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construct/modules/console.cc

17944 lines
300 KiB
C++

// Matrix Construct
//
// Copyright (C) Matrix Construct Developers, Authors & Contributors
// Copyright (C) 2016-2018 Jason Volk <jason@zemos.net>
//
// Permission to use, copy, modify, and/or distribute this software for any
// purpose with or without fee is hereby granted, provided that the above
// copyright notice and this permission notice is present in all copies. The
// full license for this software is available in the LICENSE file.
#include <ircd/util/params.h>
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<seconds>
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<class T> auto &operator<<(T&& t)
{
out << std::forward<T>(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 &MAX_DEPTH
{
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<cmd, cmd>
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::MAX_DEPTH)
};
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()<prototype>(out, args);
}
#pragma GCC visibility push(default)
bool
console_cmd__help(opt &,
const string_view &line);
/// 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")
};
int ret
{
_console_command(opt, line)
};
if(ret < 0)
if(console_cmd__help(opt, line))
return -2;
return ret;
}
catch(const params::error &e)
{
out << e.what() << std::endl;
return true;
}
catch(const bad_command &e)
{
return -2;
}
//
// 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__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_id__device(opt &, const m::device::id &id, const string_view &line);
bool console_id__group(opt &, const m::id::group &, const string_view &line);
bool console_id__node(opt &, const string_view &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(lex_castable<int>(id))
return console_command_numeric(out, line);
// Branch if the line starts with just a sigil (but not an identifier).
// In this case we'll expand the sigil to its name as a convenience for
// the apropos command suite.
if(m::has_sigil(id) && size(id) == 1)
{
char lower_buf[16];
const fmt::snstringf expanded_line
{
size(line) + 16, "%s %s",
tolower(lower_buf, reflect(m::sigil(id))),
tokens_after(line, ' ', 0),
};
return _console_command(out, expanded_line);
}
// Branch if the line starts with an identifier; identifiers are
// themselves convenience commands.
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::USER:
return console_id__user(out, id, line);
case m::id::DEVICE:
return console_id__device(out, id, line);
case m::id::GROUP:
return console_id__group(out, id, line);
case m::id::NODE:
return console_id__node(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:
return -2;
}
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;
}
///////////////////////////////////////////////////////////////////////////////
//
// Console commands
//
// Function names take the format of `console_cmd__%s` where the command
// starts at %s. The handler that matches the beginning of the command is
// called. To match spaces, a `__` double-underscore is used in the function
// name.
//
// The remainder of the command after the match becomes the `line` arg
// to the handler.
//
// The `opt &out` argument is an arbitrary state structure for general use and
// also serves as an output stream for the response of a command. Note that the
// output of a command may be a tty or the event content in a local matrix room.
//
// 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)
};
char buf[32];
out << std::endl
<< pretty(buf, timer.at<microseconds>())
<< std::endl;
return ret;
}
// 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 << "\nSubcommands available:\n"
<< std::endl;
const size_t elems
{
std::min(token_count(line, ' '), cmd::MAX_DEPTH)
};
size_t num(0);
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 << std::left << std::setw(20) << suffix;
if(++num % 4 == 0)
out << std::endl;
}
break;
}
return true;
}
//
// util
//
bool
console_cmd__exit(opt &out, const string_view &line)
{
return false;
}
//
// Test trigger stub
//
bool
console_cmd__test(opt &out, const string_view &line)
{
const bool result
{
ircd_test(line)
};
return true;
}
bool
console_cmd__stringify(opt &out, const string_view &line)
{
out << json::value{line} << std::endl;
return true;
}
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. Some messages optimized out."
<< std::endl
<< std::endl;
const params param{line, " ",
{
"onoff"
}};
if(param["onoff"] == "on")
{
out << "Turning on debuglog..." << std::endl;
while(!log::console_enabled(log::DEBUG))
log::console_enable(log::DEBUG);
}
else if(param["onoff"] == "off")
{
out << "Turning off debuglog..." << std::endl;
log::console_disable(log::DEBUG);
}
else if(log::console_enabled(log::DEBUG))
{
out << "Turning off debuglog..." << std::endl;
log::console_disable(log::DEBUG);
} else {
out << "Turning on debuglog..." << std::endl;
while(!log::console_enabled(log::DEBUG))
log::console_enable(log::DEBUG);
}
// When not compiled in debug-mode we attempt to set all DEBUG related
// levels (DERROR / DWARNING) to always match DEBUG. In debug-mode
// compilation they remain independent, but if we don't do this in release
// mode it will leave the user with DERROR messages which weren't DCE'ed
if(!RB_DEBUG_LEVEL)
{
if(log::console_enabled(log::DEBUG))
{
log::console_enable(log::DERROR);
log::console_enable(log::DWARNING);
} else {
log::console_disable(log::DERROR);
log::console_disable(log::DWARNING);
}
}
return true;
}
bool
console_cmd__demangle(opt &out, const string_view &line)
{
out << ircd::demangle(line) << std::endl;
return true;
}
bool
console_cmd__bt(opt &out, const string_view &line)
{
const ircd::backtrace bt;
for(size_t i(0); i < bt.size(); ++i)
{
out
<< std::dec << std::setw(3) << i << ':'
<< ' ' << std::hex << '[' << uintptr_t(bt[i]) << ']'
<< std::endl;
}
return true;
}
//
// main
//
bool
console_cmd__restart(opt &out, const string_view &line)
{
std::string argv(line);
size_t swargs(0), posargs(0);
ircd::tokens(line, ' ', [&swargs, &posargs]
(const string_view &token)
{
swargs += startswith(token, '-');
posargs += !startswith(token, '-');
});
if(!posargs)
{
argv += swargs? " "_sv: ""_sv;
argv += m::origin(m::my());
argv += ' ';
argv += m::server_name(m::my());
}
ircd::restart.set(argv);
ircd::quit();
return false;
}
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();
}
bool
console_cmd__sync(opt &out, const string_view &line)
{
for(const auto &db : db::database::list)
{
sync(*db);
out << "synchronized " << name(*db) << '.' << std::endl;
}
return true;
}
bool
console_cmd__beep(opt &out, const string_view &line)
{
const params param{line, " ",
{
"frequency", "duration"
}};
const auto tone
{
param.at("frequency", 2600.0f)
};
const auto duration
{
param.at("duration", 250ms)
};
beep beep
{
tone
};
ctx::sleep(duration);
return true;
}
//
// 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(24) << 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(auto i(0U); i < num_of<log::level>(); ++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 auto level_string
{
param["level"]
};
uint level;
switch(hash(level_string))
{
case "CRITICAL"_: level = 0U; break;
case "ERROR"_: level = 1U; break;
case "WARNING"_: level = 2U; break;
case "NOTICE"_: level = 3U; break;
case "INFO"_: level = 4U; break;
case "DWARNING"_: level = 5U; break;
case "DERROR"_: level = 6U; break;
case "DEBUG"_: level = 7U; break;
default: level = -1U; break;
};
for(auto i(0U); i < num_of<log::level>(); ++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)
{
log::console_mask(tokens<std::vector>(line, ' '));
out << std::endl;
console_cmd__log(out, {});
out << std::endl;
console_cmd__log__level(out, {});
return true;
}
bool
console_cmd__log__unmask(opt &out, const string_view &line)
{
log::console_unmask(tokens<std::vector>(line, ' '));
out << std::endl;
console_cmd__log(out, {});
out << std::endl;
console_cmd__log__level(out, {});
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);
}
bool
console_cmd__log__flush(opt &out, const string_view &line)
{
log::flush();
return true;
}
//
// info
//
bool
console_cmd__version(opt &out, const string_view &line)
{
const params param{line, " ",
{
"all"
}};
if(param["all"] != "-a")
{
out << ircd_version << std::endl;
return true;
}
out << "ircd_name " << ircd_name << std::endl;
out << "ircd_version " << ircd_version << std::endl;
out << std::endl;
out << "info::name " << info::name << std::endl;
out << "info::version " << info::version << std::endl;
out << "info::tag " << info::tag << std::endl;
out << "info::branch " << info::branch << std::endl;
out << "info::commit " << info::commit << std::endl;
out << "info::user_agent " << info::user_agent << std::endl;
out << "info::server_agent " << info::server_agent << std::endl;
out << std::endl;
out << "VERSION " << VERSION << std::endl;
out << std::endl;
out << "BRANDING_NAME " << BRANDING_NAME << std::endl;
out << "BRANDING_VERSION " << BRANDING_VERSION << std::endl;
out << std::endl;
out << "PACKAGE " << PACKAGE_VERSION << std::endl;
out << "PACKAGE_VERSION " << PACKAGE_VERSION << std::endl;
out << "PACKAGE_NAME " << PACKAGE_NAME << std::endl;
out << "PACKAGE_STRING " << PACKAGE_STRING << std::endl;
out << "PACKAGE_VERSION " << PACKAGE_VERSION << std::endl;
out << "PACKAGE_TARNAME " << PACKAGE_TARNAME << std::endl;
out << std::endl;
out << "RB_VERSION " << RB_VERSION << std::endl;
out << "RB_VERSION_BRANCH " << RB_VERSION_BRANCH << std::endl;
out << "RB_VERSION_COMMIT " << RB_VERSION_COMMIT << std::endl;
out << "RB_VERSION_TAG " << RB_VERSION_TAG << std::endl;
out << std::endl;
out << "info::configured " << info::configured << std::endl;
out << "info::compiled " << info::compiled << std::endl;
out << "info::startup " << info::startup << std::endl;
out << std::endl;
out << "RB_DATESTR " << RB_DATESTR << std::endl;
out << "RB_TIME_CONFIGURED " << RB_TIME_CONFIGURED << std::endl;
out << "RB_DATE_CONFIGURED " << RB_DATE_CONFIGURED << std::endl;
out << std::endl;
return true;
}
bool
console_cmd__versions(opt &out, const string_view &line)
{
out
<< std::left << std::setw(6) << "TYPE"
<< " "
<< std::left << std::setw(16) << "NAME"
<< " "
<< std::left << std::setw(14) << "MONOTONIC"
<< " "
<< std::left << std::setw(14) << "SEMANTIC"
<< " "
<< std::left << std::setw(16) << ":STRING"
<< " "
<< std::endl;
for(const auto &version : info::versions::list)
{
const auto &type
{
version->type == version->API? "API":
version->type == version->ABI? "ABI":
"???"
};
char buf[32];
const string_view semantic{fmt::sprintf
{
buf, "%ld.%ld.%ld",
version->semantic[0],
version->semantic[1],
version->semantic[2],
}};
out
<< std::left << std::setw(6) << type
<< " "
<< std::left << std::setw(16) << version->name
<< " "
<< std::left << std::setw(14) << version->monotonic
<< " "
<< std::left << std::setw(14) << semantic
<< " :"
<< std::left << std::setw(16) << version->string
<< " "
<< std::endl;
}
return true;
}
bool
console_cmd__info(opt &out, const string_view &line)
{
info::dump();
out << "Library information was written to the INFO and DEBUG logs."
<< std::endl;
return true;
}
bool
console_cmd__uptime(opt &out, const string_view &line)
{
const seconds uptime
{
ircd::uptime()
};
char tmp[48];
out << pretty(tmp, uptime) << std::endl;
return true;
}
bool
console_cmd__date(opt &out, const string_view &line)
{
out << ircd::time() << " sec" << std::endl;
out << ircd::time<milliseconds>() << " ms" << std::endl;
out << ircd::time<microseconds>() << " us" << std::endl;
char buf[128];
const auto now{ircd::now<system_point>()};
out << timef(buf, now, ircd::localtime) << std::endl;
out << timef(buf, now) << " (UTC)" << std::endl;
return true;
}
//
// filesystem
//
bool
console_cmd__fs__ls(opt &out, const string_view &line)
{
const params param{line, " ",
{
"path_or_option", "[path]"
}};
const string_view option
{
startswith(param["path_or_option"], '-')?
param["path_or_option"]:
string_view{}
};
string_view path
{
option?
param["[path]"]:
param["path_or_option"]
};
const std::string cwd
{
!path?
fs::cwd():
std::string{}
};
if(!path)
path = cwd;
const auto list
{
option == "-r" || option == "-R"?
fs::ls_r(path):
fs::ls(path)
};
for(const auto &file : list)
out << file << std::endl;
return true;
}
bool
console_cmd__fs__dev(opt &out, const string_view &line)
{
const params param{line, " ",
{
"type"
}};
const string_view type
{
param["type"]
};
out
<< std::setw(3) << std::right << "maj" << ':'
<< std::setw(3) << std::left << "min" << ' '
<< std::setw(10) << std::right << "TYPE" << ' '
<< std::setw(12) << std::left << " " << ' '
<< std::setw(6) << std::right << "NR_REQ" << ' '
<< std::setw(6) << std::right << "DEPTH" << ' '
<< std::setw(5) << std::right << "MERGE" << ' '
<< std::setw(5) << std::right << "OPTSZ" << ' '
<< std::setw(5) << std::right << "MINSZ" << ' '
<< std::setw(5) << std::right << "LOGSZ" << ' '
<< std::setw(5) << std::right << "PHYSZ" << ' '
<< std::setw(6) << std::right << "SECTSZ" << ' '
<< std::setw(14) << std::right << "SECTORS" << ' '
<< std::setw(26) << "SIZE" << ' '
<< std::setw(10) << std::right << "REV" << ' '
<< std::setw(20) << std::left << "MODEL" << ' '
<< std::setw(16) << std::left << "VENDOR" << ' '
<< std::setw(24) << std::left << "SCHED" << ' '
<< std::endl;
fs::dev::for_each(type, [&out]
(const ulong &id, const fs::dev::blk &dev)
{
const auto mm(fs::dev::id(id));
char pbuf[48];
out
<< std::setw(3) << std::right << std::get<0>(mm) << ':'
<< std::setw(3) << std::left << std::get<1>(mm) << ' '
<< std::setw(10) << std::right << dev.type << ' '
<< std::setw(12) << std::left << (dev.rotational? "rotating"_sv : string_view{}) << ' '
<< std::setw(6) << std::right << dev.nr_requests << ' '
<< std::setw(6) << std::right << dev.queue_depth << ' '
<< std::setw(5) << std::right << (dev.merges? 'Y' : 'N') << ' '
<< std::setw(5) << std::right << dev.optimal_io << ' '
<< std::setw(5) << std::right << dev.minimum_io << ' '
<< std::setw(5) << std::right << dev.logical_block << ' '
<< std::setw(5) << std::right << dev.physical_block << ' '
<< std::setw(6) << std::right << dev.sector_size << ' '
<< std::setw(14) << std::right << dev.sectors << ' '
<< std::setw(26) << pretty(pbuf, iec(dev.sectors * dev.sector_size)) << ' '
<< std::setw(10) << std::right << dev.rev << ' '
<< std::setw(20) << std::left << dev.model << ' '
<< std::setw(16) << std::left << dev.vendor << ' '
<< std::setw(24) << std::left << dev.scheduler << ' '
<< std::endl;
return true;
});
return true;
}
bool
console_cmd__ls(opt &out, const string_view &line)
{
return console_cmd__fs__ls(out, line);
}
//
// 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;
}
const fs::fd fd
{
path, fs::fd::opts
{
.mode = std::ios::in,
},
};
fs::read_opts opts;
opts.aio = false;
opts.offset = 0;
const unique_buffer<mutable_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;
}
// Specialized command, strips lines which have 0 values for shorter output.
bool
console_cmd__proc__smaps(opt &out, const string_view &line)
{
fs::fd fd
{
"/proc/self/smaps", fs::fd::opts
{
.mode = std::ios::in,
},
};
fs::read_opts opts;
opts.aio = false;
opts.offset = 0;
const unique_buffer<mutable_buffer> buf
{
4_MiB
};
const string_view read
{
fs::read(fd, buf, opts)
};
ircd::tokens(read, '\n', [&out]
(const string_view &line)
{
const auto &[key, val]
{
split(line, ':')
};
if(lstrip(val, ' ') == "0 kB")
return;
out << line << std::endl;
});
return true;
}
//
// mem
//
bool
console_cmd__mem(opt &out, const string_view &line)
{
const params param{line, " ",
{
"opts"
}};
// Optional options string passed to implementation; might not be available
// or ignored. See jemalloc(3) etc.
const string_view &opts
{
param["opts"]
};
auto &this_thread
{
ircd::allocator::profile::this_thread
};
char pbuf[2][48];
if(this_thread.alloc_count)
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(pbuf[0], iec(this_thread.alloc_bytes)) << std::endl
<< "freed bytes: " << pretty(pbuf[1], iec(this_thread.free_bytes)) << std::endl
<< std::endl;
if(opts == "ircd")
return true;
thread_local char buf[48_KiB];
out << "Allocator information:" << std::endl
<< allocator::info(buf, opts) << 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<size_t>("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;
}
bool
console_cmd__mem__set(opt &out, const string_view &line)
{
const params param{line, " ",
{
"key", "type", "val"
}};
const string_view &key
{
param.at("key")
};
const string_view &type
{
param.at("type", "string"_sv)
};
string_view set;
thread_local char buf[2][4_KiB];
switch(hash(type))
{
case "void"_:
set = {};
break;
case "bool"_:
*reinterpret_cast<bool *>(buf[0]) = lex_cast<bool>(param.at("val"));
set = { buf[0], sizeof(bool) };
break;
case "size_t"_:
*reinterpret_cast<size_t *>(buf[0]) = lex_cast<size_t>(param.at("val"));
set = { buf[0], sizeof(size_t) };
break;
case "ssize_t"_:
*reinterpret_cast<ssize_t *>(buf[0]) = lex_cast<ssize_t>(param.at("val"));
set = { buf[0], sizeof(ssize_t) };
break;
case "unsigned"_:
*reinterpret_cast<unsigned *>(buf[0]) = lex_cast<unsigned>(param.at("val"));
set = { buf[0], sizeof(unsigned) };
break;
case "uint64_t"_:
*reinterpret_cast<uint64_t *>(buf[0]) = lex_cast<uint64_t>(param.at("val"));
set = { buf[0], sizeof(uint64_t) };
break;
case "uint64_t*"_:
*reinterpret_cast<uintptr_t *>(buf[0]) = lex_cast<uintptr_t>(param.at("val"));
set = { buf[0], sizeof(uintptr_t) };
break;
default:
case "string"_:
set = param.at("val");
break;
}
const string_view &get
{
allocator::set(key, set, buf[1])
};
return true;
}
bool
console_cmd__mem__get(opt &out, const string_view &line)
{
const params param{line, " ",
{
"key", "type"
}};
const string_view &key
{
param.at("key")
};
const string_view &type
{
param.at("type", "unsigned"_sv)
};
char buf[512];
const string_view &val
{
allocator::get(key, buf)
};
switch(hash(type))
{
case "void"_:
out << std::endl;
break;
case "bool"_:
out << lex_cast(*reinterpret_cast<const bool *>(data(val))) << std::endl;
break;
case "size_t"_:
out << lex_cast(*reinterpret_cast<const size_t *>(data(val))) << std::endl;
break;
case "ssize_t"_:
out << lex_cast(*reinterpret_cast<const ssize_t *>(data(val))) << std::endl;
break;
default:
case "unsigned"_:
out << lex_cast(*reinterpret_cast<const unsigned *>(data(val))) << std::endl;
break;
case "uint64_t"_:
out << lex_cast(*reinterpret_cast<const uint64_t *>(data(val))) << std::endl;
break;
case "uint64_t*"_:
out << lex_cast(*reinterpret_cast<const uintptr_t *>(data(val))) << std::endl;
break;
case "string"_:
out << *reinterpret_cast<const char *const *const>(data(val)) << std::endl;
break;
}
return true;
}
//
// vg
//
bool
console_cmd__vg(opt &out, const string_view &line)
{
if(vg::active)
out << "running on valgrind" << std::endl;
else
out << "bare metal" << std::endl;
return true;
}
//
// prof
//
bool
console_cmd__prof__psi(opt &out, const string_view &line)
{
if(!prof::psi::supported)
throw error
{
"Pressure Still Information is not supported."
