std::endl; return true; } bool console_cmd__net__listen__unload(opt &out, const string_view &line) { using prototype = bool (const string_view &); static mods::import unload_listener { "s_listen", "unload_listener" }; const params params{line, " ", { "name", }}; if(unload_listener(params.at("name"))) out << "unloaded listener '" << params.at("name") << "'" << std::endl; else out << "failed to unload listener '" << params.at("name") << "'" << std::endl; return true; } // // client // bool console_cmd__client(opt &out, const string_view &line) { using std::setw; using std::left; using std::right; const params param{line, " ", { "[reqs|id]", }}; const bool &reqs { param[0] == "reqs" }; const auto &idnum { !reqs? param.at(0, 0): 0 }; std::vector clients(client::map.size()); static const values values; std::transform(begin(client::map), end(client::map), begin(clients), values); std::sort(begin(clients), end(clients), [] (const auto &a, const auto &b) { return a->id < b->id; }); out << left << setw(8) << "ID" << " " << setw(8) << "SOCKID" << " " << left << setw(22) << "LOCAL" << " " << setw(22) << "REMOTE" << " " << right << setw(25) << "BYTES FROM" << " " << setw(25) << "BYTES TO" << " " << setw(4) << "RDY" << " " << setw(4) << "REQ" << " " << setw(6) << "MODE" << " " << setw(4) << "CTX" << " " << setw(11) << "TIME" << " " << left << std::endl; for(const auto &client : clients) { thread_local char pbuf[2][64]; if(idnum && client->id < idnum) continue; else if(idnum && client->id > idnum) break; else if(reqs && !client->reqctx) continue; out << left << setw(8) << client->id; out << " " << left << setw(8) << (client->sock? net::id(*client->sock) : 0UL) ; out << " " << left << setw(22) << local(*client) << " " << left << setw(22) << remote(*client) ; const std::pair stat { bool(client->sock)? net::bytes(*client->sock): std::pair{0, 0} }; out << " " << right << setw(25) << pretty(pbuf[0], iec(stat.first)) << " " << right << setw(25) << pretty(pbuf[1], iec(stat.second)) ; out << " " << right << setw(4) << client->ready_count << " " << right << setw(4) << client->request_count ; out << " " << right << setw(6) << (client->reqctx? "CTX"_sv : "ASYNC"_sv) ; out << " " << right << setw(4) << (client->reqctx? id(*client->reqctx) : 0UL) ; out << " " << right << setw(11) << pretty(pbuf[0], client->timer.at(), true) ; out << " " << left; if(client->request.user_id) out << " USER " << client->request.user_id; else if(client->request.origin) out << " PEER " << client->request.origin; if(client->request.head.method) out << " " << client->request.head.method; if(client->request.head.path) out << " " << client->request.head.path; out << std::endl; } return true; } bool console_cmd__client__clear(opt &out, const string_view &line) { client::terminate_all(); client::close_all(); client::wait_all(); return true; } bool console_cmd__client__spawn(opt &out, const string_view &line) { client::spawn(); return true; } // // resource // bool console_cmd__resource(opt &out, const string_view &line) { const params param{line, " ", { "path", "method" }}; const auto path { param["path"] }; const auto method { param["method"] }; if(path && method) { const auto &r { resource::find(path) }; const auto &m { r[method] }; out << method << " " << path << std::endl; out << (m.opts->flags & resource::method::REQUIRES_AUTH? " REQUIRES_AUTH" : "") << (m.opts->flags & resource::method::RATE_LIMITED? " RATE_LIMITED" : "") << (m.opts->flags & resource::method::VERIFY_ORIGIN? " VERIFY_ORIGIN" : "") << (m.opts->flags & resource::method::CONTENT_DISCRETION? " CONTENT_DISCRETION" : "") << std::endl; return true; } for(const auto &p : resource::resources) { const auto &r(*p.second); for(const auto &mp : p.second->methods) { assert(mp.second); const auto &m{*mp.second}; out << std::setw(56) << std::left << p.first << " " << std::setw(7) << mp.first << std::right << " | REQ " << std::setw(8) << m.stats->requests << " | RET " << std::setw(8) << m.stats->completions << " | TIM " << std::setw(8) << m.stats->timeouts << " | ERR " << std::setw(8) << m.stats->internal_errors << std::endl; } } return true; } // // key // bool console_cmd__key(opt &out, const string_view &line) { out << "origin: " << m::my_host() << std::endl; out << "public key ID: " << m::self::public_key_id << std::endl; out << "public key base64: " << m::self::public_key_b64 << std::endl; out << "TLS cert sha256 base64: " << m::self::tls_cert_der_sha256_b64 << std::endl; return true; } bool console_cmd__key__get(opt &out, const string_view &line) { const params param{line, " ", { "server_name", "[query_server]" }}; const auto server_name { param.at(0) }; const auto query_server { param[1] }; if(!query_server) { m::keys::get(server_name, [&out] (const auto &keys) { out << keys << std::endl; }); } else { const std::pair queries[1] { { server_name, {} } }; m::keys::query(query_server, queries, [&out] (const auto &keys) { out << keys << std::endl; return true; }); } return true; } bool console_cmd__key__crt__sign(opt &out, const string_view &line) { using prototype = void (const m::event &); static mods::import create_my_key { "s_keys", "create_my_key" }; create_my_key({}); out << "done" << std::endl; return true; } // // stage // std::vector stage; bool console_cmd__stage__list(opt &out, const string_view &line) { for(const json::object &object : stage) { const m::event event{object}; out << pretty_oneline(event) << std::endl; } return true; } bool console_cmd__stage(opt &out, const string_view &line) { const params param{line, " ", { "id", "[json]" }}; if(!param.count()) return console_cmd__stage__list(out, line); const auto &id { param.at(0) }; if(stage.size() < id) throw error { "Cannot stage position %d without composing %d first", id, stage.size() }; const auto &key { param[1] }; const auto &val { key? tokens_after(line, ' ', 1) : string_view{} }; if(stage.size() == id) { m::event base_event { { "depth", json::undefined_number }, { "origin", my_host() }, { "origin_server_ts", time() }, { "sender", m::me.user_id }, { "room_id", m::my_room.room_id }, { "type", "m.room.message" }, { "prev_state", "[]" }, }; const json::strung content{json::members { { "body", "test" }, { "msgtype", "m.text" } }}; json::get<"content"_>(base_event) = content; stage.emplace_back(json::strung(base_event)); } if(key && val) { m::event event{stage.at(id)}; set(event, key, val); stage.at(id) = json::strung{event}; } else if(key) { stage.at(id) = std::string{key}; } const m::event event { stage.at(id) }; out << pretty(event) << std::endl; out << stage.at(id) << std::endl; try { if(!verify(event)) out << "- SIGNATURE FAILED" << std::endl; } catch(const std::exception &e) { out << "- UNABLE TO VERIFY SIGNATURES" << std::endl; } try { if(!verify_hash(event)) out << "- HASH MISMATCH: " << b64encode_unpadded(hash(event)) << std::endl; } catch(const std::exception &e) { out << "- UNABLE TO VERIFY HASHES" << std::endl; } const m::event::conforms conforms { event }; if(!conforms.clean()) out << "- " << conforms << std::endl; return true; } bool console_cmd__stage__make_prev(opt &out, const string_view &line) { const params param{line, " ", { "[id]", "[limit]" }}; const int &id { param.at(0, -1) }; const auto &limit { param.at(1, 16) }; m::event event { stage.at(id) }; using prototype = std::pair (const m::room &, const mutable_buffer &, const size_t &, const bool &); static mods::import make_prev__buf { "m_room", "make_prev__buf" }; thread_local char buf[8192]; const auto prev { make_prev__buf(m::room{at<"room_id"_>(event)}, buf, limit, true) }; json::get<"prev_events"_>(event) = prev.first; json::get<"depth"_>(event) = prev.second; stage.at(id) = json::strung { event }; event = m::event(stage.at(id)); out << pretty(event) << std::endl; out << stage.at(id) << std::endl; return true; } bool console_cmd__stage__make_auth(opt &out, const string_view &line) { const params param{line, " ", { "[id]" }}; const int &id { param.at(0, -1) }; m::event event { stage.at(id) }; using prototype = json::array (const m::room &, const mutable_buffer &, const vector_view &, const string_view &); static mods::import make_auth__buf { "m_room", "make_auth__buf" }; static const string_view types_general[] { "m.room.create", "m.room.power_levels", }; static const string_view types_membership[] { "m.room.create", "m.room.join_rules", "m.room.power_levels", }; const auto is_membership { at<"type"_>(event) == "m.room.member" }; const auto &types { is_membership? vector_view(types_membership): vector_view(types_general) }; const auto member { !is_membership? at<"sender"_>(event): string_view{} }; const m::room room { at<"room_id"_>(event) }; thread_local char buf[1024]; json::get<"auth_events"_>(event) = make_auth__buf(room, buf, types, member); stage.at(id) = json::strung { event }; event = m::event(stage.at(id)); out << pretty(event) << std::endl; out << stage.at(id) << std::endl; return true; } bool console_cmd__stage__final(opt &out, const string_view &line) { const params param{line, " ", { "[id]", "[options]" }}; const int &id { param.at(0, -1) }; const auto opts { param[1] }; m::event event { stage.at(id) }; m::event::id::buf event_id_buf; if(!has(opts, "no_event_id")) json::get<"event_id"_>(event) = make_id(event, event_id_buf); thread_local char hashes_buf[512]; if(!has(opts, "no_hashes")) json::get<"hashes"_>(event) = m::hashes(hashes_buf, event); thread_local char sigs_buf[512]; if(!has(opts, "no_signatures")) event = signatures(sigs_buf, event); stage.at(id) = json::strung { event }; event = m::event(stage.at(id)); out << pretty(event) << std::endl; out << stage.at(id) << std::endl; return true; } bool console_cmd__stage__make_vector(opt &out, const string_view &line) { m::event::id::buf prev_; for(size_t i(1); i < stage.size(); ++i) { const auto prev(unquote(json::object{stage.at(i-1)}.get("event_id"))); const int64_t depth(json::object{stage.at(i-1)}.get("depth")); thread_local char buf[1024], hb[512], sb[512]; m::event event{stage.at(i)}; json::stack st{buf}; { json::stack::array top{st}; { json::stack::array a{top}; a.append(prev); { json::stack::object hash{a}; json::stack::member{hash, "w", "nil"}; } } } json::get<"depth"_>(event) = depth + 1; json::get<"prev_events"_>(event) = json::array{st.completed()}; json::get<"event_id"_>(event) = make_id(event, prev_); json::get<"hashes"_>(event) = m::hashes(hb, event); event = signatures(sb, event); stage.at(i) = json::strung{event}; out << unquote(json::object{stage.at(i)}.at("event_id")) << std::endl; } return true; } bool console_cmd__stage__copy(opt &out, const string_view &line) { const params param{line, " ", { "srcid", "[dstid]" }}; const auto &srcid { param.at(0) }; const auto &dstid { param.at(1, stage.size()) }; const auto &src { stage.at(srcid) }; if(stage.size() < dstid) throw error { "Cannot stage position %d without composing %d first", dstid, stage.size() }; if(stage.size() == dstid) { stage.emplace_back(src); return true; } stage.at(dstid) = src; return true; } bool console_cmd__stage__clear(opt &out, const string_view &line) { const params param{line, " ", { "[id]", }}; const int &id { param.at(0, -1) }; if(id == -1) { stage.clear(); return true; } stage.at(id).clear(); return true; } bool console_cmd__stage__eval(opt &out, const string_view &line) { const params param{line, " ", { "[id]", }}; const int &id { param.at(0, -1) }; m::vm::opts opts; m::vm::eval eval { opts }; if(id == -1) for(size_t i(0); i < stage.size(); ++i) eval(m::event{stage.at(i)}); else eval(m::event{stage.at(id)}); return true; } bool console_cmd__stage__commit(opt &out, const string_view &line) { const params param{line, " ", { "[id]", }}; const int &id { param.at(0, -1) }; m::vm::copts copts; m::vm::eval eval { copts }; if(id == -1) for(size_t i(0); i < stage.size(); ++i) eval(m::event{stage.at(i)}); else eval(m::event{stage.at(id)}); return true; } bool console_cmd__stage__send(opt &out, const string_view &line) { const params param{line, " ", { "remote", "[id]" }}; const net::hostport remote { param.at(0) }; const int &id { param.at(1, -1) }; std::vector pduv; if(id > -1) pduv.emplace_back(stage.at(id)); else for(size_t i(0); i < stage.size(); ++i) pduv.emplace_back(stage.at(i)); const auto txn { m::txn::create(pduv) }; thread_local char idbuf[128]; const auto txnid { m::txn::create_id(idbuf, txn) }; const unique_buffer bufs { 16_KiB }; m::v1::send::opts opts; opts.remote = remote; m::v1::send request { txnid, const_buffer{txn}, bufs, std::move(opts) }; request.wait(out.timeout); const auto code { request.get() }; const json::object response{request}; const m::v1::send::response resp { response }; resp.for_each_pdu([&] (const m::event::id &event_id, const json::object &error) { out << remote << " ->" << txnid << " " << event_id << " "; if(empty(error)) out << http::status(code) << std::endl; else out << string_view{error} << std::endl; }); return true; } bool console_cmd__stage__broadcast(opt &out, const string_view &line) { const params param{line, " ", { "[id]" }}; const int &id { param.at(0, -1) }; const auto start { id > -1? id : 0 }; const auto stop { id > -1? id + 1 : stage.size() }; for(size_t i(start); i < stop; ++i) { const m::vm::opts opts; const m::event event{stage.at(i)}; //m::vm::accepted a{event, &opts, nullptr, &opts.report}; //m::vm::accept(a); } return true; } int console_command_numeric(opt &out, const string_view &line) { return console_cmd__stage(out, line); } // // events // bool console_cmd__events(opt &out, const string_view &line) { const params param{line, " ", { "start", "[dir]", "[limit]" }}; const uint64_t start { param.at(0, uint64_t(-1)) }; const char &dir { param.at(1, "b"_sv).at(0) }; size_t limit { param.at(2, 32) }; const auto closure{[&out, &limit] (const m::event::idx &seq, const m::event &event) { out << seq << " " << pretty_oneline(event) << std::endl;; return --limit; }}; if(dir == 'f') m::events::for_each(start, closure); else m::events::rfor_each(start, closure); return true; } bool console_cmd__events__filter(opt &out, const string_view &line) { const params param{line, " ", { "start", "event_filter_json" }}; const uint64_t start { param.at(0, uint64_t(-1)) }; const m::event_filter filter { param.at(1) }; m::events::rfor_each(start, filter, [&out] (const m::event::idx &seq, const m::event &event) { out << seq << " " << pretty_oneline(event) << std::endl;; return true; }); return true; } conf::item events_dump_buffer_size { { "name", "ircd.console.events.dump.buffer_size" }, { "default", int64_t(4_MiB) }, }; bool console_cmd__events__dump(opt &out, const string_view &line) { const params param{line, " ", { "filename" }}; const auto filename { param.at(0) }; const fs::fd file { filename, std::ios::out | std::ios::app }; const unique_buffer buf { size_t(events_dump_buffer_size) }; char *pos{data(buf)}; size_t foff{0}, ecount{0}, acount{0}, errcount{0}; m::events::for_each(m::event::idx{0}, [&] (const m::event::idx &seq, const m::event &event) { const auto remain { size_t(data(buf) + size(buf) - pos) }; assert(remain >= m::event::MAX_SIZE && remain <= size(buf)); const mutable_buffer mb{pos, remain}; pos += json::print(mb, event); ++ecount; if(pos + m::event::MAX_SIZE > data(buf) + size(buf)) { const const_buffer cb{data(buf), pos}; foff += size(fs::append(file, cb)); pos = data(buf); ++acount; const double pct { (seq / double(m::vm::current_sequence)) * 100.0 }; log::info { "dump[%s] %lf$%c @ seq %zu of %zu; %zu events; %zu bytes; %zu writes; %zu errors", filename, pct, '%', //TODO: fix gram seq, m::vm::current_sequence, ecount, foff, acount, errcount }; } return true; }); if(pos > data(buf)) { const const_buffer cb{data(buf), pos}; foff += size(fs::append(file, cb)); ++acount; } out << "Dumped " << ecount << " events" << " using " << foff << " bytes" << " in " << acount << " writes" << " to " << filename << " with " << errcount << " errors" << std::endl; return true; } // // event // bool console_cmd__event(opt &out, const string_view &line) { const params param{line, " ", { "event_id" }}; const m::event::id event_id { param.at(0) }; const auto args { tokens_after(line, ' ', 0) }; const m::event::fetch event { event_id }; if(!empty(args)) switch(hash(token(args, ' ', 0))) { case hash("raw"): out << event << std::endl; return true; case hash("idx"): out << index(event) << std::endl; return true; case hash("content"): { for(const auto &m : json::get<"content"_>(event)) out << m.first << ": " << m.second << std::endl; return true; } } out << pretty(event) << std::endl; const m::event::conforms conforms { event }; if(!conforms.clean()) out << "- " << conforms << std::endl; try { if(!verify(event)) out << "- SIGNATURE FAILED" << std::endl; } catch(const std::exception &e) { out << "- SIGNATURE FAILED: " << e.what() << std::endl; } if(!verify_hash(event)) out << "- HASH MISMATCH: " << b64encode_unpadded(hash(event)) << std::endl; return true; } bool console_id__event(opt &out, const m::event::id &id, const string_view &line) { return console_cmd__event(out, line); } bool console_cmd__event__sign(opt &out, const string_view &line) { const params param{line, " ", { "event_id", "[host]", "[accept|eval]" }}; const m::event::id event_id { param.at(0) }; const auto &host { param.at(1, event_id.host()) }; const auto &op { param[2] }; m::v1::event::opts opts; opts.remote = host; opts.dynamic = false; const unique_buffer buf { 96_KiB }; m::v1::event request { event_id, buf, std::move(opts) }; request.wait(out.timeout); const auto code { request.get() }; const m::event orig_event { request }; thread_local char sigbuf[64_KiB]; const auto event { m::signatures(mutable_buffer{sigbuf}, orig_event) }; out << pretty(event) << std::endl; if(op == "accept") { const m::vm::opts opts; /* m::vm::accepted a { event, &opts, nullptr, &opts.report }; m::vm::accept(a); */ } else if(op == "eval") { m::vm::opts opts; m::vm::eval { event, opts }; } return true; } bool console_cmd__event__bad(opt &out, const string_view &line) { const params param{line, " ", { "event_id", }}; const m::event::id event_id { param.at(0) }; const bool b { bad(event_id) }; out << event_id << "is" << (b? " " : " NOT ") << "BAD" << std::endl; return true; } bool console_cmd__event__erase(opt &out, const string_view &line) { const m::event::id event_id { token(line, ' ', 0) }; m::event::fetch event { event_id }; db::txn txn { *m::dbs::events }; m::dbs::write_opts opts; opts.op = db::op::DELETE; opts.event_idx = index(event); m::dbs::write(txn, event, opts); txn(); out << "erased " << txn.size() << " cells" << " for " << event_id << std::endl; return true; } bool console_cmd__event__fetch(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "event_id" }}; const m::event::id &event_id { param.at("event_id") }; const auto &room_id { m::room_id(param.at("room_id")) }; const net::hostport hostport { room_id.host() }; using prototype = json::object (const m::room::id &, const m::event::id &, const net::hostport &); static mods::import acquire { "vm_fetch", "state_fetch" }; acquire(room_id, event_id, hostport); return true; } bool console_cmd__event__visible(opt &out, const string_view &line) { const params param{line, " ", { "event_id", "user_id|node_id" }}; const m::event::id &event_id { param.at(0) }; const string_view &mxid { param[1] }; const bool visible { m::visible(event_id, mxid) }; out << event_id << " is " << (visible? "VISIBLE" : "NOT VISIBLE") << (mxid? " to " : "") << mxid << std::endl; return true; } // // state // bool console_cmd__state__count(opt &out, const string_view &line) { const string_view arg { token(line, ' ', 0) }; const string_view root { arg }; out << m::state::count(root) << std::endl; return true; } bool console_cmd__state__each(opt &out, const string_view &line) { const string_view arg { token(line, ' ', 0) }; const string_view type { token(line, ' ', 1) }; const string_view root { arg }; m::state::for_each(root, type, [&out] (const string_view &key, const string_view &val) { out << key << " => " << val << std::endl; }); return true; } bool console_cmd__state__get(opt &out, const string_view &line) { const string_view root { token(line, ' ', 0) }; const string_view type { token(line, ' ', 1) }; const string_view state_key { token(line, ' ', 2) }; m::state::get(root, type, state_key, [&out] (const auto &value) { out << "got: " << value << std::endl; }); return true; } bool console_cmd__state__find(opt &out, const string_view &line) { const params param{line, " ", { "root", "[type]" "[state_key]" }}; const string_view &root { param.at(0) }; const string_view &type { param[1] }; const string_view &state_key { param[2] }; const auto