};
const auto show_file{[&out]
(const string_view &name, prof::psi::file &file)
{
if(!refresh(file))
return;
const auto show_metric{[&out, &name]
(const auto &metric, const string_view &metric_name)
{
char pbuf[48];
out
<< std::left << std::setw(6) << name
<< ' '
<< metric_name << " stall window "
<< pretty(pbuf, metric.stall.window)
<< " ("
<< metric.stall.window.count()
<< ')'
<< std::endl;
out
<< std::left << std::setw(6) << name
<< ' '
<< metric_name << " stall last "
<< pretty(pbuf, metric.stall.relative)
<< " ("
<< metric.stall.relative.count()
<< ") "
<< metric.stall.pct << '%'
<< std::endl;
out
<< std::left << std::setw(6) << name
<< ' '
<< metric_name << " stall total "
<< pretty(pbuf, metric.stall.total)
<< " ("
<< metric.stall.total.count()
<< ')'
<< std::endl;
for(size_t i(0); i < metric.avg.size(); i++)
out
<< std::left << std::setw(6) << name
<< ' '
<< metric_name << " "
<< std::right << std::setw(4) << metric.avg.at(i).window.count()
<< "s "
<< std::right << metric.avg.at(i).pct << '%'
<< std::endl;
}};
show_metric(file.some, "some");
show_metric(file.full, "full");
}};
const params param{line, " ",
{
"file", "metric", "threshold", "window"
}};
string_view filename
{
param["file"]
};
const string_view &metric
{
param["metric"]
};
const string_view &threshold
{
param["threshold"]
};
const string_view &window
{
param["window"]
};
if(metric && threshold && window)
{
const fmt::bsprintf<64> trigger
{
"%s %s %s",
metric,
threshold,
window,
};
auto *const trigfile
{
filename == "cpu"? &prof::psi::cpu:
filename == "memory"? &prof::psi::mem:
filename == "io"? &prof::psi::io:
nullptr
};
if(!trigfile)
throw error
{
"Unknown file '%s'",
filename
};
prof::psi::trigger trig[1]
{
{ *trigfile, trigger }
};
auto &file
{
prof::psi::wait(trig)
};
out
<< "Got: " << file.name
<< std::endl << std::endl;
filename = file.name;
}
if(!filename || filename == "cpu")
show_file("cpu", prof::psi::cpu);
if(!filename || filename == "memory")
show_file("memory", prof::psi::mem);
if(!filename || filename == "io")
show_file("io ", prof::psi::io);
return true;
}
bool
console_cmd__prof__vg__start(opt &out, const string_view &line)
{
prof::vg::start();
return true;
}
bool
console_cmd__prof__vg__stop(opt &out, const string_view &line)
{
prof::vg::stop();
return true;
}
bool
console_cmd__prof__vg__reset(opt &out, const string_view &line)
{
prof::vg::reset();
return true;
}
bool
console_cmd__prof__vg__toggle(opt &out, const string_view &line)
{
prof::vg::toggle();
return true;
}
bool
console_cmd__prof__vg__dump(opt &out, const string_view &line)
{
char reason[128];
prof::vg::dump(data(ircd::strlcpy(reason, line)));
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;
}
//
// stats
//
bool
console_cmd__stats(opt &out, const string_view &line)
{
const params param{line, " ",
{
"prefix", "all"
}};
const bool all
{
param[0] == "-a" || param[1] == "-a"
};
const string_view prefix
{
param[0] == "-a"? param[1]: param[0]
};
for(const auto &item : stats::items)
{
if(prefix && !startswith(item->name, prefix))
continue;
assert(item);
if(!all && !*item)
continue;
static constexpr size_t name_width
{
80
};
const fmt::bsprintf<128> name
{
"%s ", trunc(item->name, name_width)
};
out
<< std::left << std::setfill('_') << std::setw(name_width) << name
<< " " << (*item)
<< std::endl;
}
return true;
}
//
// ios
//
bool
console_cmd__ios(opt &out, const string_view &line)
{
out << std::left << std::setw(3) << "ID"
<< " " << std::left << std::setw(48) << "NAME"
<< " " << std::right << std::setw(6) << "QUEUED"
<< " " << std::right << std::setw(13) << "LAST LATENCY"
<< " " << std::right << std::setw(13) << "AVG LATENCY"
<< " " << std::right << std::setw(13) << "AVG CYCLES"
<< " " << std::right << std::setw(13) << "LAST CYCLES"
<< " " << std::right << std::setw(10) << "CALLS"
<< " " << std::right << std::setw(10) << "ALLOCS"
<< " " << std::right << std::setw(10) << "FREES"
<< " " << std::right << std::setw(26) << "ALLOCATED NOW"
<< " " << std::right << std::setw(26) << "ALLOCATED TOTAL"
<< " " << std::right << std::setw(8) << "FAULTS"
<< std::endl
;
const auto stats_output{[&out]
(const auto &s)
{
char pbuf[64];
const auto latency_avg
{
s.calls?
(long double)s.latency_total / (long double)s.calls:
0.0L
};
const auto cycles_avg
{
s.calls?
(long double)s.slice_total / (long double)s.calls:
0.0L
};
out
<< " " << std::right << std::setw(6) << s.queued
<< " " << std::right << std::setw(13) << pretty(pbuf, si(ulong(s.latency_last)), 2)
<< " " << std::right << std::setw(13) << pretty(pbuf, si(ulong(latency_avg)), 2)
<< " " << std::right << std::setw(13) << pretty(pbuf, si(ulong(cycles_avg)), 2)
<< " " << std::right << std::setw(13) << pretty(pbuf, si(s.slice_last), 2)
<< " " << std::right << std::setw(10) << s.calls
<< " " << std::right << std::setw(10) << s.allocs
<< " " << std::right << std::setw(10) << s.frees
<< " " << std::right << std::setw(26) << pretty(pbuf, iec(s.alloc_bytes - s.free_bytes))
<< " " << std::right << std::setw(26) << pretty(pbuf, iec(s.alloc_bytes))
<< " " << std::right << std::setw(8) << s.faults
;
}};
for(const auto *const &descriptor : ios::descriptor::list)
{
assert(descriptor);
const auto &d(*descriptor);
assert(d.stats);
const auto &s(*d.stats);
out
<< std::left << std::setw(3) << d.id
<< " " << std::left << std::setw(48) << d.name;
stats_output(s);
out << std::endl;
}
return true;
}
bool
console_cmd__ios__record(opt &out, const string_view &line)
{
std::map<uint64_t, std::tuple<uint64_t, const ios::descriptor *>> map;
for(const auto *const &descriptor : ios::descriptor::list)
{
assert(descriptor);
const auto &d(*descriptor);
const auto &history(d.history);
const auto &pos(d.history_pos);
for(size_t i(pos); i < 256; ++i)
{
if(!history[i][0])
continue;
map.emplace(history[i][0], std::make_tuple(history[i][1], descriptor));
}
for(size_t i(0); i < pos; ++i)
{
if(!history[i][0])
continue;
map.emplace(history[i][0], std::make_tuple(history[i][1], descriptor));
}
}
uint64_t last(0);
for(const auto &[epoch, tuple] : map)
{
const auto &[cyc, desc]
{
tuple
};
const char ch
{
epoch == last + 1? '|': 'T'
};
out
<< " " << ch
<< std::right
<< " " << std::setw(12) << epoch
<< " " << std::setw(12) << cyc
<< " " << std::left << std::setw(36) << desc->name;
out
<< std::endl;
last = epoch;
}
return true;
}
bool
console_cmd__ios__history(opt &out, const string_view &line)
{
for(const auto *const &descriptor : ios::descriptor::list)
{
assert(descriptor);
const auto &d(*descriptor);
const auto &history(d.history);
const auto &pos(d.history_pos);
out
<< std::left << std::setw(3) << d.id
<< " " << std::left << std::setw(48) << d.name
<< std::endl;
size_t k(0);
for(size_t i(pos); i < 256; ++i)
{
if(!history[i][0])
continue;
out
<< "[" << std::right << std::setw(9) << history[i][0]
<< " |" << std::right << std::setw(9) << history[i][1]
<< "] ";
if(++k % 12 == 0)
out << std::endl;
}
for(size_t i(0); i < pos; ++i)
{
if(!history[i][0])
continue;
out
<< "[" << std::right << std::setw(9) << history[i][0]
<< " |" << std::right << std::setw(9) << history[i][1]
<< "] ";
if(++k % 12 == 0)
out << std::endl;
}
out << std::endl;
}
return true;
}
bool
console_cmd__ios__depth(opt &out, const string_view &line)
{
static ios::descriptor dispatch_desc
{
"ircd.console.depth.dispatch",
};
static ios::descriptor post_desc
{
"ircd.console.depth.post",
};
static ios::descriptor defer_desc
{
"ircd.console.latency.defer",
nullptr,
nullptr,
true,
};
uint64_t returned, executed, started;
// ios::dispatch
{
started = ios::epoch();
ios::dispatch(dispatch_desc, ios::yield, [&executed]
() noexcept
{
executed = ios::epoch();
});
returned = ios::epoch();
}
out
<< "disp send: " << (executed - started) << std::endl
<< "disp recv: " << (returned - executed) << std::endl
<< "disp rtt: " << (returned - started) << std::endl
<< std::endl;
// ios::post
{
started = ios::epoch();
ios::dispatch(post_desc, ios::defer, ios::yield, [&executed]
() noexcept
{
executed = ios::epoch();
});
returned = ios::epoch();
}
out
<< "post send: " << (executed - started) << std::endl
<< "post recv: " << (returned - executed) << std::endl
<< "post rtt: " << (returned - started) << std::endl
<< std::endl;
// ios::defer
{
started = ios::epoch();
ios::dispatch(defer_desc, ios::defer, ios::yield, [&executed]
() noexcept
{
executed = ios::epoch();
});
returned = ios::epoch();
}
out
<< "defer send: " << (executed - started) << std::endl
<< "defer recv: " << (returned - executed) << std::endl
<< "defer rtt: " << (returned - started) << std::endl
<< std::endl;
return true;
}
#ifdef __x86_64__
bool
console_cmd__ios__latency(opt &out, const string_view &line)
{
static ios::descriptor dispatch_desc
{
"ircd.console.latency.dispatch"
};
static ios::descriptor post_desc
{
"ircd.console.latency.post"
};
static ios::descriptor defer_desc
{
"ircd.console.latency.defer",
nullptr,
nullptr,
true,
};
long long returned, executed, started;
// control
{
__sync_synchronize();
asm volatile ("lfence");
started = prof::cycles();
asm volatile ("lfence");
__sync_synchronize();
asm volatile ("lfence");
executed = prof::cycles();
asm volatile ("lfence");
__sync_synchronize();
asm volatile ("lfence");
returned = prof::cycles();
asm volatile ("lfence");
}
out
<< "tsc send: " << (executed - started) << std::endl
<< "tsc recv: " << (returned - executed) << std::endl
<< "tsc rtt: " << (returned - started) << std::endl
<< std::endl;
//
// ios::dispatch
//
{
__sync_synchronize();
asm volatile ("lfence");
started = prof::cycles();
asm volatile ("lfence");
ios::dispatch(dispatch_desc, ios::yield, [&executed]
() noexcept
{
__sync_synchronize();
asm volatile ("lfence");
executed = prof::cycles();
asm volatile ("lfence");
});
__sync_synchronize();
asm volatile ("lfence");
returned = prof::cycles();
asm volatile ("lfence");
}
out
<< "disp send: " << (executed - started) << std::endl
<< "disp recv: " << (returned - executed) << std::endl
<< "disp rtt: " << (returned - started) << std::endl
<< std::endl;
//
// ios::post
//
{
__sync_synchronize();
asm volatile ("lfence");
started = prof::cycles();
asm volatile ("lfence");
ios::dispatch(post_desc, ios::defer, ios::yield, [&executed]
() noexcept
{
__sync_synchronize();
asm volatile ("lfence");
executed = prof::cycles();
asm volatile ("lfence");
});
__sync_synchronize();
asm volatile ("lfence");
returned = prof::cycles();
asm volatile ("lfence");
}
out
<< "post send: " << (executed - started) << std::endl
<< "post recv: " << (returned - executed) << std::endl
<< "post rtt: " << (returned - started) << std::endl
<< std::endl;
//
// ios::defer
//
{
__sync_synchronize();
asm volatile ("lfence");
started = prof::cycles();
asm volatile ("lfence");
ios::dispatch(defer_desc, ios::defer, ios::yield, [&executed]
() noexcept
{
__sync_synchronize();
asm volatile ("lfence");
executed = prof::cycles();
asm volatile ("lfence");
});
__sync_synchronize();
asm volatile ("lfence");
returned = prof::cycles();
asm volatile ("lfence");
}
out
<< "defer send: " << (executed - started) << std::endl
<< "defer recv: " << (returned - executed) << std::endl
<< "defer rtt: " << (returned - started) << std::endl
<< std::endl;
return true;
}
#endif
//
// aio
//
bool
console_cmd__aio(opt &out, const string_view &line)
{
if(!fs::aio::enable)
throw error
{
"AIO is not available."
};
const auto &s
{
fs::aio::stats
};
out << std::setw(18) << std::left << "requests"
<< std::setw(9) << std::right << s.requests
<< " " << pretty(iec(s.bytes_requests))
<< std::endl;
out << std::setw(18) << 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(18) << std::left << "requests que"
<< std::setw(9) << std::right << s.cur_queued
<< std::endl;
out << std::setw(18) << std::left << "requests out"
<< std::setw(9) << std::right << s.cur_submits
<< std::endl;
out << std::setw(18) << std::left << "requests out max"
<< std::setw(9) << std::right << s.max_submits
<< std::endl;
out << std::setw(18) << std::left << "requests avg"
<< std::setw(9) << std::right << "-"
<< " " << pretty(iec(s.bytes_requests / s.requests))
<< std::endl;
out << std::setw(18) << std::left << "requests max"
<< std::setw(9) << std::right << s.max_requests
<< std::endl;
out << std::setw(18) << std::left << "reads"
<< std::setw(9) << std::right << s.reads
<< " " << pretty(iec(s.bytes_read))
<< std::endl;
out << std::setw(18) << std::left << "reads cur"
<< std::setw(9) << std::right << s.cur_reads
<< std::endl;
out << std::setw(18) << std::left << "reads avg"
<< std::setw(9) << std::right << "-"
<< " " << pretty(iec(s.bytes_read / s.reads))
<< std::endl;
out << std::setw(18) << std::left << "reads max"
<< std::setw(9) << std::right << s.max_reads
<< std::endl;
out << std::setw(18) << std::left << "writes"
<< std::setw(9) << std::right << s.writes
<< " " << pretty(iec(s.bytes_write))
<< std::endl;
out << std::setw(18) << std::left << "writes cur"
<< std::setw(9) << std::right << s.cur_writes
<< " " << pretty(iec(s.cur_bytes_write))
<< std::endl;
out << std::setw(18) << std::left << "writes avg"
<< std::setw(9) << std::right << "-"
<< " " << pretty(iec(s.bytes_write / s.writes))
<< std::endl;
out << std::setw(18) << std::left << "writes max"
<< std::setw(9) << std::right << s.max_writes
<< std::endl;
out << std::setw(18) << std::left << "submits"
<< std::setw(9) << std::right << s.submits
<< std::endl;
out << std::setw(18) << std::left << "handles"
<< std::setw(9) << std::right << s.handles
<< std::endl;
out << std::setw(18) << std::left << "events"
<< std::setw(9) << std::right << s.events
<< std::endl;
out << std::setw(18) << std::left << "stalls"
<< std::setw(9) << std::right << s.stalls
<< std::endl;
out << std::setw(18) << std::left << "errors"
<< std::setw(9) << std::right << s.errors
<< " " << pretty(iec(s.bytes_errors))
<< std::endl;
out << std::setw(18) << std::left << "cancel"
<< std::setw(9) << std::right << s.cancel
<< " " << pretty(iec(s.bytes_cancel))
<< std::endl;
return true;
}
//
// conf
//
bool
console_cmd__conf__list(opt &out, const string_view &line)
{
const params param{line, " ",
{
"prefix"
}};
const auto prefix
{
param.at("prefix", string_view{})
};
const unique_mutable_buffer val
{
4_KiB
};
for(const auto &[key, item_p] : conf::items)
{
if(prefix && !startswith(key, prefix))
continue;
const string_view _key
{
fmt::sprintf{val, "%s ", key}
};
out
<< std::setw(64) << std::left << std::setfill('_') << _key
<< " " << item_p->get(val + size(_key))
<< 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
{
tokens_after(line, ' ', 0)
};
const auto event_id
{
m::my().conf->set(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("key")
};
const unique_mutable_buffer val
{
4_KiB
};
for(const auto &[_key, item_p] : conf::items)
{
if(_key != key)
continue;
assert(item_p);
out << item_p->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"
}};
string_view prefix
{
param.at("prefix", "*"_sv)
};
if(prefix == "*")
prefix = string_view{};
const auto stored
{
m::my().conf->store(prefix)
};
out
<< "Saved runtime conf items"
<< (prefix? " with the prefix "_sv : string_view{})
<< (prefix? prefix : string_view{})
<< " from the current state into "
<< m::my().conf->room_id
<< std::endl;
return true;
}
bool
console_cmd__conf__default(opt &out, const string_view &line)
{
const params param{line, " ",
{
"prefix"
}};
const auto &prefix
{
param["prefix"]
};
const auto defaulted
{
m::my().conf->defaults(prefix)
};
out
<< "Set "
<< defaulted
<< " 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__load(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "prefix"
}};
const auto &room_id
{
startswith(param["room_id"], '!')?
param["room_id"]:
m::my().conf->room_id
};
const auto &prefix
{
startswith(param["room_id"], '!')?
param["prefix"]:
param["room_id"]
};
// TODO: interface for room_id
const auto loaded
{
m::my().conf->load(prefix)
};
out
<< "Updated "
<< loaded
<< " runtime conf items from the current state in "
<< room_id
<< std::endl;
return true;
}
bool
console_cmd__conf__reset(opt &out, const string_view &line)
{
ircd::conf::reset();
out << "All conf items which execute code upon a change"
<< " have done so with the latest runtime value."
<< std::endl;
return true;
}
bool
console_cmd__conf__diff(opt &out, const string_view &line)
{
const params param{line, " ",
{
"key"
}};
const auto &key
{
param[0]
};
const unique_buffer<mutable_buffer> buf
{
4_KiB
};
out << std::setw(48) << std::left << "NAME"
<< " | " << std::setw(36) << "CURRENT"
<< " | " << std::setw(36) << "DEFAULT"
<< std::endl;
for(const auto &item : conf::items)
{
if(!startswith(item.first, key))
continue;
const json::string &default_
{
item.second->feature.get("default")
};
const auto &val
{
item.second->get(buf)
};
if(val == default_)
continue;
out << std::setw(48) << std::left << item.first
<< " | " << std::setw(36) << val
<< " | " << std::setw(36) << default_
<< 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::left << site->name() << ':'
<< std::endl
<< string_view{site->feature}
<< std::endl
<< "matchers: " << site->matchers
<< std::endl
<< "count: " << site->count
<< std::endl
<< "calls: " << site->calls
<< std::endl
<< "calling: " << site->calling
<< std::endl
<< std::endl
;
for(const auto &hookp : site->hooks)
out
<< (hookp->registered? '+' : '-')
<< " " << std::setw(4) << std::left << hookp->id()
<< " " << std::setw(8) << std::right << hookp->calls
<< " " << std::setw(3) << std::right << hookp->calling
<< " " << 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<std::string> 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__sections(opt &out, const string_view &line)
{
const params param{line, " ",
{
"path"
}};
const string_view path
{
param.at("path")
};
auto sections(mods::sections(path));
std::sort(begin(sections), end(sections));
for(const auto &name : sections)
{
out << name;
const auto &symbols(mods::symbols(path, name));
if(!symbols.empty())
out << " (" << symbols.size() << ")";
out << std::endl;
}
out << std::endl;
return true;
}
bool
console_cmd__mod__symbols(opt &out, const string_view &line)
{
const params param{line, " ",
{
"path", "section"
}};
const string_view path
{
param.at("path")
};
const string_view section
{
param.at("section", string_view{})
};
const std::vector<std::string> symbols
{
mods::symbols(path, section)
};
for(const auto &sym : symbols)
out << sym << std::endl;
out << " -- " << symbols.size() << " symbols in " << path;
if(section)
out << " in " << section;
out << std::endl;
return true;
}
bool
console_cmd__mod__mangles(opt &out, const string_view &line)
{
const params param{line, " ",
{
"path", "section"
}};
const string_view path
{
param.at("path")
};
const string_view section
{
param.at("section", string_view{})
};
const auto mangles
{
mods::mangles(path, section)
};
for(const auto &p : mangles)
out << p.first << " " << p.second << std::endl;
out << std::endl;
return true;
}
bool
console_cmd__mod__exports(opt &out, const string_view &line)
{
const params param{line, " ",
{
"name"
}};
const string_view name
{
param.at("name")
};
if(!mods::loaded(name))
throw error
{
"Module '%s' is not loaded", name
};
const module module
{
name
};
auto &exports
{
mods::exports(module)
};
for(const auto &p : exports)
out << p.first << " " << p.second << std::endl;
out << std::endl;
return true;
}
bool
console_cmd__mod__reload(opt &out, const string_view &line)
{
const auto names
{
tokens<std::vector>(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;
break;
}
}
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;
}
bool
console_cmd__mod__links(opt &out, const string_view &line)
{
size_t i(0);
mods::ldso::for_each([&out, &i]
(const auto &link)
{
out << std::setw(2) << (i++)
<< " " << mods::ldso::fullname(link)
<< std::endl;
return true;
});
return true;
}
bool
console_cmd__mod__needed(opt &out, const string_view &line)
{
const params param{line, " ",
{
"name"
}};
const string_view name
{
param.at("name")
};
size_t i(0);
mods::ldso::for_each_needed(mods::ldso::get(name), [&out, &i]
(const string_view &name)
{
out << std::setw(2) << (i++)
<< " " << name
<< std::endl;
return true;
});
return true;
}
//
// ctx
//
bool
console_cmd__ctx__interrupt(opt &out, const string_view &line)
{
const params param{line, " ",
{
"id", "[id]..."
}};
size_t count(0);
for(size_t i(0); i < param.count(); ++i)
count += !ctx::for_each([&](auto &ctx)
{
if(id(ctx) == param.at<uint64_t>(i))
{
interrupt(ctx);
return false;
}
else return true;
});
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<ctx::prof::event>([&out, &t]
(const auto &event)
{
out << std::left << std::setw(15) << std::setfill('_') << reflect(event)
<< " " << t.event.at(uint8_t(event))
<< std::endl;
});
}};
if(!param["id"])
{
out << "Profile totals for all contexts:\n"
<< std::endl;
display(ctx::prof::get());
return true;
}
bool cont{true};
for(size_t i(0); i < param.count() && cont; ++i)
cont = ctx::for_each([&](auto &ctx)
{
if(id(ctx) == param.at<uint64_t>(i))
{
out << "Profile for ctx:" << id(ctx) << " '" << name(ctx) << "':\n"
<< std::endl;
display(ctx::prof::get(ctx));
return false;
}
else return true;
});
return true;
}
bool
console_cmd__ctx__term(opt &out, const string_view &line)
{
const params param{line, " ",
{
"id", "[id]..."
}};
size_t count(0);
for(size_t i(0); i < param.count(); ++i)
count += !ctx::for_each([&](auto &ctx)
{
if(id(ctx) == param.at<uint64_t>(i))
{
ctx::terminate(ctx);
return false;
}
else return true;
});
return true;
}
bool
console_cmd__ctx__list(opt &out, const string_view &line)
{
const params param{line, " ",
{
"name",
}};
const auto name_filter
{
param["name"]
};
out << " "
<< std::setw(5)
<< "ID"
<< " "
<< std::setw(7)
<< "STATE"
<< " "
<< std::setw(8)
<< "YIELDS"
<< " "
<< std::setw(5)
<< "NOTES"
<< " "
<< std::setw(15)
<< "CYCLE COUNT"
<< " "
<< std::setw(6)
<< "PCT"
<< " "
<< std::setw(25)
<< "STACK"
<< " "
<< std::setw(25)
<< "PEAK OBSERVED"
<< " "
<< std::setw(25)
<< "IN CORE"
<< " "
<< std::setw(25)
<< "LIMIT"
<< " "
<< std::setw(6)
<< "PCT"
<< " "
<< ":NAME"
<< std::endl;
ctx::for_each([&out, &name_filter]
(auto &ctx)
{
if(name_filter)
if(name(ctx) != name_filter)
return true;
out << std::setw(5) << std::right << id(ctx);
out << " "
<< (started(ctx)? 'A' : '-')
<< (finished(ctx)? 'F' : '-')
<< (termination(ctx)? 'T' : '-')
<< (interruptible(ctx)? '-' : 'N')
<< (waiting(ctx)? 'S' : '-')
<< (queued(ctx)? 'Q' : '-')
<< (interruption(ctx)? 'I' : '-')
<< (running(ctx)? 'R' : '-')
;
out << " "
<< std::setw(8) << std::right << epoch(ctx);
out << " "
<< std::setw(5) << std::right << notes(ctx);
out << " "
<< std::setw(15) << std::right << cycles(ctx);
const long double total_cyc(ctx::prof::get(ctx::prof::event::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)
<< "%";
char pbuf[32];
out << " "
<< std::setw(25) << std::right << pretty(pbuf, iec(ctx::stack::get(ctx).at));
out << " "
<< std::setw(25) << std::right << pretty(pbuf, iec(ctx::stack::get(ctx).peak));
out << " "
<< std::setw(25) << std::right << pretty(pbuf, iec(allocator::incore(ctx::stack::get(ctx).buf)));
out << " "
<< std::setw(25) << std::right << pretty(pbuf, iec(ctx::stack::get(ctx).max));
const auto stack_pct
{
ctx::stack::get(ctx).at / (long double)(ctx::stack::get(ctx).max)
};
out << " "
<< std::setw(5) << std::right << std::fixed << std::setprecision(2) << (stack_pct * 100)
<< "%";
out << " :"
<< name(ctx);
out << std::endl;
return true;
});
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, type] : 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__refresh(opt &out, const string_view &line)
try
{
const params param{line, " ",
{
"dbname",
}};
const auto dbname
{
param.at(0)
};
auto &database
{
db::database::get(dbname)
};
if(!database.slave)
{
out << dbname << " is the master. Can only refresh slaves." << std::endl;
return true;
}
const auto before_dbseq{sequence(database)};
const auto before_retired{m::vm::sequence::retired};
refresh(database);
m::event::id::buf event_id;
if(dbname == "events")
m::vm::sequence::retired = m::vm::sequence::get(event_id);
out
<< dbname << " refreshed from "
<< before_dbseq
<< " to "
<< sequence(database)
<< std::endl;
if(dbname == "events")
{
out
<< "latest event from "
<< before_retired
<< " to "
<< m::vm::sequence::retired
<< " ["
<< event_id
<< "]"
<< 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 begin
{
param[2]
};
const auto end
{
param[3]
};
const auto level
{
param.at(4, -1)
};
auto &database
{
db::database::get(dbname)
};
if(!colname)
{
compact(database);
out << "done" << std::endl;
return true;
}
const bool integer
{
begin? lex_castable<uint64_t>(begin) : false
};
const uint64_t integers[2]
{
integer? lex_cast<uint64_t>(begin) : 0,
integer && end? lex_cast<uint64_t>(end) : 0
};
const std::pair<string_view, string_view> range
{
integer?
byte_view<string_view>(integers[0]):
begin == "*"?
string_view{}:
begin,
integer && end?
byte_view<string_view>(integers[1]):
end == "*"?
string_view{}:
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<int, int> 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;
char buf[48];
out << std::left << std::setw(48) << std::setfill('_') << name << " ";
if(has(name, ".bytes"))
out << pretty(buf, iec(val));
else
out << val;
out << 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(10) << 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<uint>(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<db::prop_map>(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 count;
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)
{
count += b.count;
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 count(db::count(cache(database)));
const auto usage(db::usage(cache(database)));
const auto pinned(db::pinned(cache(database)));
const auto capacity(db::capacity(cache(database)));
const auto util_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 hit_pct
{
(misses + hits) > 0? (double(hits) / double(hits + misses)) : 0.0L
};
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")));
const auto ins_miss_pct
{
misses > 0.0? (double(inserts) / double(misses)) : 0.0L
};
const auto ins_hit_rat
{
inserts > 0.0? (double(hits) / double(inserts)) : 0.0L
};
const auto ins_cnt_rat
{
count > 0.0? (double(inserts) / double(count)) : 0.0L
};
out << std::left
<< std::setw(24) << "ROW"
<< std::right
<< " "
<< std::setw(26) << "CACHED"
<< " "
<< std::setw(26) << "CAPACITY"
<< " "
<< std::setw(9) << "UTIL%"
<< " "
<< std::setw(11) << "HITS"
<< " "
<< std::setw(10) << "MISSES"
<< " "
<< std::setw(9) << "HIT%"
<< " "
<< std::setw(26) << "INSERT TOTAL"
<< " "
<< std::setw(10) << "INSERT"
<< " "
<< std::setw(10) << "HIT:INS"
<< " "
<< std::setw(8) << "COUNT"
<< " "
<< std::setw(10) << "INS:CNT"
<< " "
<< std::setw(20) << "LOCKED"
<< " "
<< std::endl;
out << std::left
<< std::setw(24) << "*"
<< std::right
<< " "
<< std::setw(26) << std::right << pretty(iec(usage))
<< " "
<< std::setw(26) << std::right << pretty(iec(capacity))
<< " "
<< std::setw(8) << std::right << std::fixed << std::setprecision(2) << (util_pct * 100)
<< "%"
<< " "
<< std::setw(11) << hits
<< " "
<< std::setw(10) << misses
<< " "
<< std::setw(8) << std::right << std::fixed << std::setprecision(2) << (hit_pct * 100)
<< "%"
<< " "
<< std::setw(26) << std::right << pretty(iec(inserts_bytes))
<< " "
<< std::setw(10) << inserts
<< " "
<< std::setw(8) << std::right << std::fixed << std::setprecision(0) << ins_hit_rat
<< ":1"
<< " "
<< std::setw(8) << std::right << count
<< " "
<< std::setw(8) << std::right << std::fixed << std::setprecision(0) << ins_cnt_rat
<< ":1"
<< " "
<< 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(24) << "COLUMN"
<< std::right
<< " "
<< std::setw(26) << "CACHED"
<< " "
<< std::setw(26) << "CAPACITY"
<< " "
<< std::setw(9) << "UTIL%"
<< " "
<< std::setw(11) << "HITS"
<< " "
<< std::setw(10) << "MISSES"
<< " "
<< std::setw(9) << "HIT%"
<< " "
<< std::setw(26) << "INSERT TOTAL"
<< " "
<< std::setw(10) << "INSERT"
<< " "
<< std::setw(10) << "HIT:INS"
<< " "
<< std::setw(8) << "COUNT"
<< " "
<< std::setw(10) << "INS:CNT"
<< " "
<< std::setw(20) << "LOCKED"
<< " "
<< std::endl;
const auto output{[&out]
(const string_view &column_name, const stats &s)
{
const auto util_pct
{
s.capacity > 0.0? (double(s.usage) / double(s.capacity)) : 0.0L
};
const auto hit_pct
{
(s.misses + s.hits) > 0.0? (double(s.hits) / double(s.hits + s.misses)) : 0.0L
};
const auto ins_miss_pct
{
s.misses > 0.0? (double(s.inserts) / double(s.misses)) : 0.0L
};
const auto ins_hit_rat
{
s.inserts > 0.0? (double(s.hits) / double(s.inserts)) : 0.0L
};
const auto ins_cnt_rat
{
s.count > 0.0? (double(s.inserts) / double(s.count)) : 0.0L
};
out << std::setw(24) << std::left << column_name
<< std::right
<< " "
<< std::setw(26) << std::right << pretty(iec(s.usage))
<< " "
<< std::setw(26) << std::right << pretty(iec(s.capacity))
<< " "
<< std::setw(8) << std::right << std::fixed << std::setprecision(2) << (util_pct * 100)
<< '%'
<< " "
<< std::setw(11) << s.hits
<< " "
<< std::setw(10) << s.misses
<< " "
<< std::setw(8) << std::right << std::fixed << std::setprecision(2) << (hit_pct * 100)
<< '%'
<< " "
<< std::setw(26) << pretty(iec(s.inserts_bytes))
<< " "
<< std::setw(10) << s.inserts
<< " "
<< std::setw(8) << std::right << std::fixed << std::setprecision(0) << ins_hit_rat
<< ":1"
<< " "
<< std::setw(8) << std::right << s.count
<< " "
<< std::setw(8) << std::right << std::fixed << std::setprecision(0) << ins_cnt_rat
<< ":1"
<< " "
<< std::setw(20) << std::right << pretty(iec(s.pinned))
<< " "
<< std::endl;
}};
const auto totals{[&output]
(const string_view &colname, const stats &uncompressed, const stats &compressed)
{
if(uncompressed.capacity)
output(colname, uncompressed);
if(compressed.capacity)
{
char buf[64];
const fmt::sprintf rename
{
buf, "%s (compressed)", colname
};
output(rename, compressed);
}
}};
const auto query{[&database, &totals]
(const string_view &colname, const auto &output)
{
const db::column column
{
database, colname
};
const stats uncompressed
{
db::count(cache(column)),
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 compressed
{
db::count(cache_compressed(column)),
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, uncompressed, compressed);
}};
// 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;
});
totals("*", s_total, comp_total);
return true;
}
// Query the cache for a single column
if(colname != "**")
{
query(colname, totals);
return true;
}
// Querying the cache for all columns in a loop
for(const auto &column : database.columns)
query(name(*column), totals);
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__cache__each(opt &out, const string_view &line)
try
{
const params param{line, " ",
{
"dbname", "column", "limit"
}};
const auto dbname
{
param.at(0)
};
auto colname
{
param[1]
};
const auto limit
{
param.at("limit", 32UL)
};
auto &database
{
db::database::get(dbname)
};
if(!colname)
{
out << "No column specified."