closure{[&out] (const auto &key, const string_view &val) { out << key << " => " << val << std::endl; return true; }}; m::state::for_each(root, type, state_key, closure); return true; } bool console_cmd__state__root(opt &out, const string_view &line) { const m::event::id event_id { token(line, ' ', 0) }; char buf[m::state::ID_MAX_SZ]; out << m::dbs::state_root(buf, event_id) << std::endl; return true; } bool console_cmd__state__gc(opt &out, const string_view &line) { using prototype = size_t (); static mods::import gc { "m_state", "ircd__m__state__gc" }; const size_t count { gc() }; out << "done: " << count << std::endl; return true; } // // commit // bool console_cmd__commit(opt &out, const string_view &line) { m::event event { json::object{line} }; return true; } // // eval // bool console_cmd__eval(opt &out, const string_view &line) { const params param{line, " ", { "event_id", "opts", }}; const m::event::id &event_id { param.at(0) }; const auto &args { param[1] }; const unique_buffer buf { 64_KiB }; const m::event event { event_id, buf }; m::vm::opts opts; opts.errorlog = 0; opts.warnlog = 0; opts.nothrows = 0; opts.non_conform |= m::event::conforms::MISSING_PREV_STATE; tokens(args, ' ', [&opts](const auto &arg) { switch(hash(arg)) { case "replay"_: opts.replays = true; break; case "noverify"_: opts.verify = false; break; } }); m::vm::eval eval{opts}; out << pretty(event) << std::endl; eval(event); out << "done" << std::endl; return true; } bool console_cmd__eval__file(opt &out, const string_view &line) { const params token{line, " ", { "file path", "limit", "start", "room_id/event_id/sender" }}; const auto path { token.at(0) }; const fs::fd file { path }; const auto limit { token.at(1) }; const auto start { token[2]? lex_cast(token[2]) : 0 }; const string_view id{token[3]}; const string_view room_id { id && m::sigil(id) == m::id::ROOM? id : string_view{} }; const string_view event_id { id && m::sigil(id) == m::id::EVENT? id : string_view{} }; const string_view sender { id && m::sigil(id) == m::id::USER? id : string_view{} }; m::vm::opts opts; opts.non_conform.set(m::event::conforms::MISSING_PREV_STATE); opts.non_conform.set(m::event::conforms::MISSING_MEMBERSHIP); opts.prev_check_exists = false; opts.notify = false; opts.verify = false; m::vm::eval eval { opts }; size_t foff{0}; size_t i(0), j(0), r(0); for(; !limit || i < limit; ++r) { static char buf[512_KiB]; const string_view read { fs::read(file, buf, foff) }; size_t boff(0); json::object object; json::vector vector{read}; for(; boff < size(read) && i < limit; ) try { object = *begin(vector); boff += size(string_view{object}); vector = { data(read) + boff, size(read) - boff }; const m::event event { object }; if(room_id && json::get<"room_id"_>(event) != room_id) continue; if(event_id && json::get<"event_id"_>(event) != event_id) continue; if(sender && json::get<"sender"_>(event) != sender) continue; if(j++ < start) continue; eval(event); ++i; } catch(const json::parse_error &e) { break; } catch(const std::exception &e) { out << fmt::snstringf { 128, "Error at i=%zu j=%zu r=%zu foff=%zu boff=%zu\n", i, j, r, foff, boff }; out << string_view{object} << std::endl; out << e.what() << std::endl; return true; } foff += boff; } out << "Executed " << i << " of " << j << " events" << " in " << foff << " bytes" << " using " << r << " reads" << std::endl; return true; } // // rooms // bool console_cmd__rooms(opt &out, const string_view &line) { m::rooms::for_each(m::room::id::closure{[&out] (const m::room::id &room_id) { out << room_id << std::endl; }}); return true; } bool console_cmd__rooms__public(opt &out, const string_view &line) { const params param{line, " ", { "server|room_id_lb", "limit" }}; const string_view &key { param.at("server|room_id_lb", string_view{}) }; auto limit { param.at("limit", 32L) }; m::rooms::for_each_public(key, [&limit, &out] (const m::room::id &room_id) -> bool { out << room_id << std::endl; return --limit > 0; }); return true; } bool console_cmd__rooms__fetch(opt &out, const string_view &line) { using prototype = std::pair (const net::hostport &, const string_view &); static mods::import fetch_update { "m_rooms", "_fetch_update" }; const params param{line, " ", { "server", "since" }}; const net::hostport server { param.at("server") }; const string_view &since { param.at("since", string_view{}) }; const auto pair { fetch_update(server, since) }; out << "done" << std::endl << "total room count estimate: " << pair.first << std::endl << "next batch: " << pair.second << std::endl ; return true; } // // room // bool console_cmd__room__top(opt &out, const string_view &line) { const params param{line, " ", { "room_id", }}; const auto &room_id { m::room_id(param.at(0)) }; const auto top { m::top(std::nothrow, room_id) }; const m::room::state state { room_id }; out << "version: " << m::version(room_id) << std::endl; out << "federate: " << std::boolalpha << m::federate(room_id) << std::endl; out << "idx: " << std::get(top) << std::endl; out << "depth: " << std::get(top) << std::endl; out << "event: " << std::get(top) << std::endl; out << std::endl; state.for_each(m::room::state::types{[&out, &state] (const string_view &type) { if(!startswith(type, "m.")) return true; state.for_each(type, m::event::closure{[&out] (const m::event &event) { if(json::get<"state_key"_>(event) != "") return; out << json::get<"type"_>(event) << ':' << std::endl; for(const auto &member : json::get<"content"_>(event)) out << '\t' << member.first << ": " << member.second << std::endl; out << std::endl; }}); return true; }}); return true; } bool console_id__room(opt &out, const m::room::id &id, const string_view &line) { //TODO: XXX more detailed summary return console_cmd__room__top(out, line); } bool console_cmd__room__version(opt &out, const string_view &line) { const params param{line, " ", { "room_id", }}; const auto &room_id { m::room_id(param.at(0)) }; out << m::version(room_id) << std::endl; return true; } bool console_cmd__room__head(opt &out, const string_view &line) { const auto &room_id { m::room_id(token(line, ' ', 0)) }; const m::room room { room_id }; const m::room::head head { room }; head.for_each([&out] (const m::event::idx &event_idx, const m::event::id &event_id) { const m::event::fetch event { event_idx, std::nothrow }; out << pretty_oneline(event) << std::endl; }); return true; } bool console_cmd__room__head__rebuild(opt &out, const string_view &line) { const params param{line, " ", { "room_id", }}; const auto &room_id { m::room_id(param.at(0)) }; const m::room room { room_id }; using prototype = size_t (const m::room &); static mods::import head__rebuild { "m_room", "head__rebuild" }; const size_t count { head__rebuild(room) }; out << "done " << count << std::endl; return true; } bool console_cmd__room__head__add(opt &out, const string_view &line) { const params param{line, " ", { "event_id" }}; const m::event::id &event_id { param.at(0) }; using prototype = void (const m::event::id &, const db::op &, const bool &); static mods::import head__modify { "m_room", "head__modify" }; head__modify(event_id, db::op::SET, true); out << "Added " << event_id << " to head " << std::endl; return true; } bool console_cmd__room__head__del(opt &out, const string_view &line) { const params param{line, " ", { "event_id" }}; const m::event::id &event_id { param.at(0) }; using prototype = void (const m::event::id &, const db::op &, const bool &); static mods::import head__modify { "m_room", "head__modify" }; head__modify(event_id, db::op::DELETE, true); out << "Deleted " << event_id << " from head (if existed)" << std::endl; return true; } bool console_cmd__room__herd(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "user_id" }}; const auto &room_id { m::room_id(param.at(0)) }; const m::user::id &user_id { param.at(1) }; using prototype = void (const m::room &, const m::user &, const milliseconds &); static mods::import room_herd { "m_room", "room_herd" }; room_herd(room_id, user_id, out.timeout); out << "done" << std::endl; return true; } bool console_cmd__room__head__reset(opt &out, const string_view &line) { const params param{line, " ", { "room_id", }}; const auto &room_id { m::room_id(param.at(0)) }; const m::room room { room_id }; using prototype = size_t (const m::room &); static mods::import head__reset { "m_room", "head__reset" }; const size_t count { head__reset(room) }; out << "done " << count << std::endl; return true; } bool console_cmd__room__complete(opt &out, const string_view &line) { const params param{line, " ", { "room_id", }}; const auto &room_id { m::room_id(param.at(0)) }; const m::room room { room_id }; using prototype = std::pair (const m::room &); static mods::import is_complete { "m_room", "is_complete" }; const auto res { is_complete(room) }; out << (res.first? "YES" : "NO") << " @ depth " << res.second << std::endl; return true; } bool console_cmd__room__depth(opt &out, const string_view &line) { const auto &room_id { m::room_id(token(line, ' ', 0)) }; const m::room room { room_id }; out << depth(room_id) << std::endl; return true; } bool console_cmd__room__visible(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "user_id|node_id", "event_id" }}; const auto &room_id { m::room_id(param.at(0)) }; const string_view &mxid { param[1] && param[1] != "*"? param[1]: param[1] == "*"? string_view{}: param[1] }; const auto &event_id { param[2] }; const m::room room { room_id, event_id }; const bool visible { room.visible(mxid) }; out << room_id << " is " << (visible? "VISIBLE" : "NOT VISIBLE") << (mxid? " to " : "") << mxid << (event_id? " at " : "") << event_id << std::endl; return true; } bool console_cmd__room__members(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "[membership]" }}; const auto &room_id { m::room_id(param.at(0)) }; const string_view membership { param[1] }; const m::room room { room_id }; const m::room::members members { room }; const m::room::members::closure closure{[&out] (const m::user::id &user_id) { out << user_id << std::endl; }}; members.for_each(membership, closure); return true; } bool console_cmd__room__members__events(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "[membership]" }}; const auto &room_id { m::room_id(param.at(0)) }; const string_view membership { param[1] }; const m::room room { room_id }; const