<< std::endl;
return true;
}
const db::column column
{
database, colname
};
size_t i(0);
db::for_each(db::cache(column), [&]
(const const_buffer &value)
{
out
<< std::right << std::setw(4) << i
<< ' ' << std::right << std::setw(8) << size(value)
<< ' ' << std::left << std::setw(15)
<< std::endl;
return i++ < limit;
});
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"
}};
const fmt::snstringf new_line
{
1024, "%s %s rocksdb.stats",
param.at(0),
param.at(1)
};
return console_cmd__db__prop(out, new_line);
}
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::setw(3) << "flt"
<< std::right
<< " " << std::setw(7) << "pressed"
<< std::left
<< " " << std::setw(5) << "press"
<< " " << std::setw(24) << "file size"
<< " " << std::setw(23) << "sequence number"
<< " " << std::setw(23) << "key range"
<< std::right
<< " " << std::setw(10) << "reads"
<< " " << std::setw(10) << "entries"
<< " " << std::setw(10) << "blocks"
<< " " << std::setw(7) << "idxs"
<< " " << std::setw(3) << "lev"
<< 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<uint64_t>(f.min_key)):
0UL
};
const uint64_t &max_key
{
f.max_key.size() == 8?
uint64_t(byte_view<uint64_t>(f.max_key)):
0UL
};
char tmbuf[64], pbuf[48];
out << std::left << std::setfill(' ')
<< std::setw(12) << f.name
<< " " << std::setw(32) << std::left << (f.created? timef(tmbuf, f.created, ircd::localtime) : string_view{})
<< " " << std::setw(1) << std::left << (!f.filter.empty()? 'F' : '-')
<< std::setw(1) << std::left << (f.delta_encoding? 'D' : '-')
<< std::setw(1) << std::left << (true? '-' : '-')
<< " " << std::setw(6) << std::right << std::fixed << std::setprecision(2) << f.compression_pct << '%'
<< " " << std::setw(5) << std::left << trunc(f.compression, 5)
<< " " << std::setw(24) << std::left << pretty(pbuf, iec(f.size))
;
if(f.min_seq)
out << " " << std::setw(10) << std::right << f.min_seq << " : " << std::setw(10) << std::left << f.max_seq;
else
out << " " << std::setw(10) << std::right << ' ' << " " << std::setw(10) << std::left << "<sorted>";
if(min_key)
out << " " << std::setw(10) << std::right << min_key << " : " << std::setw(10) << std::left << max_key;
else
out << " " << std::setw(10) << std::right << ' ' << " " << std::setw(10) << std::left << "<string>";
out << " " << std::setw(10) << std::right << f.num_reads
<< " " << std::setw(10) << std::right << f.entries
<< " " << std::setw(10) << std::right << f.data_blocks
<< " " << std::setw(7) << std::right << f.index_parts
<< " " << std::setw(3) << std::right << f.level
<< " " << 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<uint64_t>(f.min_key)):
0UL
};
const uint64_t &max_key
{
f.max_key.size() == 8?
uint64_t(byte_view<uint64_t>(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("format", f.format);
close_auto("version", f.version);
close_auto("creation", timestr(f.created, ircd::localtime));
close_auto("checksum function", f.checksum_func);
close_auto("checksum value", f.checksum);
close_auto("column ID", f.cfid);
close_auto("column", f.column);
close_auto("column comparator", f.comparator);
close_auto("column merge operator", f.merge_operator);
close_auto("column prefix extractor", f.prefix_extractor);
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("delta encode", f.delta_encoding? "yes"_sv : "no"_sv);
close_auto("compression", f.compression);
close_auto("compacting", f.compacting? "yes"_sv : "no"_sv);
close_auto("range deletes", f.range_deletes);
close_auto("", "");
close_size("file phys size", f.size);
close_size("file virt size", f.file_size);
close_auto("file compress percent", f.compression_pct);
close_auto("", "");
close_size("file head phys size", f.meta_size);
close_size("file head virt size", f.head_size);
close_auto("file head compress percent", 100 - 100.0L * (f.meta_size / (long double)f.head_size));
close_auto("", "");
close_size("index size", f.index_size);
close_size("index head size", f.index_root_size);
close_size("index data size", f.index_data_size);
close_auto("index data blocks", f.index_parts);
close_size("index data block average size", f.index_data_size / double(f.index_parts));
close_size("index data average per-key", f.index_data_size / double(f.entries));
close_size("index data average per-block", f.index_data_size / double(f.data_blocks));
close_auto("index head percent of index", 100.0 * (f.index_root_size / double(f.index_data_size)));
close_auto("index data percent of keys", 100.0 * (f.index_data_size / double(f.keys_size)));
close_auto("index data percent of values", 100.0 * (f.index_data_size / double(f.values_size)));
close_auto("index data percent of data", 100.0 * (f.index_data_size / double(f.data_size)));
close_auto("index data compress percent", f.index_compression_pct);
close_auto("", "");
if(!f.filter.empty())
{
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("", "");
}
close_auto("blocks", f.data_blocks);
close_size("blocks phys size", f.data_size);
close_size("blocks phys average size", f.data_size / double(f.data_blocks));
close_size("blocks virt size", f.blocks_size);
close_size("blocks virt average size", f.blocks_size / double(f.data_blocks));
close_auto("blocks compress percent", f.blocks_compression_pct);
close_auto("", "");
close_auto("keys", f.entries);
close_size("keys virt size", f.keys_size);
close_size("keys virt average size", f.keys_size / double(f.entries));
close_auto("keys virt percent of blocks", 100.0 * (f.keys_size / double(f.blocks_size)));
close_auto("", "");
close_auto("values", f.entries);
close_size("values virt size", f.values_size);
close_size("values virt average size", f.values_size / double(f.entries));
close_auto("values virt average per-index", f.entries / double(f.index_parts));
close_auto("values virt average per-block", f.entries / double(f.data_blocks));
close_auto("", "");
}
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__sst__scan(opt &out, const string_view &line)
{
const params param{line, " ",
{
"dbname", "path",
}};
const auto dbname
{
param.at("dbname")
};
const auto path
{
param.at("path")
};
auto &database
{
db::database::get(dbname)
};
db::database::sst::scan
{
database, path
};
out << "Completed without error." << std::endl;
return true;
}
bool
console_cmd__db__sst__scan__count(opt &out, const string_view &line)
{
const params param{line, " ",
{
"dbname", "path",
}};
const auto dbname
{
param.at("dbname")
};
const auto path
{
param.at("path")
};
auto &database
{
db::database::get(dbname)
};
size_t i(0);
db::database::sst::scan
{
database, path, [&out, &i]
(const auto &key, const auto &val) noexcept
{
++i;
return true;
}
};
out << "Found " << i << " entries." << std::endl;
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)
};
const auto _print_totals{[&out]
(const auto &vector)
{
db::database::sst::info total;
total.name = "total"s;
for(const auto &info : vector)
{
total.size += info.size;
total.data_size += info.data_size;
total.index_data_size += info.index_data_size;
total.index_root_size += info.index_root_size;
total.filter_size += info.filter_size;
total.keys_size += info.keys_size;
total.values_size += info.values_size;
total.index_parts += info.index_parts;
total.data_blocks += info.data_blocks;
total.entries += info.entries;
total.range_deletes += info.range_deletes;
total.num_reads += info.num_reads;
}
_print_sst_info_header(out);
_print_sst_info(out, total);
out << "--- " << vector.size() << " files." << std::endl;
}};
if(colname == "*")
{
db::database::sst::info::vector vector
{
database
};
std::sort(begin(vector), end(vector), []
(const auto &a, const auto &b)
{
return a.created < b.created;
});
_print_sst_info_header(out);
for(const auto &fileinfo : vector)
_print_sst_info(out, fileinfo);
out << std::endl;
_print_totals(vector);
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
};
db::database::sst::info::vector vector
{
column
};
std::sort(begin(vector), end(vector), []
(const auto &a, const auto &b)
{
return a.created < b.created;
});
_print_sst_info_header(out);
for(const auto &info : vector)
_print_sst_info(out, info);
out << std::endl;
_print_totals(vector);
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", "key"
}};
auto &database
{
db::database::get(param.at(0))
};
if(!param["column"] || param["column"] == "*")
{
const auto bytes
{
db::bytes(database)
};
out << bytes << std::endl;
return true;
}
if(param["key"])
{
db::column column
{
database, param["column"]
};
const bool is_integer_key
{
lex_castable<ulong>(param["key"])
};
const uint64_t integer_key[2]
{
is_integer_key?
lex_cast<ulong>(param["key"]):
0UL,
integer_key[0] + 1
};
const string_view key[2]
{
is_integer_key?
byte_view<string_view>{integer_key[0]}:
param["key"],
is_integer_key?
byte_view<string_view>{integer_key[1]}:
param["key"]
};
const auto value
{
db::bytes_value(column, key[0])
};
const auto value_compressed
{
db::bytes(column, {key[0], key[1]})
};
out << param["column"]
<< (is_integer_key? "[(binary)" : "[") << param["key"] << "] "
<< ": " << value << " (uncompressed value)"
<< std::endl;
out << param["column"]
<< (is_integer_key? "[(binary)" : "[") << param["key"] << "] "
<< ": " << value_compressed
<< 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["column"] == "**")
{
for(const auto &column : database.columns)
query(name(*column));
return true;
}
query(param["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<int64_t>("seqnum", cur_seq)
};
const auto limit
{
param.at<int64_t>("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)
};
out << std::setw(12) << std::left << "SEQUENCE"
<< " "
<< std::setw(6) << std::left << "DELTAS"
<< " "
<< std::setw(18) << std::left << "SIZE"
<< " : "
<< std::endl;
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<db::delta::VAL>(delta)
};
});
if(!event_id)
return true;
char iecbuf[48];
out << std::setw(12) << std::left << _seqnum
<< " "
<< std::setw(6) << std::left << txn.size()
<< " "
<< std::setw(18) << std::left << pretty(iecbuf, iec(txn.bytes()))
<< " : "
<< 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<uint64_t>(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<db::delta::KEY>(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<uint64_t>(dkey))):
dkey
};
out << std::setw(12) << std::right << seqnum << " : "
<< std::setw(8) << std::left << reflect(std::get<db::delta::OP>(delta)) << " "
<< std::setw(18) << std::right << std::get<db::delta::COL>(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 params param{line, " ",
{
"dbname", "column"
}};
const auto &dbname
{
param.at("dbname")
};
const auto &colname
{
param["column"]
};
auto &database
{
db::database::get(dbname)
};
if(colname)
{
db::column column
{
database[colname]
};
check(column);
out << "Check of " << colname << " in " << dbname << " completed without error."
<< std::endl;
return true;
}
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::base::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<std::string, std::string> 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."));
size_t val(0); try
{
val = c?
db::property<db::prop_int>(c, prop):
db::property<db::prop_int>(d, prop);
}
catch(const std::exception &e)
{
log::derror{"%s", e.what()};
}
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."));
size_t val(0); try
{
val = c?
db::property<db::prop_int>(c, prop):
db::property<db::prop_int>(d, prop);
}
catch(const std::exception &e)
{
log::derror{"%s", e.what()};
}
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 << "\n--- files:" << std::endl;
_print_sst_info_header(out);
db::database::sst::info::vector vector{c};
std::sort(begin(vector), end(vector), []
(const auto &a, const auto &b)
{
return a.created < b.created;
});
for(const auto &info : vector)
_print_sst_info(out, info);
out << std::setfill(' ');
out << "\n--- caches:" << std::endl;
console_cmd__db__cache(out, line);
}
else
{
out
<< std::endl
<< std::left << std::setfill (' ') << std::setw(3) << "ID"
<< " " << std::setw(20) << "NAME"
<< " " << std::right << std::setw(12) << "KEYS"
<< " " << std::left << std::setw(24) << "SIZE (COMPRESSED)"
<< " :" << "DESCRIPTION" << std::endl;
for(const auto &column : d.columns)
{
const auto explain
{
split(db::describe(*column).explain, '\n').first
};
const auto &num_keys
{
db::property<db::prop_int>(*column, "rocksdb.estimate-num-keys")
};
out << std::left << std::setfill (' ') << std::setw(3) << db::id(*column)
<< " " << std::setw(20) << db::name(*column)
<< " " << std::right << std::setw(12) << num_keys
<< " " << std::left << 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 << "<table>";
out << "<tr>";
out << "<td> HOST </td>";
out << "<td> ADDR </td>";
out << "<td> LINKS </td>";
out << "<td> REQS </td>";
out << "<td> ▲ BYTES Q</td>";
out << "<td> ▼ BYTES Q</td>";
out << "<td> ▲ BYTES</td>";
out << "<td> ▼ BYTES</td>";
out << "<td> ERROR </td>";
out << "</tr>";
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 << "<tr>";
out << "<td>" << host << "</td>";
out << "<td>" << ipp << "</td>";
out << "<td>" << peer.link_count() << "</td>";
out << "<td>" << peer.tag_count() << "</td>";
out << "<td>" << peer.write_size() << "</td>";
out << "<td>" << peer.read_size() << "</td>";
out << "<td>" << peer.write_total() << "</td>";
out << "<td>" << peer.read_total() << "</td>";
out << "<td>";
if(peer.err_has() && peer.err_msg())
out << peer.err_msg();
else if(peer.err_has())
out << "<unknown error>"_sv;
out << "</td>";
out << "</tr>";
}
out << "</table>";
return true;
}
bool
console_cmd__peer(opt &out, const string_view &line)
try
{
if(out.html)
return html__peer(out, line);
const params param{line, " ",
{
"[hostport]", "[all]"
}};
const auto &hostport
{
param[0]
};
const auto print_head{[&out]
{
out
<< std::setw(4) << std::left << "ID" << ' '
<< std::setw(40) << std::right << "ADDRESS" << ' '
<< std::setw(7) << std::right << "TTL" << ' '
<< std::setw(50) << std::left << "NAME" << ' '
<< std::setw(23) << std::left << "READ-TOTAL" << ' '
<< std::setw(23) << std::left << "WRITE-TOTAL" << ' '
<< std::setw(8) << std::right << "TOTAL" << ' '
<< std::setw(5) << std::right << "DONE" << ' '
<< std::setw(4) << std::right << "TAGS" << ' '
<< std::setw(4) << std::right << "PIPE" << ' '
<< std::setw(4) << std::right << "LNKS" << ' '
<< std::setw(15) << std::left << "FLAGS" << ' '
<< std::setw(32) << std::left << "ERROR" << ' '
<< std::endl;
}};
const auto print{[&out]
(const auto &host, const auto &peer)
{
const string_view &error
{
peer.err_has() && peer.err_msg()?
peer.err_msg():
peer.err_has()?
"<unknown error>"_sv:
string_view{}
};
char flags[16] {0};
if(peer.op_resolve) ircd::strlcat(flags, "RESOLVING ");
if(peer.op_fini) ircd::strlcat(flags, "FINISHED ");
char pbuf[32];
out
<< std::setw(4) << std::left << peer.id << ' '
<< std::setw(40) << std::right << net::ipport{peer.remote} << ' '
<< std::setw(7) << std::right << duration_cast<seconds>(peer.remote_expires - now<system_point>()).count() << ' '
<< std::setw(50) << std::left << trunc(host, 50) << ' '
<< std::setw(23) << std::left << pretty(pbuf, iec(peer.read_total())) << ' '
<< std::setw(23) << std::left << pretty(pbuf, iec(peer.write_total())) << ' '
<< std::setw(8) << std::right << peer.tag_done << ' '
<< std::setw(5) << std::right << peer.link_tag_done() << ' '
<< std::setw(4) << std::right << peer.tag_count() << ' '
<< std::setw(4) << std::right << peer.tag_committed() << ' '
<< std::setw(4) << std::right << peer.link_count() << ' '
<< std::setw(15) << std::left << flags << ' '
<< std::setw(32) << std::left << error << ' '
<< std::endl;
}};
const bool all(has(line, "all"));
const bool active(has(line, "active"));
const bool conn(has(line, "conn"));
if(hostport && !all && !active && !conn)
{
char buf[rfc3986::DOMAIN_BUFSIZE];
const auto remote
{
net::service(net::hostport(hostport)) == "matrix"?
m::fed::server(buf, hostport):
m::fed::matrix_service(hostport)
};
auto &peer
{
server::find(remote)
};
print_head();
print(peer.hostcanon, peer);
return true;
}
print_head();
for(const auto &p : server::peers)
{
const auto &host{p.first};
const auto &peer{*p.second};
if(!all && peer.err_has())
continue;
if(conn && !peer.link_count())
continue;
if(active && !peer.tag_count())
continue;
print(host, peer);
}
return true;
}
catch(const std::out_of_range &)
{
throw error
{
"Peer not found"
};
}
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(40) << left << ipp;
else
out << ' ' << setw(40) << left << " ";
out << peer.e->etime;
if(peer.err_msg())
out << " :" << peer.err_msg();
else
out << " <unknown error>"_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 string_view &input
{
token(line, ' ', 0)
};
char buf[rfc3986::DOMAIN_BUFSIZE];
const net::hostport remote
{
service(net::hostport(input)) == "matrix"?
m::fed::server(buf, input):
m::fed::matrix_service(input)
};
const auto cleared
{
server::errclear(remote)
};
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(40) << left << ipp;
else
out << ' ' << setw(40) << left << " ";
if(!empty(peer.server_version))
out << " :" << peer.server_version;
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 &hp
{
param["hostport"]
};
char buf[rfc3986::DOMAIN_BUFSIZE];
const net::hostport remote
{
service(net::hostport(hp)) == "matrix"?
m::fed::server(buf, hp):
m::fed::matrix_service(hp)
};
auto &peer
{
server::find(remote)
};
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"
};
}
bool
console_cmd__peer__request(opt &out, const string_view &line)
try
{
const params param{line, " ",
{
"servername", "linkid"
}};
const auto &servername
{
param["servername"]
};
const auto &linkid
{
param["linkid"]
};
out
<< std::right << std::setw(32) << "PEER NAME" << " "
<< std::left << std::setw(32) << "REMOTE ADDRESS" << " "
<< std::right << std::setw(8) << "PEER" << " "
<< std::right << std::setw(8) << "LINK" << " "
<< std::right << std::setw(8) << "TAG" << " "
<< std::right << std::setw(4) << "POS" << " "
<< std::right << std::setw(8) << "WROTE" << " "
<< std::right << std::setw(5) << "RHEAD" << " "
<< std::right << std::setw(9) << "RCONT" << " "
<< std::right << std::setw(9) << "CONTLEN" << " "
<< std::right << std::setw(4) << "CODE" << " "
<< std::right << std::setw(4) << "FLAG" << " "
<< std::right << std::setw(4) << "FLAG" << " "
<< std::right << std::setw(4) << "FLAG" << " "
<< std::right << std::setw(7) << "METHOD" << " "
<< std::left << std::setw(72) << "PATH" << " "
<< std::endl
;
const auto each{[&out]
(const server::peer &peer, const server::link &link, const server::request &request)
{
const auto out_head
{
request.out.gethead(request)
};
char rembuf[128];
const string_view &remote
{
link.socket?
string(rembuf, remote_ipport(*link.socket)):
"<no socket>"_sv
};
size_t pos(0);
if(request.tag)
for(auto it(begin(link.queue)); it != end(link.queue); ++it, ++pos)
if(std::addressof(*it) == request.tag)
break;
out
<< std::right << std::setw(32) << trunc(peer.hostcanon, 32) << " "
<< std::left << std::setw(32) << trunc(remote, 32) << " "
<< std::right << std::setw(8) << peer.id << " "
<< std::right << std::setw(8) << link.id << " "
<< std::right << std::setw(8) << id(request) << " "
<< std::right << std::setw(4) << pos << " "
;
if(request.tag)
{
out
<< std::right << std::setw(8) << request.tag->state.written << " "
<< std::right << std::setw(5) << request.tag->state.head_read << " "
<< std::right << std::setw(9) << request.tag->state.content_read << " "
<< std::right << std::setw(9) << request.tag->state.content_length << " "
;
}
if(request.tag)
out << std::setw(4) << uint(request.tag->state.status) << " ";
else if(!request.tag)
out << std::setw(4) << "----" << " ";
else
out << std::setw(4) << "CNCL" << " ";
if(request.tag && request.tag->committed() && bool(request.tag->state.status))
out << std::setw(4) << "DONE" << " ";
else if(request.tag && request.tag->committed())
out << std::setw(4) << "PIPE" << " ";
else if(!request.tag)
out << std::setw(4) << "----" << " ";
else
out << std::setw(4) << " " << " ";
if(request.tag && request.tag->abandoned())
out << std::setw(4) << "GONE" << " ";
else if(!request.tag)
out << std::setw(4) << "----" << " ";
else
out << std::setw(4) << " " << " ";
if(request.tag && request.tag->canceled())
out << std::setw(4) << "CNCL" << " ";
else if(!request.tag)
out << std::setw(4) << "----" << " ";
else
out << std::setw(4) << " " << " ";
out
<< std::right << std::setw(7) << out_head.method << " "
<< std::left << std::setw(72) << trunc(out_head.path, 72) << " "
;
out << std::endl;
return true;
}};
if(servername && linkid)
{
auto &peer
{
server::find(servername)
};
throw m::UNSUPPORTED
{
"Link identifiers are not yet implemented;"
" cannot iterate request for one link."