m::room::members members { room }; const auto closure{[&out](const m::event &event) { out << pretty_oneline(event) << std::endl; }}; members.for_each(membership, closure); return true; } bool console_cmd__room__members__count(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "[membership]" }}; const auto &room_id { m::room_id(param.at(0)) }; const string_view membership { param[1] }; const m::room room { room_id }; const m::room::members members { room }; out << members.count(membership) << std::endl; return true; } bool console_cmd__room__members__origin(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "origin", "[membership]" }}; const auto &room_id { m::room_id(param.at(0)) }; const auto &origin { param.at(1) }; const string_view membership { param[2] }; const m::room room { room_id }; const m::room::members members { room }; members.for_each(membership, [&out, &origin] (const m::event &event) { if(json::get<"origin"_>(event) != origin) return; out << pretty_oneline(event) << std::endl; }); return true; } bool console_cmd__room__members__read(opt &out, const string_view &line) { const params param{line, " ", { "event_id", "[membership]" }}; const m::event::id &event_id { param.at(0) }; const string_view membership { param.at(1, "join"_sv) }; m::room::id::buf room_id { m::get(event_id, "room_id", room_id) }; const m::room room { room_id }; const m::room::members members { room }; const m::event::closure event_closure{[&out, &event_id] (const m::event &event) { if(event_id) if(unquote(at<"content"_>(event).get("event_id")) != event_id) return; out << timestr(at<"origin_server_ts"_>(event) / 1000) << " " << at<"sender"_>(event) << " " << at<"content"_>(event) << " " << at<"event_id"_>(event) << std::endl; }}; const auto member_closure{[&room_id, event_closure] (const m::event &event) { const m::user user { at<"state_key"_>(event) }; static const m::event::fetch::opts fopts { m::event::keys::include { "event_id", "content", "origin_server_ts", "sender" }, { db::get::NO_CACHE }, }; const m::user::room user_room { user, nullptr, &fopts }; user_room.get(std::nothrow, "ircd.read", room_id, event_closure); }}; members.for_each(membership, member_closure); return true; } bool console_cmd__room__origins(opt &out, const string_view &line) { const auto &room_id { m::room_id(token(line, ' ', 0)) }; const m::room room { room_id }; const m::room::origins origins { room }; origins.for_each([&out](const string_view &origin) { out << origin << std::endl; }); return true; } bool console_cmd__room__origins__random(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "[noerror]" }}; const auto &room_id { m::room_id(param.at("room_id")) }; const bool noerror { param.at("[noerror]", false) }; const m::room room { room_id }; const m::room::origins origins { room }; const auto ok{[&noerror] (const string_view &origin) { if(noerror && ircd::server::errmsg(origin)) return false; return true; }}; char buf[256]; const string_view origin { origins.random(buf, ok) }; if(!origin) throw m::NOT_FOUND { "No origins for this room." }; out << origin << std::endl; return true; } bool console_cmd__room__state(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "event_id_or_type" }}; const auto &room_id { m::room_id(param.at("room_id")) }; const auto &event_id_or_type { param.at("event_id_or_type", string_view{}) }; const auto is_event_id { m::has_sigil(event_id_or_type) && valid(m::id::EVENT, event_id_or_type) }; const m::room room { room_id, is_event_id? event_id_or_type : string_view{} }; const m::room::state state { room }; const string_view &type { !is_event_id? event_id_or_type: string_view{} }; state.for_each(type, [&out](const m::event &event) { out << pretty_oneline(event) << std::endl; }); return true; } bool console_cmd__room__state__count(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "event_id_or_type" }}; const auto &room_id { m::room_id(param.at("room_id")) }; const auto &event_id_or_type { param.at("event_id_or_type", string_view{}) }; const auto is_event_id { m::has_sigil(event_id_or_type) && valid(m::id::EVENT, event_id_or_type) }; const m::room room { room_id, is_event_id? event_id_or_type : string_view{} }; const m::room::state state { room }; const string_view &type { !is_event_id? event_id_or_type: string_view{} }; out << state.count(type) << std::endl; return true; } bool console_cmd__room__state__types(opt &out, const string_view &line) { const auto &room_id { m::room_id(token(line, ' ', 0)) }; const auto &event_id { token(line, ' ', 1, {}) }; const m::room room { room_id, event_id }; const m::room::state state { room }; state.for_each(m::room::state::types{[&out] (const string_view &type) { out << type << std::endl; return true; }}); return true; } bool console_cmd__room__state__keys(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "type", "event_id", "prefix" }}; const auto &room_id { m::room_id(param.at("room_id")) }; const auto &type { param.at("type") }; const auto &event_id { param.at("event_id", string_view{}) }; const string_view &prefix { param.at("prefix", string_view{}) }; const m::room room { room_id, event_id }; const m::room::state state { room }; state.for_each(type, prefix, m::room::state::keys_bool{[&out, &prefix] (const string_view &state_key) { if(prefix && !startswith(state_key, prefix)) return false; out << state_key << std::endl; return true; }}); return true; } bool console_cmd__room__state__force(opt &out, const string_view &line) { const params param{line, " ", { "event_id" }}; const m::event::id &event_id { param.at(0) }; const m::event::fetch event { event_id }; using prototype = bool (const m::event &); static mods::import state__force_present { "m_room", "state__force_present" }; const auto res { state__force_present(event) }; out << "forced " << event_id << " into present state" << std::endl; return true; } bool console_cmd__room__state__rebuild__present(opt &out, const string_view &line) { const params param{line, " ", { "room_id" }}; const auto &room_id { param.at("room_id") != "*"? m::room_id(param.at(0)): "*"_sv }; using prototype = size_t (const m::room &); static mods::import state__rebuild_present { "m_room", "state__rebuild_present" }; if(room_id == "*") { m::rooms::for_each(m::room::id::closure{[&out] (const m::room::id &room_id) { const size_t count { state__rebuild_present(m::room{room_id}) }; out << "done " << room_id << " " << count << std::endl; }}); return true; } const size_t count { state__rebuild_present(m::room{room_id}) }; out << "done " << room_id << " " << count << std::endl; return true; } bool console_cmd__room__state__rebuild__history(opt &out, const string_view &line) { const params param{line, " ", { "room_id" }}; const auto &room_id { m::room_id(param.at(0)) }; const m::room room { room_id }; using prototype = size_t (const m::room &); static mods::import state__rebuild_history { "m_room", "state__rebuild_history" }; const size_t count { state__rebuild_history(room) }; out << "done " << count << std::endl; return true; } bool console_cmd__room__state__history__clear(opt &out, const string_view &line) { const params param{line, " ", { "room_id" }}; const auto &room_id { m::room_id(param.at(0)) }; const m::room room { room_id }; using prototype = size_t (const m::room &); static mods::import state__clear_history { "m_room", "state__clear_history" }; const size_t count { state__clear_history(room) }; out << "done " << count << std::endl; return true; } bool console_cmd__room__state__prefetch(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "[event_id_or_type]", "[type]" }}; const auto &room_id { m::room_id(param.at("room_id")) }; const auto &event_id_or_type { param.at("[event_id_or_type]", string_view{}) }; const auto is_event_id { m::has_sigil(event_id_or_type) && valid(m::id::EVENT, event_id_or_type) }; const string_view &event_id { is_event_id? event_id_or_type: string_view{} }; const auto &type { is_event_id? param.at("[type]", string_view{}): event_id_or_type }; const m::room room { room_id, event_id }; const m::room::state state { room }; const size_t prefetched { state.prefetch(type) }; out << "prefetched " << prefetched << std::endl; return true; } bool console_cmd__room__state__cache(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "[event_id_or_type]", "[type]" }}; const auto &room_id { m::room_id(param.at("room_id")) }; const auto &event_id_or_type { param.at("[event_id_or_type]", string_view{}) }; const auto is_event_id { m::has_sigil(event_id_or_type) && valid(m::id::EVENT, event_id_or_type) }; const string_view &event_id { is_event_id? event_id_or_type: string_view{} }; const auto &type { is_event_id? param.at("[type]", string_view{}): event_id_or_type }; const m::room room { room_id, event_id }; const m::room::state state { room }; size_t total(0); std::array res {{0}}; state.for_each(type, m::event::closure_idx{[&total, &res] (const m::event::idx &event_idx) { const byte_view &key(event_idx); for(size_t i(0); i < m::dbs::event_column.size(); ++i) { const auto &column(m::dbs::event_column[i]); res[i] += db::exists(db::cache(column), key); } ++total; }}); std::array keys; _key_transform(m::event{}, begin(keys), end(keys)); assert(res.size() == keys.size()); for(size_t i(0); i < keys.size(); ++i) out << std::left << std::setw(16) << keys[i] << " " << std::right << std::setw(6) << res[i] << " of " << std::left << std::setw(6) << total << std::endl; return true; } bool console_cmd__room__count(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "{event_filter_json}" }}; const auto &room_id { m::room_id(param.at(0)) }; const m::event_filter filter { param[1] }; const m::room room { room_id }; auto limit { json::get<"limit"_>(filter)?: -1 }; size_t count{0}; m::room::messages it{room}; for(; it && limit; --it, --limit) { const m::event &event{*it}; count += match(filter, event); } out << count << std::endl; return true; } bool console_cmd__room__events(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "depth|-limit", "order", "limit" }}; const auto &room_id { m::room_id(param.at(0)) }; const int64_t depth { param.at(1, std::numeric_limits::max()) }; const char order { param.at(2, "b"_sv).at(0) }; ssize_t limit { depth < 0? std::abs(depth): param.at(3, ssize_t(32)) }; const bool roots { has(out.special, "roots") }; const m::room room { room_id }; m::room::messages it{room}; if(depth >= 0 && depth < std::numeric_limits::max()) it.seek(depth); for(; it && limit >= 0; order == 'b'? --it : ++it, --limit) if(roots) out << std::setw(48) << std::left << it.state_root() << " " << std::setw(8) << std::right << it.event_idx() << " " << std::setw(8) << std::right << it.depth() << " " << it.event_id() << std::endl; else out << pretty_oneline(*it) << std::endl; return true; } bool console_cmd__room__messages(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "depth|-limit", "order", "limit" }}; const auto &room_id { m::room_id(param.at(0)) }; const int64_t depth { param.at(1, std::numeric_limits::max()) }; const char order { param.at(2, "b"_sv).at(0) }; ssize_t limit { depth < 0? std::abs(depth): param.at(3, ssize_t(32)) }; const m::room room { room_id }; m::room::messages it{room}; if(depth >= 0 && depth < std::numeric_limits::max()) it.seek(depth); for(; it && limit >= 0; order == 'b'? --it : ++it, --limit) out << pretty_msgline(*it) << std::endl; return true; } bool console_cmd__room__roots(opt &out, const string_view &line) { assert(!out.special); out.special = "roots"; return console_cmd__room__events(out, line); } bool console_cmd__room__get(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "type", "state_key", "args" }}; const auto &room_id { m::room_id(param.at(0)) }; const string_view type { param.at(1) }; const string_view state_key { param.at(2) }; const string_view arg { param[3] }; const m::room::state room { room_id }; room.get(type, state_key, [&out, &arg] (const m::event &event) { if(has(arg, "raw")) out << event << std::endl; else if(has(arg, "content")) out << json::get<"content"_>(event) << std::endl; else out << pretty(event) << std::endl; }); return true; } bool console_cmd__room__set(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "sender", "type", "state_key", "content", "[prev_event_id]" }}; const auto &room_id { m::room_id(param.at(0)) }; const m::user::id &sender { param.at(1) }; const string_view type { param.at(2) }; const string_view state_key { param.at(3) }; const json::object &content { param.at(4, json::object{}) }; const string_view prev_event_id { param[5] }; const m::room room { room_id, prev_event_id }; const auto event_id { send(room, sender, type, state_key, content) }; out << event_id << std::endl; return true; } bool console_cmd__room__send(opt &out, const string_view &line) { const params param { line, " ", { "room_id", "sender", "type", "content", "[prev_event_id]" } }; const auto &room_id { m::room_id(param.at(0)) }; const m::user::id &sender { param.at(1) }; const string_view type { param.at(2) }; const json::object &content { param.at(3, json::object{}) }; const string_view prev_event_id { param[4] }; const m::room room { room_id, prev_event_id }; const auto event_id { send(room, sender, type, content) }; out << event_id << std::endl; return true; } bool console_cmd__room__message(opt &out, const string_view &line) { const auto &room_id { m::room_id(token(line, ' ', 0)) }; const m::user::id &sender { token(line, ' ', 1) }; const string_view body { tokens_after(line, ' ', 1) }; const m::room room { room_id }; const auto event_id { message(room, sender, body) }; out << event_id << std::endl; return true; } bool console_cmd__room__redact(opt &out, const string_view &line) { const auto &room_id { m::room_id(token(line, ' ', 0)) }; const m::event::id &redacts { token(line, ' ', 1) }; const m::user::id &sender { token(line, ' ', 2) }; const string_view reason { tokens_after(line, ' ', 2) }; const m::room room { room_id }; const auto event_id { redact(room, sender, redacts, reason) }; out << event_id << std::endl; return true; } bool console_cmd__room__join(opt &out, const string_view &line) { const string_view room_id_or_alias { token(line, ' ', 0) }; const m::user::id &user_id { token(line, ' ', 1) }; const string_view &event_id { token(line, ' ', 2, {}) }; switch(m::sigil(room_id_or_alias)) { case m::id::ROOM: { const m::room room { room_id_or_alias, event_id }; const auto join_event { m::join(room, user_id) }; out << join_event << std::endl; return true; } case m::id::ROOM_ALIAS: { const m::room::alias alias { room_id_or_alias }; const auto join_event { m::join(alias, user_id) }; out << join_event << std::endl; return true; } default: throw error { "Don't know how to join '%s'", room_id_or_alias }; } return true; } bool console_cmd__room__leave(opt &out, const string_view &line) { const params param{line, " ", { "room_id_or_alias", "user_id" }}; const m::room::id::buf room_id { m::room_id(param.at("room_id_or_alias")) }; const m::user::id::buf user_id { param.at("user_id") }; const m::room room { room_id }; const auto leave_event_id { m::leave(room, user_id) }; out << leave_event_id << std::endl; return true; } bool console_cmd__room__create(opt &out, const string_view &line) { const params param { line, " ", { "room_id", "[creator]", "[type]", "[parent]" } }; const m::room::id room_id { param.at(0) }; const m::user::id creator { param.at(1, m::me.user_id) }; const string_view type { param[2] }; const string_view &parent { param[3] }; const m::room room { parent? m::create(room_id, creator, parent, type): m::create(room_id, creator, type) }; out << room.room_id << std::endl; return true; } bool console_cmd__room__id(opt &out, const string_view &id) { if(m::has_sigil(id)) switch(m::sigil(id)) { case m::id::USER: out << m::user{id}.room_id() << std::endl; break; case m::id::NODE: out << m::node{id}.room_id() << std::endl; break; case m::id::ROOM_ALIAS: out << m::room_id(m::room::alias(id)) << std::endl; break; default: break; } return true; } bool console_cmd__room__purge(opt &out, const string_view &line) { const auto &room_id { m::room_id(token(line, ' ', 0)) }; const m::room room { room_id }; using prototype = size_t (const m::room &); static mods::import purge { "m_room", "purge" }; const size_t ret { purge(room) }; out << "erased " << ret << std::endl; return true; } bool console_cmd__room__dagree(opt &out, const string_view &line) { const params param{line, " ", { "room_id", }}; const auto &room_id { m::room_id(param.at(0)) }; const m::room room { room_id }; using prototype = size_t (const m::room &, std::vector &); static mods::import dagree_histogram { "m_room", "dagree_histogram" }; std::vector v(32, 0); const size_t count { dagree_histogram(room, v) }; for(size_t i(0); i < v.size(); ++i) out << std::setw(2) << std::right << i << ": " << v.at(i) << std::endl; return true; } // // user // //TODO: XXX bool console_id__user(opt &out, const m::user::id &id, const string_view &args) { return true; } bool console_cmd__user__register(opt &out, const string_view &line) { const params param{line, " ", { "username", "password" }}; const string_view &username { param.at(0) }; const string_view &password { param.at(1) }; const m::registar request { { "username", username }, { "password", password }, { "bind_email", false }, }; using prototype = std::string (const m::registar &, const client *const &, const bool &); static mods::import register_user { "client_register", "register_user" }; const auto ret { register_user(request, nullptr, false) }; out << ret << std::endl; return true; } bool console_cmd__user__password(opt &out, const string_view &line) { const params param { line, " ", { "user_id", "password" } }; m::user user { param.at(0) }; const string_view &password { param.at(1) }; const auto eid { user.password(password) }; out << eid << std::endl; return true; } bool console_cmd__user__active(opt &out, const string_view &line) { const params param { line, " ", { "user_id" } }; const m::user user { param.at(0) }; out << user.user_id << " is " << (user.is_active()? "active" : "inactive") << std::endl; return true; } bool console_cmd__user__activate(opt &out, const string_view &line) { const params param { line, " ", { "user_id" } }; m::user user { param.at(0) }; if(user.is_active()) { out << user.user_id << " is already active" << std::endl; return true; } const auto eid { user.activate() }; out << eid << std::endl; return true; } bool console_cmd__user__deactivate(opt &out, const string_view &line) { const params param { line, " ", { "user_id" } }; m::user user { param.at(0) }; if(!user.is_active()) { out << user.user_id << " is already inactive" << std::endl; return true; } const auto eid { user.deactivate() }; out << eid << std::endl; return true; } bool console_cmd__user__presence(opt &out, const string_view &line) { const params param{line, " ", { "user_id", "limit" }}; const m::user user { param.at(0) }; auto limit { param.at(1, size_t(16)) }; const m::user::room user_room{user}; user_room.for_each("ircd.presence", m::event::closure_bool{[&out, &limit] (const m::event &event) { out << timestr(at<"origin_server_ts"_>(event) / 1000) << " " << at<"content"_>(event) << " " << at<"event_id"_>(event) << std::endl; return --limit > 0; }}); return true; } bool console_cmd__user__rooms(opt &out, const string_view &line) { const params param{line, " ", { "user_id", "[membership]" }}; const m::user &user { param.at(0) }; const string_view &membership { param[1] }; const m::user::rooms rooms { user }; rooms.for_each(membership, m::user::rooms::closure{[&out] (const m::room &room, const string_view &membership) { out << room.room_id << " " << membership << std::endl; }}); return true; } bool console_cmd__user__rooms__origins(opt &out, const string_view &line) { const params param{line, " ", { "user_id", "[membership]" }}; const m::user &user { param.at(0) }; const string_view &membership { param[1] }; const m::user::rooms::origins origins { user }; origins.for_each(membership, m::user::rooms::origins::closure{[&out] (const string_view &origin) { out << origin << std::endl; }}); return true; } bool console_cmd__user__read(opt &out, const string_view &line) { const params param{line, " ", { "user_id", }}; const m::user user { param.at(0) }; const m::user::room user_room{user}; const m::room::state state{user_room}; state.for_each("ircd.read", m::event::closure{[&out] (const m::event &event) { out << timestr(at<"origin_server_ts"_>(event) / 1000) << " " << at<"state_key"_>(event) << " " << at<"content"_>(event) << " " << at<"event_id"_>(event) << std::endl; }}); return true; } bool console_cmd__user__read__receipt(opt &out, const string_view &line) { const params param{line, " ", { "user_id", "event_id", "[room_id]|[time]" }}; const m::user::id user_id { param.at(0) }; const m::event::id event_id { param.at(1) }; m::room::id::buf room_id { param[2]? param[2]: string_view{m::get(event_id, "room_id", room_id)} }; const time_t &ms { param.at(3, ircd::time()) }; const auto eid { m::receipt::read(room_id, user_id, event_id, ms) }; out << eid << std::endl; return true; } bool console_cmd__user__read__ignore(opt &out, const string_view &line) { const params param{line, " ", { "my_user_id", "target_user|room_id" }}; const m::user my_user { param.at(0) }; string_view target { param[1] }; const m::user::room user_room { my_user }; if(!target) { m::room::state{user_room}.for_each("ircd.read.ignore", [&out] (const m::event &event) { out << at<"state_key"_>(event) << std::endl; }); return true; } char buf[m::id::MAX_SIZE]; switch(m::sigil(target)) { case m::id::USER: case m::id::ROOM: break; case m::id::ROOM_ALIAS: target = m::room_id(buf, target); break; default: throw error { "Unsupported target MXID type for receipt ignores." }; } if(user_room.has("ircd.read.ignore", target)) { out << "User " << my_user.user_id << " is already not sending" << " receipts for messages from " << target << std::endl; return true; } const auto eid { send(user_room, m::me.user_id, "ircd.read.ignore", target, json::object{}) }; out << "User " << my_user.user_id << " will not send receipts for" << " messages from " << target << " (" << eid << ")" << std::endl; return true; } bool console_cmd__user__filter(opt &out, const string_view &line) { const params param{line, " ", { "user_id", "[filter_id]" }}; const m::user user { param.at(0) }; const auto &filter_id { param[1] }; if(filter_id) { out << user.filter(filter_id) << std::endl; return true; } const m::user::room user_room{user}; const m::room::state state{user_room}; state.for_each("ircd.filter", m::event::closure{[&out] (const m::event &event) { out << at<"state_key"_>(event) << std::endl; out << at<"content"_>(event) << std::endl; out << std::endl; }}); return true; } bool console_cmd__user__events(opt &out, const string_view &line) { const params param{line, " ", { "user_id", "limit" }}; const m::user::events user { m::user(param.at("user_id")) }; size_t limit { param.at("limit", 32) }; user.for_each([&out, &limit] (const m::event &event) { out << pretty_oneline(event) << std::endl;; return bool(--limit); }); return true; } bool console_cmd__user__events__count(opt &out, const string_view &line) { const params param{line, " ", { "user_id" }}; const m::user::events user { m::user(param.at("user_id")) }; out << user.count() << std::endl; return true; } // // users // bool console_cmd__users(opt &out, const string_view &line) { const params param{line, " ", { "prefix" }}; const auto prefix { param.at("prefix", string_view{}) }; m::users::for_each(prefix, m::user::closure_bool{[&out, &prefix] (const m::user &user) { if(prefix && !startswith(user.user_id, prefix)) return false; out << user.user_id << std::endl; return true; }}); return true; } // // typing // bool console_cmd__typing(opt &out, const string_view &line) { m::typing::for_each([&out] (const m::typing &event) { out << event << std::endl; }); return true; } // // node // //TODO: XXX bool console_id__node(opt &out, const m::node::id &id, const string_view &args) { return true; } bool console_cmd__node__keys(opt &out, const string_view &line) { const params param{line, " ", { "node_id", "[limit]" }}; const m::node::id::buf node_id { m::node::id::origin, param.at(0) }; const m::node &node { node_id }; auto limit { param.at(1, size_t(1)) }; const m::node::room node_room{node}; const m::room::state state{node_room}; state.for_each("ircd.key", m::event::closure_bool{[&out, &limit] (const m::event &event) { const m::keys keys { json::get<"content"_>(event) }; out << keys << std::endl; return --limit; }}); return true; } bool console_cmd__node__key(opt &out, const string_view &line) { const params param{line, " ", { "node_id", "key_id" }}; const m::node::id::buf node_id { m::node::id::origin, param.at(0) }; const m::node &node { node_id }; const auto &key_id { param[1] }; const m::node::room node_room{node}; node_room.get("ircd.key", [&out] (const m::event &event) { const m::keys key { json::get<"content"_>(event) }; out << key << std::endl; }); return true; } // // feds // bool console_cmd__feds__version(opt &out, const string_view &line) { const params param{line, " ", { "room_id", }}; const auto room_id { m::room_id(param.at(0)) }; using closure_prototype = bool (const string_view &, std::exception_ptr, const json::object &); using prototype = void (const m::room::id &, const milliseconds &, const std::function &); static mods::import feds__version { "federation_federation", "feds__version" }; feds__version(room_id, out.timeout, [&out] (const string_view &origin, std::exception_ptr eptr, const json::object &response) { out << (eptr? '-' : '+') << " " << std::setw(40) << std::left << origin << " "; if(eptr) out << what(eptr); else out << string_view{response}; out << std::endl; return true; }); return true; } bool console_cmd__feds__state(opt &out, const string_view &line) { const params param{line, " ", { "room_id", }}; const auto room_id { m::room_id(param.at(0)) }; const m::event::id::buf &event_id { param.count() > 1? param.at(1) : m::head(room_id) }; std::forward_list origins; std::map, std::less<>> grid; const auto closure{[&out, &grid, &origins] (const string_view &origin, std::exception_ptr eptr, const json::object &response) { if(eptr) return true; const json::array &auth_chain { response["auth_chain_ids"] }; const json::array &pdus { response["pdu_ids"] }; for(const auto &pdu_id : pdus) { const auto &event_id{unquote(pdu_id)}; auto it { grid.lower_bound(event_id) }; if(it == end(grid) || it->first != event_id) it = grid.emplace_hint(it, event_id, std::forward_list{}); origins.emplace_front(origin); it->second.emplace_front(origins.front()); } return true; }}; m::feds::state { room_id, event_id, out.timeout, closure }; for(auto &p : grid) { p.second.sort(); out << std::setw(64) << std::left << p.first << " : "; for(const auto &origin : p.second) out << " " << origin; out << std::endl; } return true; } bool console_cmd__feds__event(opt &out, const string_view &line) { const params param{line, " ", { "event_id" }}; const m::event::id event_id { param.at(0) }; using prototype = void (const m::event::id &, std::ostream &); static mods::import feds__event { "federation_federation", "feds__event" }; feds__event(event_id, out); return true; } bool console_cmd__feds__head(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "[user_id]" }}; const auto &room_id { m::room_id(param.at(0)) }; const m::user::id &user_id { param.at(1, m::me.user_id) }; m::feds::head(room_id, user_id, out.timeout, [&out] (const string_view &origin, std::exception_ptr eptr, const json::object &event) { if(eptr) return true; const json::array prev_events { event.at("prev_events") }; out << "+ " << std::setw(40) << std::left << origin; out << " " << event.at("depth"); for(const json::array prev_event : prev_events) { const auto &prev_event_id { unquote(prev_event.at(0)) }; out << " " << string_view{prev_event_id}; }; out << std::endl; return true; }); return true; } bool console_cmd__feds__auth(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "[user_id]" }}; const auto &room_id { m::room_id(param.at(0)) }; const m::user::id &user_id { param.at(1, m::me.user_id) }; using closure_prototype = bool (const string_view &, std::exception_ptr, const json::object &); using prototype = void (const m::room::id &, const m::user::id &, const milliseconds &, const std::function &); static mods::import feds__head { "federation_federation", "feds__head" }; feds__head(room_id, user_id, out.timeout, [&out] (const string_view &origin, std::exception_ptr eptr, const json::object &event) { if(eptr) return true; const json::array auth_events { event.at("auth_events") }; out << "+ " << std::setw(40) << std::left << origin; for(const json::array auth_event : auth_events) { const auto &auth_event_id { unquote(auth_event.at(0)) }; out << " " << string_view{auth_event_id}; }; out << std::endl; return true; }); return true; } bool console_cmd__feds__heads(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "[user_id]" }}; const auto &room_id { m::room_id(param.at(0)) }; const m::user::id &user_id { param.at(1, m::me.user_id) }; using closure_prototype = bool (const string_view &, std::exception_ptr, const json::object &); using prototype = void (const m::room::id &, const m::user::id &, const milliseconds &, const std::function &); static mods::import feds__head { "federation_federation", "feds__head" }; std::forward_list origins; std::map, std::less<>> grid; feds__head(room_id, user_id, out.timeout, [&origins, &grid] (const string_view &origin, std::exception_ptr eptr, const json::object &event) { if(eptr) return true; const json::array &prev_events { event.at("prev_events") }; for(const json::array &prev_event : prev_events) { const auto &event_id { unquote(prev_event.at(0)) }; auto it { grid.lower_bound(event_id) }; if(it == end(grid) || it->first != event_id) it = grid.emplace_hint(it, event_id, std::forward_list{}); origins.emplace_front(origin); it->second.emplace_front(origins.front()); } return true; }); for(auto &p : grid) { p.second.sort(); out << std::setw(64) << std::left << p.first << " : "; for(const auto &origin : p.second) out << " " << origin; out << std::endl; } return true; } bool console_cmd__feds__perspective(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "server_name", "key_id", }}; const auto &room_id { m::room_id(param.at(0)) }; const string_view &server_name { param.at(1) }; const string_view &key_id { param.at(2) }; using closure_prototype = bool (const string_view &, std::exception_ptr, const json::array &); using prototype = void (const m::room::id &, const m::v1::key::server_key &, const milliseconds &, const std::function &); static mods::import feds__perspective { "federation_federation", "feds__perspective" }; const m::v1::key::server_key server_key { server_name, key_id }; feds__perspective(room_id, server_key, out.timeout, [&out] (const string_view &origin, std::exception_ptr