};
return true;
}
if(servername)
{
auto &peer
{
server::find(servername)
};
server::for_each(peer, each);
return true;
}
server::for_each(each);
return true;
}
catch(const std::out_of_range &e)
{
throw error
{
"Peer not found"
};
}
//
// net
//
bool
console_cmd__net__addrs(opt &out, const string_view &line)
{
net::addrs::for_each([&out]
(const net::addrs::addr &addr)
{
out << std::left << std::setw(16) << addr.name << " "
<< std::setw(32) << addr.address << " "
<< "family[" << std::setw(2) << addr.family << "] "
<< "scope[" << addr.scope_id << "] "
<< "flowinfo[" << addr.flowinfo << "] "
<< "flags[0x" << std::hex << addr.flags << "]" << std::dec
<< std::endl;
return true;
});
return true;
}
bool
console_cmd__net__service(opt &out, const string_view &line)
{
const params param{line, " ",
{
"service", "proto"
}};
const string_view &service
{
param.at("service")
};
const string_view &proto
{
param.at("proto", "tcp"_sv)
};
if(lex_castable<uint16_t>(service))
{
char buf[64];
const auto name
{
net::dns::service_name(buf, lex_cast<uint16_t>(service), proto)
};
out << name << std::endl;
return true;
}
const auto port
{
net::dns::service_port(service, proto)
};
out << port << std::endl;
return true;
}
bool
console_cmd__net__host(opt &out, const string_view &line)
{
const params param{line, " ",
{
"hostport", "qtype"
}};
const net::hostport hostport
{
param.at("hostport")
};
const string_view &qtype
{
param["qtype"]
};
ctx::dock dock;
bool done{false};
std::string res[2];
std::exception_ptr eptr;
net::dns::opts opts;
opts.qtype = qtype? rfc1035::qtype.at(qtype) : 0;
const net::dns::callback_ipport cbipp{[&done, &dock, &eptr, &res]
(std::exception_ptr eptr_, const net::hostport &hp, const net::ipport &ipport)
{
eptr = std::move(eptr_);
res[0] = string(hp);
res[1] = string(ipport);
done = true;
dock.notify_one();
}};
const net::dns::callback cbarr{[&done, &dock, &eptr, &res]
(const net::hostport &hp, const json::array &rrs)
{
res[0] = string(hp);
res[1] = rrs;
done = true;
dock.notify_one();
}};
if(!opts.qtype)
net::dns::resolve(hostport, opts, cbipp);
else
net::dns::resolve(hostport, opts, cbarr);
const ctx::uninterruptible ui;
dock.wait([&done]() noexcept
{
return done;
});
if(eptr)
std::rethrow_exception(eptr);
else
out << res[0] << " : " << res[1] << 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(opt &out, const string_view &line)
{
const params param{line, " ",
{
"qtype", "hostport"
}};
const string_view &qtype
{
param["qtype"]
};
if(!param["hostport"])
{
net::dns::cache::for_each(qtype, [&]
(const string_view &host, const auto &r)
{
out << std::left << std::setw(48) << host
<< r
<< std::endl;
return true;
});
return true;
}
const net::hostport hostport
{
param["hostport"]
};
net::dns::opts opts;
opts.qtype = rfc1035::qtype.at(qtype);
net::dns::cache::for_each(hostport, opts, [&]
(const auto &host, const auto &r)
{
out << std::left << std::setw(48) << host
<< r
<< std::endl;
return true;
});
return true;
}
bool
console_cmd__net__host__cache__count(opt &out, const string_view &line)
{
const params param{line, " ",
{
"qtype"
}};
const string_view &qtype
{
param["qtype"]
};
size_t count[2] {0};
net::dns::cache::for_each(qtype, [&]
(const auto &host, const auto &r)
{
++count[bool(r.size() > 1)];
return true;
});
out << "resolved: " << count[1] << std::endl;
out << "error: " << count[0] << std::endl;
return true;
}
bool
console_cmd__net__host__cache__clear(opt &out, const string_view &line)
{
const params param{line, " ",
{
"hostport", "[service]"
}};
out << "NOT IMPLEMENTED" << std::endl;
return true;
}
bool
console_cmd__net__listen__list(opt &out, const string_view &line)
{
using list = std::list<net::listener>;
static mods::import<list> listeners
{
"m_listen", "listeners"
};
const list &l(listeners);
for(const auto &listener : l)
{
out << "name : " << net::name(listener) << std::endl;
out << "binder : " << net::binder(listener) << std::endl;
out << "bound : " << net::local(listener) << std::endl;
out << "config : " << net::config(listener) << std::endl;
out << std::endl;
}
return true;
}
bool
console_cmd__net__listen__ciphers(opt &out, const string_view &line)
{
const params param{line, " ",
{
"name",
}};
const auto &name
{
param["name"]
};
using list = std::list<net::listener>;
static mods::import<list> listeners
{
"m_listen", "listeners"
};
const list &l(listeners);
for(const auto &listener : l)
{
if(name && listener.name() != name)
continue;
out << listener.name() << ": " << std::endl
<< cipher_list(listener)
<< std::endl
<< 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",
"private_key_pem_path",
"certificate_pem_path",
"certificate_chain_path",
}};
const json::members _opts
{
{ "host", token.at("host", "0.0.0.0"_sv) },
{ "port", token.at("port", 8448L) },
{ "private_key_pem_path", token.at("private_key_pem_path") },
{ "certificate_pem_path", token.at("certificate_pem_path") },
{ "certificate_chain_path", token.at("certificate_chain_path", ""_sv) },
};
const json::object &addl
{
tokens_after(line, ' ', token.names.size())
};
json::strung opts{_opts};
for(const auto &[name, prop] : addl)
opts = insert(opts, json::member(name, prop));
const m::room::id::buf my_room
{
"ircd", origin(m::my())
};
const auto eid
{
m::send(my_room, m::me(), "ircd.listen", token.at("name"), opts)
};
out << eid << std::endl;
return true;
}
bool
console_cmd__net__listen__del(opt &out, const string_view &line)
{
const params token{line, " ",
{
"name"
}};
const m::room::id::buf my_room_id
{
"ircd", origin(m::my())
};
const m::room my_room
{
my_room_id
};
const auto event_idx
{
my_room.get("ircd.listen", token.at("name"))
};
const auto event_id
{
m::event_id(event_idx)
};
const auto redact_id
{
m::redact(my_room, m::me(), event_id, "deleted")
};
out << "Removed listener '" << token.at("name") << "' configuration. " << std::endl
<< "The configuration is still saved in the content of " << event_id << std::endl
<< "You may still need to unload this listener from service." << 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<prototype> load_listener
{
"m_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<prototype> unload_listener
{
"m_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;
}
bool
console_cmd__net__listen__crt(opt &out, const string_view &line)
{
const params param{line, " ",
{
"listener|path"
}};
string_view filename;
const string_view &targ
{
param.at("listener|path")
};
static mods::import<std::list<net::listener>> listeners
{
"m_listen", "listeners"
};
const auto &list{*listeners};
for(const auto &listener : list)
{
if(listener.name() != targ)
continue;
const json::object config
{
listener
};
filename = unquote(config.get("certificate_pem_path"));
}
if(!filename)
{
filename = targ;
return true;
}
const unique_buffer<mutable_buffer> buf
{
32_KiB
};
const std::string certfile
{
fs::read(filename)
};
out << openssl::printX509(buf, certfile, 0) << 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, " ",
{
"[request|id]",
}};
const bool &reqs
{
param[0] == "request"
};
const auto &idnum
{
!reqs?
param.at<ulong>(0, 0):
0
};
std::vector<client *> clients(client::map.size());
static const values<decltype(client::map)> 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 << right
<< setw(8) << "ID"
<< " "
<< setw(8) << "SOCKID"
<< " "
<< setw(6) << "RDY"
<< " "
<< setw(6) << "REQ"
<< " "
<< right
<< setw(4) << "CTX"
<< " "
<< left
<< setw(11) << "TIME"
<< " "
<< right
<< setw(25) << "BYTES FROM"
<< " "
<< setw(25) << "BYTES TO"
<< " "
<< setw(50) << "LOCAL"
<< " "
<< left
<< setw(50) << "REMOTE"
<< " "
<< std::endl;
for(const auto &client : clients)
{
char pbuf[2][64];
if(idnum && client->id < idnum)
continue;
else if(idnum && client->id > idnum)
break;
else if(reqs && !client->reqctx)
continue;
out << right << setw(8) << client->id;
out << " "
<< right << setw(8) << (client->sock? net::id(*client->sock) : 0UL)
;
const std::pair<size_t, size_t> stat
{
bool(client->sock)?
net::bytes(*client->sock):
std::pair<size_t, size_t>{0, 0}
};
out << " "
<< right << setw(6) << client->ready_count
<< " "
<< right << setw(6) << client->request_count
;
out << " " << right << setw(4)
<< (client->reqctx? id(*client->reqctx) : 0UL)
;
out << " "
<< left << setw(11) << pretty(pbuf[0], client->timer.at<nanoseconds>(), true)
;
out << " "
<< right << setw(25) << pretty(pbuf[0], iec(stat.first))
<< " "
<< right << setw(25) << pretty(pbuf[1], iec(stat.second))
;
out << " "
<< right << setw(50) << local(*client)
<< " "
<< left << setw(50) << remote(*client)
;
/*
if(client->request.user_id)
out << " " << client->request.user_id;
else if(client->request.origin)
out << " " << 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 && path != "-a")
{
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};
if(path != "-a" && !m.stats->requests)
continue;
out << std::setw(56) << std::left << p.first
<< " "
<< std::setw(7) << mp.first
<< std::right
<< " | CUR " << std::setw(8) << m.stats->pending
<< " | 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;
}
//
// me
//
bool
console_cmd__me(opt &out, const string_view &line)
{
out << m::me() << std::endl;
out << m::public_key_id(m::my()) << std::endl;
return true;
}
//
// key
//
bool
console_cmd__key(opt &out, const string_view &line)
{
const params param{line, " ",
{
"server_name"
}};
const auto &server_name
{
param.at("server_name")
};
// keys cached for server by param.
m::keys::cache::for_each(server_name, [&out]
(const m::keys &keys)
{
pretty_oneline(out, keys) << std::endl;
return true;
});
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 m::keys &keys)
{
pretty(out, keys) << std::endl;
});
}
else
{
const std::pair<string_view, string_view> queries[1]
{
{ server_name, {} }
};
m::keys::query(query_server, queries, [&out]
(const m::keys &keys)
{
pretty_oneline(out, keys) << std::endl;
return true;
});
}
return true;
}
//
// stage
//
std::vector<std::string> 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<uint>(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{}
};
const m::room::id::buf my_room
{
"ircd", origin(m::my())
};
if(stage.size() == id)
{
m::event base_event{json::members
{
{ "depth", json::undefined_number },
{ "origin", my_host() },
{ "origin_server_ts", time<milliseconds>() },
{ "sender", m::me() },
{ "room_id", my_room },
{ "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
{
char buf[512];
if(!verify_hash(event))
out << "- HASH MISMATCH: " << b64::encode_unpadded(buf, 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<int>(0, -1)
};
const auto &limit
{
param.at<size_t>(1, 16)
};
m::event event
{
stage.at(id)
};
const m::room room
{
at<"room_id"_>(event)
};
const m::room::head head
{
room
};
const unique_mutable_buffer buf
{
8_KiB
};
const m::room::head::generate prev
{
buf, head,
{
16, // .limit = 20,
false, // .need_top_head = true,
false, // .need_my_head = false,
}
};
json::get<"prev_events"_>(event) = prev.array;
json::get<"depth"_>(event) = prev.depth[1];
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<int>(0, -1)
};
m::event event
{
stage.at(id)
};
const m::room room
{
at<"room_id"_>(event)
};
const unique_mutable_buffer buf
{
1_KiB
};
json::get<"auth_events"_>(event) =
{
m::room::auth::generate(buf, room, 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__final(opt &out, const string_view &line)
{
const params param{line, " ",
{
"[id]", "[options]"
}};
const int &id
{
param.at<int>(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, "1", 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<int64_t>("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, "1", 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<uint>(0)
};
const auto &dstid
{
param.at<uint>(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<int>(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<int>(0, -1)
};
m::vm::opts opts;
m::vm::eval eval
{
opts
};
if(id >= 0)
{
const std::vector<m::event> events
{
json::object(stage.at(id))
};
execute(eval, events);
return true;
}
const std::vector<m::event> events
{
std::begin(stage), std::end(stage)
};
execute(eval, events);
return true;
}
bool
console_cmd__stage__send(opt &out, const string_view &line)
{
const params param{line, " ",
{
"remote", "[id]"
}};
const string_view remote
{
param.at(0)
};
const int &id
{
param.at<int>(1, -1)
};
std::vector<json::value> 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)
};
char idbuf[128];
const auto txnid
{
m::txn::create_id(idbuf, txn)
};
const unique_buffer<mutable_buffer> bufs
{
16_KiB
};
m::fed::send::opts opts;
opts.remote = remote;
m::fed::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::fed::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<int>(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", "stop"
}};
const int64_t start
{
param.at<int64_t>("start", -1)
};
const int64_t stop
{
param.at<int64_t>("stop", start == -1? 0 : -1)
};
size_t limit
{
stop == 0 || stop == -1?
32:
std::numeric_limits<size_t>::max()
};
const auto closure{[&out, &limit]
(const m::event::idx &seq, const m::event &event)
{
out << seq << " " << pretty_oneline(event) << std::endl;
return --limit > 0;
}};
const m::events::range range
{
uint64_t(start), uint64_t(stop)
};
m::events::for_each(range, 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<uint64_t>(0, uint64_t(-1))
};
const m::event_filter filter
{
param.at(1)
};
m::events::for_each({start, 0}, filter, [&out]
(const m::event::idx &seq, const m::event &event)
{
out << seq << " " << pretty_oneline(event) << std::endl;;
return true;
});
return true;
}
bool
console_cmd__events__in__sender(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id"
}};
const m::user::id &user_id
{
param.at("user_id")
};
size_t i(0);
m::events::sender::for_each_in(user_id, [&out, &i]
(const m::user::id &user_id, const m::event::idx &event_idx)
{
const m::event::fetch event
{
std::nothrow, event_idx
};
if(!event.valid)
{
out << event_idx << " " << "NOT FOUND" << std::endl;
return true;
}
if(json::get<"room_id"_>(event) == "!2Ae7qzmYoskWNSUuTMRTdze6DQo5:zemos.net")
return true;
if(json::get<"room_id"_>(event) == "!AAAANTUiY1fBZ230:zemos.net")
return true;
out << event_idx << " " << pretty_oneline(event) << std::endl;;
return i++ < 2048;
});
return true;
}
bool
console_cmd__events__in__origin(opt &out, const string_view &line)
{
const params param{line, " ",
{
"origin"
}};
const string_view &origin
{
lstrip(param.at("origin"), ':')
};
m::events::origin::for_each_in(origin, [&out]
(const m::user::id &user_id, const m::event::idx &event_idx)
{
const m::event::fetch event
{
std::nothrow, event_idx
};
if(!event.valid)
{
out << event_idx << " " << "NOT FOUND" << std::endl;
return true;
}
out << event_idx << " " << pretty_oneline(event) << std::endl;;
return true;
});
return true;
}
bool
console_cmd__events__in__type(opt &out, const string_view &line)
{
const params param{line, " ",
{
"type"
}};
const string_view &type
{
param.at("type")
};
m::events::type::for_each_in(type, [&out]
(const string_view &type, const m::event::idx &event_idx)
{
const m::event::fetch event
{
std::nothrow, event_idx
};
if(!event.valid)
{
out << event_idx << " " << "NOT FOUND" << std::endl;
return true;
}
out << event_idx << " " << pretty_oneline(event) << std::endl;;
return true;
});
return true;
}
bool
console_cmd__events__in(opt &out, const string_view &line)
{
const params param{line, " ",
{
"what"
}};
const string_view &what
{
param.at("what")
};
if(valid(m::id::USER, what))
return console_cmd__events__in__sender(out, line);
if(startswith(what, ':') && rfc3986::valid_host(std::nothrow, lstrip(what, ':')))
return console_cmd__events__in__origin(out, line);
return console_cmd__events__in__type(out, line);
}
bool
console_cmd__events__type(opt &out, const string_view &line)
{
const params param{line, " ",
{
"prefix"
}};
const string_view &prefix
{
param["prefix"]
};
m::events::type::for_each(prefix, [&out]
(const string_view &type)
{
out << type << std::endl;
return true;
});
return true;
}
bool
console_cmd__events__type__counts(opt &out, const string_view &line)
{
const params param{line, " ",
{
"prefix"
}};
const string_view &prefix
{
param["prefix"]
};
m::events::type::for_each(prefix, [&out]
(const string_view &type)
{
size_t i(0);
m::events::type::for_each_in(type, [&i]
(const string_view &type, const m::event::idx &event_idx) noexcept
{
++i;
return true;
});
out
<< std::setw(8) << std::right << i
<< " " << type
<< std::endl;
return true;
});
return true;
}
bool
console_cmd__events__sender(opt &out, const string_view &line)
{
const params param{line, " ",
{
"prefix"
}};
const string_view &prefix
{
param["prefix"]
};
m::events::sender::for_each(prefix, [&out]
(const m::user::id &user_id)
{
out << user_id << std::endl;
return true;
});
return true;
}
bool
console_cmd__events__origin(opt &out, const string_view &line)
{
const params param{line, " ",
{
"prefix"
}};
const string_view &prefix
{
param["prefix"]
};
m::events::origin::for_each(prefix, [&out]
(const string_view &origin)
{
out << origin << std::endl;
return true;
});
return true;
}
bool
console_cmd__events__state(opt &out, const string_view &line)
{
const params param{line, " ",
{
"state_key", "type", "room_id", "depth", "idx"
}};
const m::events::state::tuple key
{
param["state_key"],
param["type"],
param.at("room_id", m::room::id{}),
param.at("depth", -1L),
param.at("idx", 0UL),
};
size_t i(0);
m::events::state::for_each(key, [&out, &i]
(const auto &tuple)
{
const auto &[state_key, type, room_id, depth, event_idx]
{
tuple
};
out
<< std::right << std::setw(6) << (i++) << " "
<< std::left << std::setw(48) << room_id << " "
<< std::right << std::setw(8) << depth << " [ "
<< std::right << std::setw(48) << type << " | "
<< std::left << std::setw(48) << state_key << " ] "
<< std::left << std::setw(10) << event_idx << " "
<< std::endl;
return true;
});
return true;
}
bool
console_cmd__events__refs(opt &out, const string_view &line)
{
const params param{line, " ",
{
"start", "stop", "type", "limit"
}};
const m::event::idx start
{
param.at("start", m::vm::sequence::retired - 128)
};
const m::event::idx stop
{
param.at("stop", m::vm::sequence::retired + 1)
};
const string_view &typestr
{
param.at("type", "*"_sv)
};
size_t limit
{
param.at("limit", 2048UL)
};
m::dbs::ref type
{
typestr == "*"?
m::dbs::ref(-1):
m::dbs::ref(0)
};
if(type != m::dbs::ref(-1))
for(; uint8_t(type) < sizeof(m::dbs::ref) * 256; type = m::dbs::ref(uint8_t(type) + 1))
if(reflect(type) == typestr)
break;
m::events::refs::for_each({start, stop}, [&out, &limit]
(const auto &src, const auto &type, const auto &tgt)
-> bool
{
const auto src_id
{
m::event_id(std::nothrow, src)
};
const auto tgt_id
{
m::event_id(std::nothrow, tgt)
};
out
<< " " << std::right << std::setw(10) << src
<< " " << std::left << std::setw(45) << trunc(src_id? string_view{src_id}: "<index error>"_sv, 45)
<< " " << std::right << std::setw(12) << trunc(reflect(type), 12)
<< " -> " << std::right << std::setw(10) << tgt
<< " " << std::left << std::setw(45) << trunc(tgt_id? string_view{tgt_id}: "<index error>"_sv, 45)
<< std::endl
;
return --limit;
});
return true;
}
bool
console_cmd__events__dump(opt &out, const string_view &line)
{
const params param{line, " ",
{
"filename"
}};
const auto filename
{
param.at(0)
};
m::events::dump__file(filename);
return true;
}
bool
console_cmd__events__rebuild(opt &out, const string_view &line)
{
m::events::rebuild();
return true;
}
//
// event
//
bool
console_cmd__event(opt &out, const string_view &line)
{
const params param{line, " ",
{
"event_id"
}};
m::event::id::buf event_id_buf;
if(lex_castable<ulong>(param.at("event_id")))
event_id_buf = m::event_id(param.at<ulong>("event_id"));
const m::event::id event_id
{
event_id_buf?: param.at("event_id")
};
const auto args
{
tokens_after(line, ' ', 0)
};
const auto event_idx
{
index(event_id)
};
const m::event::fetch event
{
event_id
};
if(!empty(args)) switch(hash(token(args, ' ', 0)))
{
case hash("raw"):
{
if(event.source)
out << json::strung{event.source} << std::endl;
else
out << event << std::endl;
return true;
}
case hash("source"):
{
if(event.source)
out << string_view{event.source} << std::endl;
return true;
}
case hash("idx"):
out << event_idx << std::endl;
return true;
case hash("content"):
{
for(const auto &m : json::get<"content"_>(event))
out << m.first << ": " << m.second << std::endl;
return true;
}
}
pretty_detailed(out, event, event_idx);
out << 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::fed::event::opts opts;
opts.remote = host;
opts.dynamic = false;
const unique_buffer<mutable_buffer> buf
{
128_KiB
};
m::fed::event request
{
event_id, buf, std::move(opts)
};
request.wait(out.timeout);
const auto code
{
request.get()
};
const m::event orig_event
{
request
};
const unique_mutable_buffer 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__horizon(opt &out, const string_view &line)
{
const params param{line, " ",
{
"event_id",
}};
const string_view &event_id
{
param["event_id"]
};
if(!event_id)
{
const auto &num_keys
{
db::property<db::prop_int>(m::dbs::event_horizon, "rocksdb.estimate-num-keys")
};
out << "Estimated event_id's unresolved: " << num_keys << '.' << std::endl;
return true;
}
const m::event::horizon horizon
{
event_id
};
horizon.for_each([&out, &event_id]
(const auto &, const auto &event_idx)
{
const m::event::fetch event
{
std::nothrow, event_idx
};
out
<< event.event_id
<< " -> "
<< event_idx
<< " ";
if(event.valid)
out << pretty_oneline(event);
else
out << "Not Found.";
out << std::endl;
return true;
});
return true;
}
bool
console_cmd__event__horizon__list(opt &out, const string_view &line)
{
const m::event::horizon horizon;
horizon.for_each([&out]
(const auto &event_id, const auto &event_idx)
{
const auto _event_id
{
m::event_id(std::nothrow, event_idx)
};
out << event_id
<< " -> "
<< event_idx
<< " "
<< _event_id
<< std::endl;
return true;
});
return true;
}
bool
console_cmd__event__horizon__rebuild(opt &out, const string_view &line)
{
const auto count
{
m::event::horizon::rebuild()
};
out << "done " << count << std::endl;
return true;
}
bool
console_cmd__event__horizon__flush(opt &out, const string_view &line)
{
size_t count(0);
const m::event::horizon horizon;
horizon.for_each([&out, &count]
(const auto &event_id, const auto &event_idx)
{
m::room::id::buf room_id_buf;
const string_view &room_id
{
m::get(std::nothrow, event_idx, "room_id", room_id_buf)
};
if(!room_id)
return true;
//m::fetch::start(room_id, event_id);
++count;
//TODO: XXX
while(m::fetch::count() > 64)
ctx::sleep(seconds(1));
return true;
});
return true;
}
bool
console_cmd__event__cached(opt &out, const string_view &line)
{
const params param{line, " ",
{
"event_id|event_idx",
}};
const string_view id
{
param.at(0)
};
static const m::event::fetch::opts opts
{
m::event::keys::exclude {}
};
if(valid(m::id::EVENT, id))
{
const m::event::id event_id
{
id
};
const bool cached
{
m::cached(event_id, opts)
};
out << event_id << " is"
<< (cached? " " : " not ")
<< "cached"
<< std::endl;
return true;
}
else if(lex_castable<ulong>(id))
{
const m::event::idx event_idx
{
lex_cast<ulong>(id)
};
const bool cached
{
m::cached(event_idx, opts)
};
out << "idx[" << event_idx << "] is"
<< (cached? " " : " not ")
<< "cached"
<< std::endl;
return true;
}
else throw m::BAD_REQUEST
{
"Not a valid event_id or `event_idx"
};
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__rewrite(opt &out, const string_view &line)
{
const params param{line, " ",
{
"event_id"
}};
const m::event::id &event_id
{
param.at("event_id")
};
const m::event::fetch event
{
event_id
};
m::dbs::write_opts opts;
opts.op = db::op::SET;
opts.event_idx = event.event_idx;
db::txn txn{*m::dbs::events};
m::dbs::write(txn, event, opts);
out << "executing cells:" << txn.size()
<< " "
<< "size: " << pretty(iec(txn.bytes()))
<< " for " << event_id << std::endl;
txn();
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 m::event::fetch event
{
event_id
};
const bool visible
{
m::visible(event, mxid)
};
out << event.event_id << " is "
<< (visible? "VISIBLE" : "NOT VISIBLE")
<< (mxid? " to " : "")
<< mxid
<< std::endl;
return true;
}
bool
console_cmd__event__auth(opt &out, const string_view &line)
{
const params param{line, " ",
{
"event_id"
}};
const m::event::id &event_id
{
param.at("event_id")
};
const m::event::fetch event
{
event_id
};
m::room::auth::check(event);
out << "pass" << std::endl;
return true;
}
bool
console_cmd__event__refs__rebuild(opt &out, const string_view &line)
{
m::event::refs::rebuild();
out << "done" << std::endl;
return true;
}
bool
console_cmd__event__refs(opt &out, const string_view &line)
{
const params param{line, " ",
{
"event_id", "type"
}};
const m::event::id &event_id
{
param.at("event_id")
};
const m::event::refs refs
{
index(event_id)
};
const string_view &typestr
{
param["type"]
};
m::dbs::ref type
{
empty(typestr)?
m::dbs::ref(-1):
m::dbs::ref(0)
};
if(!empty(typestr))
for(; uint8_t(type) < sizeof(m::dbs::ref) * 256; type = m::dbs::ref(uint8_t(type) + 1))
if(reflect(type) == typestr)
break;
refs.for_each(type, [&out, &event_id, &refs]
(const auto &tgt, const auto &type)
{
const auto tgt_id
{
m::event_id(std::nothrow, tgt)
};
out
<< " " << std::right << std::setw(10) << refs.idx
<< " " << std::left << std::setw(45) << trunc(event_id, 45)
<< " " << std::right << std::setw(12) << trunc(reflect(type), 12)
<< " -> " << std::right << std::setw(10) << tgt
<< " " << std::left << std::setw(60) << trunc(tgt_id? string_view{tgt_id}: "<index error>"_sv, 60)
<< std::endl
;
return true;
});
return true;
}
bool
console_cmd__event__refs__count(opt &out, const string_view &line)
{
const params param{line, " ",
{
"event_id", "type"
}};
const m::event::id &event_id
{
param.at("event_id")
};
const m::event::refs refs
{
index(event_id)
};
const string_view &typestr
{
param["type"]
};
m::dbs::ref type
{
empty(typestr)?
m::dbs::ref(-1):
m::dbs::ref(0)
};
if(!empty(typestr))
for(; uint8_t(type) < sizeof(m::dbs::ref) * 256; type = m::dbs::ref(uint8_t(type) + 1))
if(reflect(type) == typestr)
break;
const auto count
{
refs.count(type)
};
out << count << std::endl;
return true;
}
bool
console_cmd__event__refs__next(opt &out, const string_view &line)
{
const params param{line, " ",
{
"event_id"
}};
const m::event::id &event_id
{
param.at("event_id")
};
const m::event::refs refs
{
index(event_id)
};
refs.for_each(m::dbs::ref::NEXT, [&out]
(const auto &idx, const auto &type)
{
const m::event::fetch event
{
std::nothrow, idx
};
if(!event.valid)
return true;
out << idx
<< " " << m::event_id(idx)
<< " " << reflect(type)
<< std::endl;
return true;
});
return true;
}
bool
console_cmd__event__refs__auth(opt &out, const string_view &line)
{
const params param{line, " ",
{
"event_id", "type"
}};
const m::event::id &event_id
{
param.at("event_id")
};
const string_view type
{
param.at("type", ""_sv)
};
const m::room::auth::refs auth
{
index(event_id)
};
auth.for_each(type, [&out]
(const m::event::idx &idx)
{
const m::event::fetch event
{
std::nothrow, idx
};
if(!event.valid)
return true;
out << idx
<< " " << pretty_oneline(event)
<< std::endl;
return true;
});
return true;
}
//
// commit
//
//
// eval
//
bool
console_cmd__eval__file(opt &out, const string_view &line);
bool
console_cmd__eval(opt &out, const string_view &line)
{
const params param{line, " ",
{
"event_id", "opts",
}};
if(!valid(m::id::EVENT, param.at(0)))
return console_cmd__eval__file(out, line);
const m::event::id &event_id
{
param.at(0)
};
const auto &args
{
tokens_after(line, ' ', 1)
};
const m::event::fetch event
{
event_id
};
m::vm::opts opts;
opts.nothrows = 0;
tokens(args, ' ', [&opts](const auto &arg)
{
switch(hash(arg))
{
case "replay"_:
opts.replays = true;
break;
case "nowrite"_:
opts.phase.reset(m::vm::phase::WRITE);
break;
case "noverify"_:
opts.phase.reset(m::vm::phase::VERIFY);
break;
}
});
out
<< pretty(event)
<< std::endl;
m::vm::eval
{
event, opts
};
out
<< "done"
<< std::endl;
return true;
}
bool
console_cmd__eval__file(opt &out, const string_view &line)
{
const params param{line, " ",
{
"path", "limit"
}};
const auto path
{
param.at("path")
};
const auto limit
{
param.at<size_t>("limit", -1UL)
};
const fs::fd::opts opts
{
.mode = std::ios::in,
};
const fs::fd file
{
path, opts
};
const fs::map map
{
file, fs::map::opts
{
opts
},
};
// This array is backed by the mmap
const json::array events
{
const_buffer{map}
};
m::vm::opts vm_opts;
vm_opts.infolog_accept = true;
vm_opts.limit = limit;
m::vm::eval
{
events, vm_opts
};
return true;
}
//
// rooms
//
bool
console_cmd__rooms(opt &out, const string_view &line)
{
const string_view &search_term
{
line
};
const m::rooms::opts opts
{
search_term
};
auto limit
{
64
};
m::rooms::for_each(opts, [&limit, &out]
(const m::room::id &room_id) -> bool
{
out << room_id << std::endl;
return --limit > 0;
});
return true;
}
bool
console_cmd__rooms__dump(opt &out, const string_view &line)
{
const params param{line, " ",
{
"filename"
}};
const auto filename
{
param.at(0)
};
static conf::item<size_t>
rooms_dump_prefetch
{
{ "name", "ircd.console.rooms.dump.prefetch" },
{ "default", 16L },
};
m::rooms::opts opts;
opts.remote_only = true;
opts.prefetch = rooms_dump_prefetch;
m::rooms::dump__file(opts, filename);
return true;
}
bool
console_cmd__rooms__public(opt &out, const string_view &line)
{
const params param{line, " ",
{
"server", "search_term", "limit"
}};
const string_view &server
{
param.at("server", string_view{})
};
const string_view &search_term
{
param["server"] && startswith(param["server"], ':') && param["search_term"] != "*"?
param["search_term"]:
param["server"] && startswith(param["server"], ':')?
string_view{}:
param["server"] != "*"?
param["server"]:
string_view{}
};
auto limit
{
param.at("limit", 32L)
};
m::rooms::opts opts;
opts.server = server;
opts.search_term = search_term;
opts.summary = true;
opts.join_rule = "public";
m::rooms::for_each(opts, [&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)
{
const params param{line, " ",
{
"server", "since"
}};
const string_view &server
{
param.at("server")
};
const string_view &since
{
param.at("since", string_view{})
};
const m::rooms::summary::fetch fetch
{
server, since
};
out << "done" << std::endl
<< "total room count estimate: " << fetch.total_room_count_estimate << std::endl
<< "next batch: " << fetch.next_batch << std::endl
;
return true;
}
bool
console_cmd__rooms__head__reset(opt &out, const string_view &line)
{
const params param{line, " ",
{
"server"
}};
const string_view &server
{
param["server"] != "*" &&
param["server"] != "remote_joined_only" &&
param["server"] != "local_only"?