eptr, const json::array &keys) { if(eptr) return true; for(const json::object &_key : keys) { const m::keys &key{_key}; out << key << std::endl; } return true; }); return true; } bool console_cmd__feds__backfill(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "[event_id]", "[limit]" }}; const auto &room_id { m::room_id(param.at(0)) }; const m::event::id::buf &event_id { param.count() > 1? param.at(1) : head(room_id) }; const size_t limit { param.at(2, size_t(4)) }; using prototype = void (const m::room::id &, const m::event::id &, const size_t &, std::ostream &); static mods::import feds__backfill { "federation_federation", "feds__backfill" }; feds__backfill(room_id, event_id, limit, out); return true; } bool console_cmd__feds__resend(opt &out, const string_view &line) { const params param{line, " ", { "event_id", }}; const m::event::id event_id { param.at(0) }; const m::event::fetch event { event_id }; m::vm::opts opts; opts.replays = true; opts.conforming = false; opts.fetch = false; opts.eval = false; opts.write = false; opts.effects = false; opts.notify = true; m::vm::eval { m::event{event}, opts }; return true; } // // fed // bool console_cmd__fed__groups(opt &out, const string_view &line) { const m::id::node &node { token(line, ' ', 0) }; const auto args { tokens_after(line, ' ', 0) }; m::user::id ids[8]; string_view tok[8]; const auto count{std::min(tokens(args, ' ', tok), size_t(8))}; std::copy(begin(tok), begin(tok) + count, begin(ids)); const unique_buffer buf { 32_KiB }; m::v1::groups::publicised::opts opts; m::v1::groups::publicised request { node, vector_view(ids, count), buf, std::move(opts) }; request.wait(out.timeout); request.get(); const json::object response { request.in.content }; out << string_view{response} << std::endl; return true; } bool console_cmd__fed__head(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "remote", "user_id" }}; const auto &room_id { m::room_id(param.at(0)) }; const net::hostport remote { param.at(1, room_id.host()) }; const m::user::id &user_id { param.at(2, m::me.user_id) }; thread_local char buf[16_KiB]; m::v1::make_join::opts opts; opts.remote = remote; m::v1::make_join request { room_id, user_id, buf, std::move(opts) }; request.wait(out.timeout); request.get(); const json::object proto { request.in.content }; out << "DEPTH " << proto.get({"event", "depth"}) << std::endl; const json::array &prev_events { proto.get({"event", "prev_events"}) }; for(const json::array &prev_event : prev_events) { const m::event::id &id { unquote(prev_event.at(0)) }; out << "PREV " << id << " " << string_view{prev_event.at(1)} << std::endl; } const json::array &auth_events { proto.get({"event", "auth_events"}) }; for(const json::array &auth_event : auth_events) { const m::event::id &id { unquote(auth_event.at(0)) }; out << "AUTH " << id << " " << string_view{auth_event.at(1)} << std::endl; } return true; } bool console_cmd__fed__send(opt &out, const string_view &line) { const params param{line, " ", { "remote", "event_id", }}; const net::hostport remote { param.at(0) }; const m::event::id &event_id { param.at(1) }; const m::event::fetch event { event_id }; thread_local char pdubuf[m::event::MAX_SIZE]; const json::value pdu { json::stringify(mutable_buffer{pdubuf}, event) }; const vector_view pdus { &pdu, &pdu + 1 }; const auto txn { m::txn::create(pdus) }; thread_local char idbuf[128]; const auto txnid { m::txn::create_id(idbuf, txn) }; const unique_buffer bufs { 16_KiB }; m::v1::send::opts opts; opts.remote = remote; m::v1::send request { txnid, const_buffer{txn}, bufs, std::move(opts) }; request.wait(out.timeout); const auto code { request.get() }; const json::object response { request }; const m::v1::send::response resp { response }; resp.for_each_pdu([&] (const m::event::id &event_id, const json::object &error) { out << remote << " ->" << txnid << " " << event_id << " "; if(empty(error)) out << http::status(code) << std::endl; else out << string_view{error} << std::endl; }); return true; } bool console_cmd__fed__sync(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "remote", "limit", "event_id", "timeout" }}; const auto &room_id { m::room_id(param.at(0)) }; const net::hostport remote { param.at(1, room_id.host()) }; const auto &limit { param.at(2, size_t(128)) }; const string_view &event_id { param[3] }; const auto timeout { param.at(4, out.timeout) }; // Used for out.head, out.content, in.head, but in.content is dynamic const unique_buffer buf { 32_KiB }; m::v1::state::opts stopts; stopts.remote = remote; stopts.event_id = event_id; const mutable_buffer stbuf { data(buf), size(buf) / 2 }; m::v1::state strequest { room_id, stbuf, std::move(stopts) }; m::v1::backfill::opts bfopts; bfopts.remote = remote; bfopts.event_id = event_id; bfopts.limit = limit; const mutable_buffer bfbuf { buf + size(stbuf) }; m::v1::backfill bfrequest { room_id, bfbuf, std::move(bfopts) }; const auto when { now() + timeout }; bfrequest.wait_until(when); strequest.wait_until(when); bfrequest.get(); strequest.get(); const json::array &auth_chain { json::object{strequest}.get("auth_chain") }; const json::array &pdus { json::object{strequest}.get("pdus") }; const json::array &messages { json::object{bfrequest}.get("pdus") }; std::vector events; events.reserve(auth_chain.size() + pdus.size() + messages.size()); for(const json::object &event : auth_chain) events.emplace_back(event); for(const json::object &event : pdus) events.emplace_back(event); for(const json::object &event : messages) events.emplace_back(event); std::sort(begin(events), end(events)); events.erase(std::unique(begin(events), end(events)), end(events)); m::vm::opts vmopts; vmopts.non_conform.set(m::event::conforms::MISSING_PREV_STATE); vmopts.non_conform.set(m::event::conforms::MISSING_MEMBERSHIP); vmopts.prev_check_exists = false; vmopts.head_must_exist = false; vmopts.history = false; vmopts.verify = false; vmopts.notify = false; vmopts.debuglog_accept = true; vmopts.nothrows = -1; m::vm::eval eval { vmopts }; for(const auto &event : events) eval(event); return true; } bool console_cmd__fed__state(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "remote", "event_id|op", "op" }}; const auto &room_id { m::room_id(param.at(0)) }; const net::hostport remote { param.at(1, room_id.host()) }; string_view event_id { param[2] }; string_view op { param[3] }; if(!op && event_id == "eval") std::swap(op, event_id); // Used for out.head, out.content, in.head, but in.content is dynamic thread_local char buf[8_KiB]; m::v1::state::opts opts; opts.remote = remote; opts.event_id = event_id; m::v1::state request { room_id, buf, std::move(opts) }; request.wait(out.timeout); request.get(); const json::object &response { request }; const json::array &auth_chain { response["auth_chain"] }; const json::array &pdus { response["pdus"] }; if(op != "eval") { if(op != "auth") for(const json::object &event : pdus) out << pretty_oneline(m::event{event}) << std::endl; out << std::endl; if(op != "state") for(const json::object &event : auth_chain) out << pretty_oneline(m::event{event}) << std::endl; return true; } m::vm::opts vmopts; vmopts.non_conform.set(m::event::conforms::MISSING_PREV_STATE); vmopts.non_conform.set(m::event::conforms::MISSING_MEMBERSHIP); vmopts.prev_check_exists = false; vmopts.head_must_exist = false; vmopts.verify = false; vmopts.history = false; vmopts.notify = false; m::vm::eval eval { vmopts }; std::vector events; events.reserve(size(pdus) + size(auth_chain)); for(const json::object &event : auth_chain) events.emplace_back(event); for(const json::object &event : pdus) events.emplace_back(event); std::sort(begin(events), end(events)); events.erase(std::unique(begin(events), end(events)), end(events)); for(const auto &event : events) eval(event); return true; } bool console_cmd__fed__state_ids(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "remote", "event_id" }}; const auto &room_id { m::room_id(param.at(0)) }; const net::hostport remote { param.at(1, room_id.host()) }; string_view event_id { param[2] }; // Used for out.head, out.content, in.head, but in.content is dynamic thread_local char buf[8_KiB]; m::v1::state::opts opts; opts.remote = remote; opts.event_id = event_id; opts.ids_only = true; m::v1::state request { room_id, buf, std::move(opts) }; request.wait(out.timeout); request.get(); const json::object &response { request }; const json::array &auth_chain { response["auth_chain_ids"] }; const json::array &pdus { response["pdu_ids"] }; out << "AUTH:" << std::endl; for(const string_view &event_id : auth_chain) out << unquote(event_id) << std::endl; out << std::endl; out << "STATE:" << std::endl; for(const string_view &event_id : pdus) out << unquote(event_id) << std::endl; return true; } bool console_cmd__fed__backfill(opt &out, const string_view &line) { const auto &room_id { m::room_id(token(line, ' ', 0)) }; const net::hostport remote { token(line, ' ', 1) }; const string_view &count { token(line, ' ', 2, "32") }; string_view event_id { token(line, ' ', 3, {}) }; string_view op { token(line, ' ', 4, {}) }; if(!op && event_id == "eval") std::swap(op, event_id); // Used for out.head, out.content, in.head, but in.content is dynamic thread_local char buf[16_KiB]; m::v1::backfill::opts opts; opts.remote = remote; opts.limit = lex_cast(count); if(event_id) opts.event_id = event_id; m::v1::backfill request { room_id, buf, std::move(opts) }; request.wait(out.timeout); request.get(); const json::object &response { request }; const json::array &pdus { response["pdus"] }; if(op != "eval") { for(const json::object &event : pdus) out << pretty_oneline(m::event{event}) << std::endl; return true; } m::vm::opts vmopts; vmopts.non_conform.set(m::event::conforms::MISSING_PREV_STATE); vmopts.non_conform.set(m::event::conforms::MISSING_MEMBERSHIP); vmopts.prev_check_exists = false; vmopts.head_must_exist = false; vmopts.history = false; vmopts.verify = false; vmopts.notify = false; vmopts.head = false; vmopts.refs = true; m::vm::eval eval { vmopts }; std::vector events; events.reserve(lex_cast(count)); for(const json::object &event : pdus) events.emplace_back(event); std::sort(begin(events), end(events)); events.erase(std::unique(begin(events), end(events)), end(events)); for(const auto &event : events) eval(event); return true; } bool