param["server"]:
string_view{}
};
m::rooms::opts opts;
opts.server = server;
if(param["server"] == "remote_joined_only")
opts.remote_joined_only = true;
if(param["server"] == "local_only")
opts.local_only = true;
m::rooms::for_each(opts, [&out]
(const m::room::id &room_id) -> bool
{
const m::room::head head
{
room_id
};
m::room::head::reset(head);
return true;
});
return true;
}
//
// room
//
bool console_cmd__room__events(opt &out, const string_view &line);
bool
console_cmd__room(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 room
{
room_id, std::get<m::event::id::buf>(top)
};
const m::room::state state
{
room
};
const m::room::auth::chain auth
{
std::get<m::event::idx>(top)
};
char version_buf[32], display_buf[256];
out << "display name: " << m::display_name(display_buf, room_id) << std::endl;
out << "creator: " << m::creator(room_id) << std::endl;
out << "version: " << m::version(version_buf, room_id) << std::endl;
out << "internal: " << m::internal(room_id) << std::endl;
out << "local only: " << std::boolalpha << m::local_only(room_id) << std::endl;
out << "local joined: " << std::boolalpha << m::local_joined(room_id) << std::endl;
out << "remote joined: " << std::boolalpha << m::remote_joined(room_id) << std::endl;
out << std::endl;
const m::room::members members{room_id};
out
<< "invite local: " << members.count("invite", my_host()) << std::endl
<< "invite: " << members.count("invite") << std::endl
<< "join local: " << members.count("join", my_host()) << std::endl
<< "join: " << members.count("join") << std::endl
<< "leave local: " << members.count("leave", my_host()) << std::endl
<< "leave: " << members.count("leave") << std::endl
<< "ban local: " << members.count("ban", my_host()) << std::endl
<< "ban: " << members.count("ban") << std::endl
<< std::endl;
out << "servers: " << m::room::origins{room_id}.count() << std::endl;
out << "servers up: " << m::room::origins{room_id}.count_online() << std::endl;
out << "servers err: " << m::room::origins{room_id}.count_error() << std::endl;
out << std::endl;
out << "heads: " << m::room::head{room_id}.count() << std::endl;
out << "auth depth: " << auth.depth() << std::endl;
out << "state: " << m::room::state{room_id}.count() << std::endl;
out << "states: " << m::room::state::space{room_id}.count() << std::endl;
out << "events: " << m::room{room_id}.count() << std::endl;
out << "index: " << m::room::index(room_id) << std::endl;
out << std::endl;
out << "top depth: " << std::get<int64_t>(top) << std::endl;
out << "top event: " << std::get<m::event::id::buf>(top) << std::endl;
out << "top index: " << std::get<m::event::idx>(top) << std::endl;
out << std::endl;
out << "m.room state: " << std::endl;
state.for_each(m::room::state::type_prefix{"m.room."}, [&out, &state]
(const string_view &type, const string_view &state_key, const m::event::idx &event_idx)
{
assert(startswith(type, "m.room."));
if(type == "m.room.member")
return true;
if(state_key != ""_sv && type != "m.room.aliases")
return true;
const m::event::fetch event
{
std::nothrow, event_idx
};
if(!event.valid)
return true;
const size_t &evw
{
event.event_id.version() == "1"? 64UL : 40UL
};
for(const auto &[prop, val] : json::get<"content"_>(event))
out
<< std::left << std::setw(evw) << event.event_id
<< " " << std::right << std::setw(30) << json::get<"type"_>(event)
<< " | " << std::left << std::setw(24) << prop
<< " " << val
<< std::endl;
return true;
});
out << std::endl;
out << "recent auth:" << std::endl;
ssize_t adi(auth.depth());
auth.for_each([&out, &adi]
(const m::event::idx &event_idx)
{
if(adi-- > 5)
return true;
const m::event::fetch event
{
std::nothrow, event_idx
};
if(event.valid)
m::pretty_stateline(out, event, event_idx);
return true;
});
out << std::endl;
out << "recent events: " << std::endl;
char linebuf[256];
static const size_t last_count(5);
console_cmd__room__events(out, fmt::sprintf
{
linebuf, "%s -%ld",
string_view{room_id},
last_count,
});
out << std::endl;
out << "recent missing: " << std::endl;
const m::room::events::missing missing
{
room
};
ssize_t missing_count(3);
missing.rfor_each({0, 0}, [&out, &missing_count, &top]
(const auto &event_id, const auto &ref_depth, const auto &ref_idx)
{
out
<< std::right << std::setw(8) << (int64_t(ref_depth) - std::get<int64_t>(top))
<< " "
<< std::right << std::setw(8) << ref_depth
<< " "
<< std::right << std::setw(10) << ref_idx
<< " "
<< std::left << std::setw(64) << m::event_id(ref_idx)
<< " missing: "
<< std::left << event_id
<< std::endl;
return missing_count--;
});
out << std::endl;
out << "oldest missing: " << std::endl;
missing_count = 3;
missing.for_each({0, 0}, [&out, &missing_count, &top]
(const auto &event_id, const auto &ref_depth, const auto &ref_idx)
{
out
<< std::right << std::setw(8) << (int64_t(ref_depth) - std::get<int64_t>(top))
<< " "
<< std::right << std::setw(8) << ref_depth
<< " "
<< std::right << std::setw(10) << ref_idx
<< " "
<< std::left << std::setw(64) << m::event_id(ref_idx)
<< " missing: "
<< std::left << event_id
<< std::endl;
return missing_count--;
});
out << std::endl;
out << "recent gaps: " << std::endl;
size_t gap_count(4);
const m::room::events::sounding gaps
{
room
};
gaps.rfor_each([&out, &gap_count, &top]
(const auto &range, const auto &event_idx)
{
out
<< std::right << std::setw(8) << (int64_t(range.first) - std::get<int64_t>(top))
<< " "
<< std::right << std::setw(8) << range.first
<< " -> "
<< std::left << std::setw(8) << range.second
<< " "
<< (m::room::state::is(std::nothrow, event_idx)? "S" : " ")
<< " "
<< m::event_id(event_idx)
<< std::endl;
return gap_count--;
});
return true;
}
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))
};
char buf[32];
out << m::version(buf, 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
{
std::nothrow, event_idx
};
out << pretty_oneline(event) << std::endl;
return true;
});
return true;
}
bool
console_cmd__room__head__count(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
};
out << head.count() << 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
};
const m::room::head head
{
room
};
const size_t count
{
head.rebuild(head)
};
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)
};
m::room::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)
};
m::room::head::modify(event_id, db::op::DELETE, true);
out << "Deleted " << event_id << " from head (if existed)" << 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
};
const m::room::head head
{
room
};
const size_t count
{
head.reset(head)
};
out << "done " << count << std::endl;
return true;
}
bool
console_cmd__room__head__fetch(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id"
}};
const auto room_id
{
m::room_id(param.at("room_id"))
};
const m::room room
{
room_id
};
m::room::head::fetch::opts opts;
opts.room_id = room_id;
m::room::head::fetch fetch
{
opts, [&out](const m::event &result)
{
out
<< pretty_oneline(result)
<< std::endl;
return true;
}
};
out
<< std::endl
<< "results: " << fetch.heads << std::endl
<< "exists: " << fetch.exists << std::endl
<< "concur: " << fetch.concur << std::endl
<< "unique: " << fetch.head.size() << std::endl
<< "servers: " << fetch.respond << std::endl
<< "depth ahead: " << fetch.depth[2] << std::endl
<< "depth equal: " << fetch.depth[1] << std::endl
<< "depth behind: " << fetch.depth[0] << std::endl
<< "ots ahead: " << fetch.ots[2] << std::endl
<< "ots equal: " << fetch.ots[1] << std::endl
<< "ots behind: " << fetch.ots[0] << std::endl
;
return true;
}
bool
console_cmd__room__sounding(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "event_id"
}};
const auto &room_id
{
m::room_id(param.at("room_id"))
};
const m::event::id event_id
{
param["event_id"]?
m::event::id{param["event_id"]}:
m::event::id{}
};
const m::room room
{
room_id, event_id
};
const auto hazard
{
m::hazard(room)
};
const auto twain
{
m::twain(room)
};
const auto head
{
m::head_idx(room)
};
const auto create
{
m::room::index(room)
};
const auto sounding
{
m::sounding(room)
};
out << "head: " << std::setw(8) << m::depth(room)
<< " " << m::event_id(head) << " (" << head << ")"
<< std::endl;
out << "hazard: " << std::setw(8) << hazard.first
<< std::endl;
out << "sounding: " << std::setw(8) << sounding.first
<< " " << m::event_id(sounding.second) << " (" << sounding.second << ")"
<< std::endl;
out << "twain: " << std::setw(8) << twain.first
<< std::endl;
out << "create: " << std::setw(8) << m::get<uint64_t>(create, "depth")
<< " " << m::event_id(create) << " (" << create << ")"
<< 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__depth__gaps(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "reverse"
}};
const auto &room_id
{
m::room_id(param.at(0))
};
const m::room room
{
room_id
};
const auto closure{[&out]
(const auto &range, const auto &event_idx)
{
out << std::right << std::setw(8) << range.first
<< " -> "
<< std::left << std::setw(8) << range.second
<< " "
<< (m::room::state::is(std::nothrow, event_idx)? "S" : " ")
<< " "
<< m::event_id(event_idx)
<< std::endl;
return true;
}};
const m::room::events::sounding gaps
{
room
};
if(param["reverse"] == "reverse")
gaps.rfor_each(closure);
else
gaps.for_each(closure);
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
{
m::visible(room, mxid)
};
out << room_id << " is "
<< (visible? "VISIBLE" : "NOT VISIBLE")
<< (mxid? " to " : "")
<< mxid
<< (event_id? " at " : "")
<< event_id
<< std::endl;
return true;
}
//
// room alias
//
bool
console_cmd__room__alias(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "server"
}};
const auto &room_id
{
m::room_id(param.at(0))
};
const string_view &server
{
param["server"]
};
const m::room::aliases aliases
{
room_id
};
aliases.for_each(server, [&out]
(const m::room::alias &alias)
{
out << alias << std::endl;
return true;
});
return true;
}
//
// room cache
//
bool
console_cmd__room__alias__cache(opt &out, const string_view &line)
{
const params param{line, " ",
{
"server"
}};
const string_view &server
{
param["server"]
};
out
<< std::left << std::setw(40) << "EXPIRES"
<< " " << std::left << std::setw(48) << "ROOM ALIAS"
<< " " << std::left << std::setw(48) << "ROOM ID"
<< std::endl;
m::room::aliases::cache::for_each(server, [&out]
(const m::room::alias &alias, const m::room::id &room_id)
{
const auto expire_point
{
m::room::aliases::cache::expires(alias)
};
char buf[48];
const auto expires
{
timef(buf, expire_point, ircd::localtime)
};
out
<< std::left << std::setw(40) << expires
<< " " << std::left << std::setw(48) << alias
<< " " << std::left << std::setw(48) << room_id
<< std::endl;
return true;
});
return true;
}
bool
console_cmd__room__alias__cache__has(opt &out, const string_view &line)
{
const params param{line, " ",
{
"alias"
}};
const m::room::alias &alias
{
param["alias"]
};
const bool has
{
m::room::aliases::cache::has(alias)
};
out << std::boolalpha << has << std::endl;
return true;
}
bool
console_cmd__room__alias__cache__set(opt &out, const string_view &line)
{
const params param{line, " ",
{
"alias", "room_id"
}};
const m::room::alias &alias
{
param["alias"]
};
const m::room::id &room_id
{
param["room_id"]
};
const bool set
{
m::room::aliases::cache::set(alias, room_id)
};
out << std::boolalpha << set << std::endl;
return true;
}
bool
console_cmd__room__alias__cache__fetch(opt &out, const string_view &line)
{
const params param{line, " ",
{
"alias", "remote"
}};
const m::room::alias &alias
{
param["alias"]
};
const auto &remote
{
param["remote"]?
param["remote"]:
alias.host()
};
m::room::aliases::cache::fetch(alias, remote);
out << "done" << std::endl;
return true;
}
bool
console_cmd__room__alias__cache__get(opt &out, const string_view &line)
{
const params param{line, " ",
{
"alias"
}};
const m::room::alias &alias
{
param["alias"]
};
const m::room::id::buf room_id
{
m::room::aliases::cache::get(alias)
};
out << room_id << std::endl;
return true;
}
bool
console_cmd__room__alias__cache__del(opt &out, const string_view &line)
{
const params param{line, " ",
{
"alias"
}};
const m::room::alias &alias
{
param["alias"]
};
const bool del
{
m::room::aliases::cache::del(alias)
};
out << std::boolalpha << del << std::endl;
return true;
}
bool
console_cmd__room__server_acl(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "server"
}};
const auto &room_id
{
m::room_id(param.at("room_id"))
};
const m::room::server_acl server_acl
{
room_id
};
if(param["server"])
{
const bool allowed
{
server_acl(param.at("server"))
};
out << (allowed? "allow"_sv : "deny"_sv)
<< std::endl;
return true;
}
server_acl.for_each("allow", [&out]
(const string_view &expression)
{
out << "allow " << expression << std::endl;
return true;
});
out << std::endl;
server_acl.for_each("deny", [&out]
(const string_view &expression)
{
out << "deny " << expression << std::endl;
return true;
});
out << std::endl;
out << "IP literals ";
if(server_acl.getbool("allow_ip_literals") != false)
out << "allow." << std::endl;
else
out << "deny." << std::endl;
return true;
}
bool
console_cmd__room__members(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "[membership]" "[host]"
}};
const auto &room_id
{
m::room_id(param.at(0))
};
const string_view &membership
{
param[1] != "\"\""?
param[1]:
string_view{}
};
const string_view &host
{
param[2]
};
const m::room room
{
room_id
};
const m::room::members members
{
room
};
if(membership)
{
members.for_each(membership, host, [&out, &membership]
(const m::user::id &user_id)
{
out << std::setw(8) << std::left << membership
<< " " << user_id << std::endl;
return true;
});
return true;
}
members.for_each(membership, host, [&out]
(const m::user::id &user_id, const m::event::idx &event_idx)
{
char buf[32];
out << std::setw(8) << std::left << m::membership(buf, event_idx)
<< " " << user_id << std::endl;
return true;
});
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 auto &user_id, const auto &event_idx)
{
const m::event::fetch event
{
std::nothrow, event_idx
};
if(!event.valid)
return true;
out << pretty_oneline(event) << std::endl;
return true;
}};
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 auto &user_id, const auto &event_idx)
{
const bool same_origin
{
m::query(std::nothrow, event_idx, "origin", [&origin]
(const auto &_origin) noexcept
{
return _origin == origin;
})
};
if(!same_origin)
return true;
const m::event::fetch event
{
std::nothrow, event_idx
};
if(!event.valid)
return true;
out << pretty_oneline(event) << std::endl;
return true;
});
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)
<< " " << event.event_id
<< std::endl;
}};
members.for_each(membership, [&room_id, &event_closure]
(const m::user::id &user_id, const m::event::idx &event_idx)
{
const m::user user
{
user_id
};
static const m::event::fetch::opts fopts
{
m::event::keys::include
{
"event_id", "content", "origin_server_ts", "sender"
},
db::gopts
{
.cache = false,
},
};
const m::user::room user_room
{
user, nullptr, &fopts
};
user_room.get(std::nothrow, "ircd.read", room_id, event_closure);
return true;
});
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<bool>("[noerror]", false)
};
const m::room room
{
room_id
};
const m::room::origins origins
{
room
};
const auto ok{[&noerror]
(const string_view &origin)
{
if(noerror && m::fed::errant(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 string_view &type, const string_view &state_key, const m::event::idx &event_idx)
{
const m::event::fetch event
{
std::nothrow, event_idx
};
if(!event.valid)
return true;
m::pretty_stateline(out, event, event_idx);
/*
size_t i(0);
auto prev_idx(event_idx);
for(; i < 4 && prev_idx; ++i, prev_idx = state.prev(prev_idx))
out << (i? " <-- " : "") << prev_idx;
out << std::endl;
*/
return true;
});
return true;
}
bool
console_cmd__room__state__events(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([&out]
(const string_view &type, const string_view &state_key, const m::event::idx &)
{
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, [&out, &prefix]
(const string_view &, const string_view &state_key, const m::event::idx &)
{
if(prefix && !startswith(state_key, prefix))
return false;
out << state_key << std::endl;
return true;
});
return true;
}
bool
console_cmd__room__state__history(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "event_id|depth", "type", "state_key"
}};
const auto &room_id
{
m::room_id(param.at("room_id"))
};
const auto point
{
param.at("event_id|depth")
};
const string_view &type
{
param["type"]
};
const string_view &state_key
{
param["state_key"]
};
const m::event::id &event_id
{
!lex_castable<int64_t>(point)?
m::event::id{point}:
m::event::id{}
};
const int64_t bound
{
lex_castable<int64_t>(point)?
lex_cast<int64_t>(point):
-1L
};
const m::room room
{
room_id, event_id
};
const m::room::state state
{
room
};
const m::room::state::history history
{
room, bound
};
history.for_each(type, state_key, [&out]
(const auto &type, const auto &state_key, const auto &depth, const auto &event_idx)
{
const m::event::fetch event
{
std::nothrow, event_idx
};
if(!event.valid)
return true;
m::pretty_stateline(out, event, event_idx);
return true;
});
return true;
}
bool
console_cmd__room__state__space(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "type", "state_key", "depth"
}};
const auto &room_id
{
m::room_id(param.at("room_id"))
};
const string_view &type
{
param["type"] != "*"?
param["type"] : string_view{},
};
const string_view &state_key
{
param["state_key"] != "\"\""?
param["state_key"] : string_view{},
};
const int64_t depth
{
param.at("depth", -1L)
};
const m::room::state state
{
room_id
};
const m::room::state::space space
{
room_id
};
space.for_each(type, state_key, depth, [&out]
(const auto &type, const auto &state_key, const auto &depth, const auto &event_idx)
{
const m::event::fetch event
{
std::nothrow, event_idx
};
if(!event.valid)
return true;
m::pretty_stateline(out, event, event_idx);
return true;
});
return true;
}
bool
console_cmd__room__state__space__rebuild(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id",
}};
const string_view &room_id
{
param["room_id"]
};
if(room_id == "*" || room_id == "remote_joined_only")
{
m::rooms::opts opts;
opts.remote_joined_only = room_id == "remote_joined_only";
m::rooms::for_each(opts, []
(const m::room::id &room_id)
{
m::room::state::space::rebuild
{
room_id
};
return true;
});
return true;
}
const auto _room_id
{
room_id?
m::room_id(room_id):
m::room::id::buf{}
};
m::room::state::space::rebuild
{
_room_id
};
return true;
}
bool
console_cmd__room__state__purge__replaced(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id",
}};
const auto &room_id
{
m::room_id(param.at(0))
};
const size_t ret
{
m::room::state::purge_replaced(room_id)
};
out << "erased " << ret << std::endl;
return true;
}
bool
console_cmd__room__state__rebuild(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id"
}};
const m::room::id::buf room_id
{
param.at("room_id") != "*" && param.at("room_id") != "remote_joined_only"?
m::room_id(param.at(0)):
param["room_id"]
};
if(room_id == "*" || room_id == "remote_joined_only")
{
m::rooms::opts opts;
opts.remote_joined_only = room_id == "remote_joined_only";
m::rooms::for_each(opts, []
(const m::room::id &room_id)
{
m::room::state::rebuild
{
room_id
};
return true;
});
return true;
}
m::room::state::rebuild
{
room_id
};
out << "done" << 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<size_t, m::dbs::event_columns> res {{0}};
state.for_each(type, m::event::closure_idx{[&total, &res]
(const m::event::idx &event_idx)
{
const byte_view<string_view> &key(event_idx);
for(size_t i(0); i < m::dbs::event_column.size(); ++i)
{
auto &column(m::dbs::event_column[i]);
res[i] += db::cached(column, key);
}
++total;
}});
std::array<string_view, m::event::size()> 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__state__fetch(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "event_id", "opt"
}};
const auto room_id
{
m::room_id(param.at("room_id"))
};
const auto event_id
{
param["event_id"]?