console_cmd__fed__frontfill(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "remote", "earliest", "latest", "[limit]", "[min_depth]" }}; const auto &room_id { m::room_id(param.at(0)) }; const net::hostport remote { param.at(1, room_id.host()) }; const m::event::id &earliest { param.at(2) }; const m::event::id::buf &latest { param.at(3, m::head(std::nothrow, room_id)) }; const auto &limit { param.at(4, 32UL) }; const auto &min_depth { param.at(5, 0UL) }; m::v1::frontfill::opts opts; opts.remote = remote; opts.limit = limit; opts.min_depth = min_depth; const unique_buffer buf { 16_KiB }; m::v1::frontfill request { room_id, {earliest, latest}, buf, std::move(opts) }; request.wait(out.timeout); request.get(); const json::array &response { request }; for(const json::object &event : response) out << pretty_oneline(m::event{event}) << std::endl; return true; } bool console_cmd__fed__event(opt &out, const string_view &line) { const params param{line, " ", { "event_id", "remote", "[op]" }}; const m::event::id &event_id { param.at(0) }; const net::hostport &remote { param.at(1, event_id.host()) }; const string_view op { param[2] }; m::v1::event::opts opts; opts.remote = remote; const unique_buffer buf { 96_KiB }; m::v1::event request { event_id, buf, std::move(opts) }; request.wait(out.timeout); request.get(); // Use this option to debug from the actual http response // content sent from the remote without any further action. if(has(op, "noparse")) { out << string_view{request.in.content} << std::endl; return true; } const json::object &response { request }; const m::event event { response }; out << pretty(event) << std::endl; try { if(!verify(event)) out << "- SIGNATURE FAILED" << std::endl; } catch(const std::exception &e) { out << "- SIGNATURE FAILED: " << e.what() << std::endl; } if(!verify_hash(event)) out << "- HASH MISMATCH: " << b64encode_unpadded(hash(event)) << std::endl; const m::event::conforms conforms { event }; if(!conforms.clean()) out << "- " << conforms << std::endl; if(has(op, "raw")) out << string_view{response} << std::endl; if(!has(op, "eval")) return true; m::vm::opts vmopts; vmopts.non_conform.set(m::event::conforms::MISSING_PREV_STATE); vmopts.non_conform.set(m::event::conforms::MISSING_MEMBERSHIP); vmopts.prev_check_exists = false; vmopts.head_must_exist = false; vmopts.history = false; vmopts.notify = false; vmopts.verify = false; m::vm::eval eval { vmopts }; eval(event); return true; } bool console_cmd__fed__public_rooms(opt &out, const string_view &line) { const params param{line, " ", { "remote", "limit", "all_networks", "3pid" }}; const net::hostport remote { param.at(0) }; const auto limit { param.at(1, 32) }; const auto all_nets { param.at(2, false) }; const auto tpid { param[3] }; m::v1::public_rooms::opts opts; opts.limit = limit; opts.third_party_instance_id = tpid; opts.include_all_networks = all_nets; const unique_buffer buf { 16_KiB }; m::v1::public_rooms request { remote, buf, std::move(opts) }; request.wait(out.timeout); request.get(); const json::object &response { request }; const auto total_estimate { response.get("total_room_count_estimate") }; const auto next_batch { unquote(response.get("next_batch")) }; const json::array &rooms { response.get("chunk") }; for(const json::object &summary : rooms) { for(const auto &member : summary) out << std::setw(24) << member.first << " => " << member.second << std::endl; out << std::endl; } out << "total: " << total_estimate << std::endl; out << "next: " << next_batch << std::endl; return true; } bool console_cmd__fed__event_auth(opt &out, const string_view &line) { const params param{line, " ", { "room_id", "event_id", "remote" }}; const auto room_id { m::room_id(param.at(0)) }; const m::event::id &event_id { param.at(1) }; const net::hostport remote { param.at(2, event_id.host()) }; m::v1::event_auth::opts opts; opts.remote = remote; const unique_buffer buf { 16_KiB }; m::v1::event_auth request { room_id, event_id, buf, std::move(opts) }; request.wait(out.timeout); request.get(); const json::array &auth_chain { request }; std::vector events(size(auth_chain)); std::transform(begin(auth_chain), end(auth_chain), begin(events), [] (const json::object &event) -> m::event { return event; }); std::sort(begin(events), end(events)); for(const auto &event : events) out << pretty_oneline(event) << std::endl; return true; } bool console_cmd__fed__query__profile(opt &out, const string_view &line) { const m::user::id &user_id { token(line, ' ', 0) }; const net::hostport remote { token_count(line, ' ') > 1? token(line, ' ', 1) : user_id.host() }; m::v1::query::opts opts; opts.remote = remote; thread_local char buf[8_KiB]; m::v1::query::profile request { user_id, buf, std::move(opts) }; request.wait(out.timeout); const auto code { request.get() }; const json::object &response { request }; out << string_view{response} << std::endl; return true; } bool console_cmd__fed__query__directory(opt &out, const string_view &line) { const m::id::room_alias &room_alias { token(line, ' ', 0) }; const net::hostport remote { token_count(line, ' ') > 1? token(line, ' ', 1) : room_alias.host() }; m::v1::query::opts opts; opts.remote = remote; thread_local char buf[8_KiB]; m::v1::query::directory request { room_alias, buf, std::move(opts) }; request.wait(out.timeout); const auto code { request.get() }; const json::object &response { request }; out << string_view{response} << std::endl; return true; } bool console_cmd__fed__user__devices(opt &out, const string_view &line) { const m::id::user &user_id { token(line, ' ', 0) }; const net::hostport remote { token(line, ' ', 1, user_id.host()) }; m::v1::user::devices::opts opts; opts.remote = remote; const unique_buffer buf { 32_KiB }; m::v1::user::devices request { user_id, buf, std::move(opts) }; request.wait(out.timeout); const auto code { request.get() }; const json::object &response { request }; const string_view stream_id { unquote(response["stream_id"]) }; const json::array &devices { response["devices"] }; for(const json::object &device : devices) out << string_view{device} << std::endl; out << "-- " << size(devices) << " devices." << std::endl; return true; } bool console_cmd__fed__query__client_keys(opt &out, const string_view &line) { const m::id::user &user_id { token(line, ' ', 0) }; const string_view &device_id { token(line, ' ', 1) }; const net::hostport remote { token(line, ' ', 2, user_id.host()) }; m::v1::query::opts opts; opts.remote = remote; const unique_buffer buf { 32_KiB }; m::v1::query::client_keys request { user_id, device_id, buf, std::move(opts) }; request.wait(out.timeout); const auto code { request.get() }; const json::object &response { request }; out << string_view{response} << std::endl; return true; } bool console_cmd__fed__key(opt &out, const string_view &line) { const params param{line, " ", { "remote", }}; const auto &server_name { param.at(0) }; const auto &key_id { param[1] }; const unique_buffer buf{16_KiB}; m::v1::key::opts opts; m::v1::key::keys request { {server_name, key_id}, buf, std::move(opts) }; request.wait(out.timeout); const auto code { request.get() }; const json::object &response { request }; const m::keys &key{response}; out << key << std::endl; return true; } bool console_cmd__fed__key__query(opt &out, const string_view &line) { const params param{line, " ", { "remote", "[server_name,key_id]...", }}; const auto requests { tokens_after(line, ' ', 0) }; std::vector> r; tokens(requests, ' ', [&r] (const string_view &req) { r.emplace_back(split(req, ',')); }); m::v1::key::opts opts; opts.dynamic = true; opts.remote = net::hostport { param.at(0) }; const unique_buffer buf{24_KiB}; m::v1::key::query request { r, buf, std::move(opts) }; request.wait(out.timeout); const auto code { request.get() }; const json::array keys { request }; for(const json::object &key : keys) { const m::keys &k{key}; out << k << std::endl; } return true; } bool console_cmd__fed__version(opt &out, const string_view &line) { const net::hostport remote { token(line, ' ', 0) }; m::v1::version::opts opts; opts.remote = remote; thread_local char buf[8_KiB]; m::v1::version request { buf, std::move(opts) }; request.wait(out.timeout); const auto code { request.get() }; const json::object &response { request }; out << string_view{response} << std::endl; return true; } // // file // bool console_cmd__file__room(opt &out, const string_view &line) { const params param{line, " ", { "server|amalgam", "file" }}; auto server { param.at(0) }; auto file { param[1] }; if(empty(file)) { const auto s(split(server, '/')); server = s.first; file = s.second; } using prototype = m::room::id (m::room::id::buf &, const string_view &server, const string_view &file); static mods::import file_room_id { "media_media", "file_room_id" }; m::room::id::buf buf; out << file_room_id(buf, server, file) << std::endl; return true; } bool console_cmd__file__download(opt &out, const string_view &line) { const params param{line, " ", { "server|amalgam", "file" }}; auto server { param.at(0) }; auto file { param[1] }; auto remote { has(server, '/')? param[1] : param[2] }; if(has(server, '/')) { const auto s(split(server, '/')); server = s.first; file = s.second; } if(!remote) remote = server; using prototype = m::room::id::buf (const string_view &server, const string_view &file, const m::user::id &, const net::hostport &remote); static mods::import download { "media_media", "download" }; const m::room::id::buf room_id { download(server, file, m::me.user_id, remote) }; out << room_id << std::endl; return true; } // // vm // bool console_cmd__vm(opt &out, const string_view &line) { out << "sequence: " << std::right << std::setw(10) << m::vm::current_sequence << std::endl; out << "eval total: " << std::right << std::setw(10) << m::vm::eval::id_ctr << std::endl; out << "eval current: " << std::right << std::setw(10) << size(m::vm::eval::list) << std::endl; return true; } bool console_cmd__vm__eval(opt &out, const string_view &line) { for(const auto *const &eval : m::vm::eval::list) { assert(eval); assert(eval->ctx); out << std::setw(9) << std::right << eval->id << " | " << std::setw(4) << std::right << id(*eval->ctx) << " | " << std::setw(4) << std::right << eval->sequence << " | " << std::setw(64) << std::left << eval->event_id ; out << std::endl; } return true; }