m::event::id::buf{param["event_id"]}:
m::head(room_id)
};
m::room::state::fetch::opts opts;
opts.room.room_id = room_id;
opts.room.event_id = event_id;
opts.existing = has(param["opt"], "existing");
opts.unique = true;
size_t i(0);
m::room::state::fetch fetch
{
opts, [&out, &i](const m::event::id &event_id, const string_view &remote)
{
out
<< std::setw(4) << std::left << i++
<< " "
<< std::setw(60) << std::left << event_id
<< " "
<< remote
<< std::endl;
return true;
}
};
out
<< std::endl
<< "servers: " << fetch.respond << std::endl
<< "unique: " << fetch.result.size() << std::endl
<< "concur: " << fetch.concur << std::endl
<< "exists: " << fetch.exists << std::endl
<< "results: " << fetch.responses << 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
};
if(param[1])
{
size_t count{0};
m::room::events it{room};
for(; it && limit; --it, --limit)
{
const m::event &event{*it};
count += match(filter, event);
}
out << count << std::endl;
return true;
}
const size_t count
{
room.count()
};
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<int64_t>(1, std::numeric_limits<int64_t>::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::events it
{
room, uint64_t(depth >= 0? depth : -1)
};
for(; it && limit > 0; order == 'b'? --it : ++it, --limit)
out << std::left << std::setw(10) << it.event_idx() << " "
<< pretty_oneline(*it)
<< std::endl;
return true;
}
bool
console_cmd__room__events__missing(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "limit", "min_depth", "max_depth", "event_id"
}};
const auto &room_id
{
m::room_id(param.at("room_id"))
};
auto limit
{
param.at("limit", 16L)
};
const auto &min_depth
{
param.at("min_depth", 0L)
};
const auto &max_depth
{
param.at("max_depth", 0L)
};
const auto &event_id
{
param["event_id"]
};
m::room room
{
room_id
};
if(m::valid(m::id::EVENT, event_id))
room.event_id = event_id;
const auto top
{
m::top(room)
};
const m::room::events::missing missing
{
room
};
out
<< std::right << std::setw(10) << "DIFF"
<< " "
<< std::left << std::setw(10) << "SEQUENCE"
<< " "
<< std::right << std::setw(10) << "DIFF"
<< " "
<< std::left << std::setw(10) << "DEPTH"
<< " "
<< std::right << std::setw(6) << "HORIZO"
<< " "
<< std::left << std::setw(52) << "EVENT ID"
<< std::endl;
missing.for_each({min_depth, max_depth}, [&out, &limit, &top]
(const auto &event_id, const auto &ref_depth, const auto &ref_idx)
{
const auto &[top_event_id, top_depth, top_idx] {top};
out
<< std::right << std::setw(10) << int64_t(ref_idx - top_idx)
<< " "
<< std::left << std::setw(10) << ref_idx
<< " "
<< std::right << std::setw(10) << int64_t(ref_depth - top_depth)
<< " "
<< std::left << std::setw(10) << ref_depth
<< " "
<< std::right << std::setw(6) << m::event::horizon(event_id).count()
<< " "
<< std::left << std::setw(52) << event_id
<< std::endl;
return --limit;
});
return true;
}
bool
console_cmd__room__events__missing__count(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "limit", "min_depth", "event_id"
}};
const auto &room_id
{
m::room_id(param.at("room_id"))
};
auto limit
{
param.at("limit", 16L)
};
const auto &min_depth
{
param.at("min_depth", 0L)
};
const auto &event_id
{
param["event_id"]
};
const m::room room
{
room_id, event_id
};
const m::room::events::missing missing
{
room
};
out << missing.count() << std::endl;
return true;
}
bool
console_cmd__room__events__horizon(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "limit"
}};
const auto &room_id
{
m::room_id(param.at("room_id"))
};
auto limit
{
param.at("limit", 32L)
};
const m::room room
{
room_id
};
const m::room::events::horizon horizon
{
room
};
horizon.for_each([&out, &limit]
(const auto &event_id, const auto &ref_depth, const auto &ref_idx)
{
out
<< std::right << std::setw(10) << ref_idx
<< " "
<< std::right << std::setw(8) << ref_depth
<< " "
<< std::left << std::setw(52) << event_id
<< std::endl;
return --limit;
});
return true;
}
bool
console_cmd__room__events__horizon__count(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "event_id"
}};
const auto &room_id
{
m::room_id(param.at("room_id"))
};
const auto &event_id
{
param.at("event_id", "*"_sv)
};
const m::room room
{
room_id, event_id
};
const m::room::events::horizon horizon
{
room
};
out << horizon.count() << std::endl;
return true;
}
bool
console_cmd__room__events__horizon__rebuild(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id"
}};
const auto &room_id
{
m::room_id(param.at("room_id"))
};
const m::room room
{
room_id
};
m::room::events::horizon horizon
{
room
};
out << "done " << horizon.rebuild() << std::endl;
return true;
}
bool
console_cmd__room__acquire__list(opt &out, const string_view &line)
{
out
<< std::right << std::setw(4) << "id"
<< " "
<< std::right << std::setw(4) << "fid"
<< " "
<< std::left << std::setw(50) << "room"
<< " "
<< std::right << std::setw(4) << "view"
<< " ["
<< std::right << std::setw(7) << "depth"
<< " "
<< std::right << std::setw(7) << "depth"
<< " | "
<< std::right << std::setw(8) << "ref"
<< " "
<< std::right << std::setw(8) << "ref"
<< "] "
<< std::left << std::setw(50) << "event"
<< " "
<< std::endl;
for(const auto *const &a : m::acquire::list)
{
size_t j(0);
for(const auto &result : a->fetching)
out
<< std::right << std::setw(4) << a->id
<< " "
<< std::right << std::setw(4) << (a->fetches - j++)
<< " "
<< std::left << std::setw(50) << trunc(a->opts.room.room_id, 40)
<< " "
<< std::right << std::setw(4) << a->opts.viewport_size
<< " ["
<< std::right << std::setw(7) << a->opts.depth.first
<< " "
<< std::right << std::setw(7) << a->opts.depth.second
<< " | "
<< std::right << std::setw(8) << a->opts.ref.first
<< " "
<< std::right << std::setw(8) << long(a->opts.ref.second)
<< "] "
<< std::left << std::setw(50) << trunc(result.event_id, 60)
<< " "
<< std::endl;
}
return true;
}
bool
console_cmd__room__acquire(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "depth_start", "depth_stop", "viewport_size", "gap_min", "rounds"
}};
if(!param["room_id"])
return console_cmd__room__acquire__list(out, line);
const auto &room_id
{
m::room_id(param.at("room_id"))
};
const auto depth_start
{
param.at("depth_start", 0L)
};
const auto depth_stop
{
param.at("depth_stop", 0L)
};
const auto viewport_size
{
param.at("viewport_size", 0L)
};
const auto gap_min
{
param.at("gap_min", 0UL)
};
const auto rounds
{
param.at("rounds", -1UL)
};
const m::room room
{
room_id
};
struct m::acquire::opts opts;
opts.vmopts.infolog_accept = true;
opts.room = room_id;
opts.depth.first = depth_start;
opts.depth.second = depth_stop;
opts.viewport_size = viewport_size;
opts.rounds = rounds;
opts.head = depth_stop == 0;
opts.gap.first = gap_min;
m::acquire
{
opts
};
return true;
}
bool
console_cmd__room__gossip__list(opt &out, const string_view &line)
{
size_t i(0);
for(const auto *const &a : m::gossip::list)
{
size_t j(0);
for(const auto &result : a->requests)
out
<< std::left << std::setw(4) << i
<< " "
<< std::left << std::setw(4) << j++
<< " "
<< std::left << std::setw(50) << trunc(a->opts.room.room_id, 40)
<< " ["
<< std::right << std::setw(7) << a->opts.depth.first
<< " "
<< std::right << std::setw(7) << a->opts.depth.second
<< " | "
<< std::right << std::setw(8) << a->opts.ref.first
<< " "
<< std::right << std::setw(8) << long(a->opts.ref.second)
<< "] "
<< std::endl;
i++;
}
return true;
}
bool
console_cmd__room__gossip(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "remote", "rounds"
}};
if(!param["room_id"])
return console_cmd__room__gossip__list(out, line);
const auto &room_id
{
m::room_id(param.at("room_id"))
};
const auto remote
{
param["remote"]
};
const auto rounds
{
param.at("rounds", -1UL)
};
const m::room room
{
room_id
};
struct m::gossip::opts opts;
opts.room = room;
opts.hint = remote != "*"? remote: string_view{};
opts.hint_only = !opts.hint.empty();
opts.rounds = rounds;
m::gossip gossip
{
opts
};
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<int64_t>(1, std::numeric_limits<int64_t>::max())
};
const char order_
{
param.at(2, "B"_sv).at(0)
};
const char order
(
std::tolower(order_)
);
const bool text_only
{
false
|| order_ == 'B'
|| order_ == 'F'
};
ssize_t limit
{
depth < 0?
std::abs(depth):
param.at(3, ssize_t(32))
};
const m::room room
{
room_id
};
m::room::events it{room};
if(depth >= 0 && depth < std::numeric_limits<int64_t>::max())
it.seek(depth);
for(; it && limit >= 0; order == 'b'? --it : ++it, --limit)
out
<< pretty_msgline(*it, text_only? 1: 0)
<< std::endl;
return true;
}
bool
console_cmd__room__type(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "type", "start_depth", "end_depth"
}};
const auto &room_id
{
m::room_id(param.at("room_id"))
};
const auto &type
{
param["type"]
};
const uint64_t start_depth
{
param.at<uint64_t>(2, -1UL)
};
const int64_t end_depth
{
param.at<int64_t>(3, -1L)
};
const bool prefix_match
{
endswith(type, "...")
};
const m::room::type events
{
room_id,
rstrip(type, "..."),
{ start_depth, end_depth },
prefix_match
};
m::event::fetch event;
events.for_each([&out, &event]
(const string_view &type, const uint64_t &depth, const m::event::idx &event_idx)
{
if(!seek(std::nothrow, event, event_idx))
return true;
out
<< std::left << std::setw(10) << event_idx
<< " "
<< pretty_oneline(event)
<< std::endl;
return true;
});
return true;
}
bool
console_cmd__room__type__count(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "type", "start_depth", "end_depth"
}};
const auto &room_id
{
m::room_id(param.at("room_id"))
};
const auto &type
{
param["type"]
};
const uint64_t start_depth
{
param.at<uint64_t>(2, -1UL)
};
const int64_t end_depth
{
param.at<int64_t>(3, -1L)
};
const bool prefix_match
{
endswith(type, "...")
};
const m::room::type events
{
room_id,
rstrip(type, "..."),
{ start_depth, end_depth },
prefix_match
};
size_t ret(0);
events.for_each([&ret]
(const string_view &type, const uint64_t &depth, const m::event::idx &event_idx)
noexcept
{
++ret;
return true;
});
out
<< ret
<< std::endl;
return true;
}
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, ""_sv)
};
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__get(opt &out, const string_view &line)
{
return console_cmd__room__get(out, line);
}
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__set(opt &out, const string_view &line)
{
return console_cmd__room__set(out, line);
}
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__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]"
}};
const m::room::id room_id
{
param.at(0)
};
const m::user::id creator
{
param.at(1, m::me())
};
const string_view type
{
param[2]
};
const m::room room
{
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)
{
out << m::room_id(id)
<< std::endl;
return true;
}
bool
console_cmd__room__purge(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 size_t ret
{
m::room::purge(room)
};
out << "erased " << ret << std::endl;
return true;
}
bool
console_cmd__room__auth(opt &out, const string_view &line)
{
const params param{line, " ",
{
"event_id|room_id", "event_id"
}};
const string_view &p0
{
param.at("event_id|room_id")
};
const m::room::id::buf room_id{[&p0]
() -> m::room::id::buf
{
switch(m::sigil(p0))
{
case m::id::ROOM:
return p0;
case m::id::ROOM_ALIAS:
return m::room_id(p0);
case m::id::EVENT:
return m::get(m::event::id(p0), "room_id");
default: throw params::invalid
{
"%s is the wrong kind of MXID for this argument",
reflect(m::sigil(p0))
};
}
}()};
const m::event::id &event_id
{
m::sigil(p0) != m::id::EVENT?
param.at("event_id"):
p0
};
const m::room::auth::chain ac
{
m::index(event_id)
};
ac.for_each([&out](const auto &idx)
{
const m::event::fetch event
{
std::nothrow, idx
};
out << idx;
if(event.valid)
out << " " << pretty_oneline(event);
out << std::endl;
return true;
});
return true;
}
bool
console_cmd__room__stats(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id",
}};
const auto &room_id
{
m::room_id(param.at("room_id"))
};
const size_t bytes_json
{
m::room::stats::bytes_json(room_id)
};
out << "JSON bytes: "
<< pretty(iec(bytes_json))
<< std::endl;
return true;
}
bool
console_cmd__room__restrap(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "host"
}};
const auto room_id
{
m::room_id(param.at("room_id"))
};
const m::user::id::buf user_id
{
valid(m::id::EVENT, param.at("room_id"))?
m::user::id::buf{}:
any_user(room_id, my_host(), "join")
};
const m::event::id::buf &event_id
{
valid(m::id::EVENT, param.at("room_id"))?
param.at("room_id"):
m::event_id(m::room(room_id).get("m.room.member", user_id))
};
const net::hostport &host_
{
param.at("host")
};
const string_view &host
{
param.at("host")
};
m::room::bootstrap
{
event_id, host
};
return true;
}
bool
console_cmd__room__power(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id",
}};
const auto &room_id
{
m::room_id(param.at("room_id"))
};
const m::room::power power
{
room_id
};
power.for_each([&out]
(const auto &key, const auto &level)
{
out
<< std::left << std::setw(16) << ' '
<< " "
<< std::right << std::setw(8) << level
<< " : "
<< std::left << key
<< std::endl;
return true;
});
out << std::endl;
power.for_each_collection([&out, &power]
(const auto &collection, const auto &level)
{
power.for_each(collection, [&out, &collection]
(const auto &key, const auto &level)
{
out
<< std::left << std::setw(16) << collection
<< " "
<< std::right << std::setw(8) << level
<< " : "
<< std::left << key
<< std::endl;
return true;
});
return true;
});
return true;
}
bool
console_cmd__room__power__grant(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "sender", "collection", "key", "level"
}};
const auto &room_id
{
m::room_id(param.at("room_id"))
};
const m::user::id &sender
{
param.at("sender")
};
string_view collection
{
param.at("collection")
};
string_view key
{
param.at("key")
};
const int64_t level
{
lex_castable<int64_t>(key)?
lex_cast<int64_t>(key):
param.at<int64_t>("level")
};
if(lex_castable<int64_t>(key))
{
key = collection;
if(valid(m::id::USER, collection))
collection = "users";
else
collection = {};
}
const m::room::power power
{
room_id
};
const unique_mutable_buffer buf
{
48_KiB
};
json::stack stack{buf};
{
json::stack::object content
{
stack
};
m::room::power::grant
{
content,
power,
pair<string_view>
{
collection, key
},
level
};
}
const auto event_id
{
m::send(room_id, "m.room.power_levels", "", json::object
{
stack.completed()
})
};
out
<< sender << ' '
<< "granted level " << level << ' '
<< "to " << key << ' '
<< "in " << collection << ' '
<< "with " << event_id << ' '
<< std::endl;
return true;
}
bool
console_cmd__room__power__revoke(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "sender", "collection", "key"
}};
const auto &room_id
{
m::room_id(param.at("room_id"))
};
const m::user::id &sender
{
param.at("sender")
};
string_view collection
{
param.at("collection")
};
string_view key
{
param["key"]
};
if(!key)
{
key = collection;
if(valid(m::id::USER, collection))
collection = "users";
else
collection = {};
}
const m::room::power power
{
room_id
};
const unique_mutable_buffer buf
{
48_KiB
};
json::stack stack{buf};
{
json::stack::object content
{
stack
};
m::room::power::revoke
{
content,
power,
pair<string_view>
{
collection, key
},
};
}
const auto event_id
{
m::send(room_id, sender, "m.room.power_levels", "", json::object
{
stack.completed()
})
};
out
<< sender << ' '
<< "revoked power "
<< "from " << key << ' '
<< "in " << collection << ' '
<< "by " << event_id << ' '
<< std::endl;
return true;
}
bool
console_cmd__room__redactfill(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "count", "sender", "reason"
}};
const auto room_id
{
m::room_id(param.at("room_id"))
};
size_t count
{
param.at("count", 0UL)
};
const auto sender
{
param["sender"]?
m::user::id{param["sender"]}:
m::me()
};
const auto reason
{
param.at("reason", "redactfill"_sv)
};
m::room::events it
{
room_id, -1UL
};
while(it && count > 0)
{
const auto event_id
{
m::event_id(it.event_idx())
};
const auto redact_id
{
m::redact(room_id, sender, event_id, reason)
};
--count;
--it;
}
return true;
}
bool
console_id__room(opt &out,
const m::room::id &id,
const string_view &line)
{
const params param{line, " ",
{
"room_id", "type", "state_key"
}};
// Delegate to allow direct command "#foo:bar.com ircd.test fookey"
if(param["type"] && param["state_key"])
return console_cmd__room__get(out, line);
//TODO: XXX more detailed summary
return console_cmd__room(out, line);
}
//
// user
//
//TODO: XXX
bool
console_id__user(opt &out,
const m::user::id &id,
const string_view &args)
{
const bool exists
{
m::exists(id)
};
if(!exists)
throw m::NOT_FOUND
{
"User %s is not known to this server.",
string_view{id},
};
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("username")
};
const string_view &password
{
param.at("password")
};
const m::user::registar request
{
{ "username", username },
{ "password", password },
{ "bind_email", false },
{ "inhibit_login", true },
};
const unique_buffer<mutable_buffer> buf
{
4_KiB
};
const auto ret
{
request(buf)
};
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("user_id")
};
const string_view &password
{
param.at("password")
};
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("user_id")
};
out << user.user_id << " is "
<< (active(user)? "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("user_id")
};
if(active(user))
{
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("user_id")
};
if(!active(user))
{
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("user_id")
};
auto limit
{
param.at("limit", 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)
<< " " << event.event_id
<< std::endl;
return --limit > 0;
}});
return true;
}
bool
console_cmd__user__presence__set(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id", "state", "status"
}};
const m::user user
{
param.at("user_id")
};
const string_view &state
{
param.at("state")
};
const string_view &status
{
param["status"]
};
const auto eid
{
m::presence::set(user, state, status)
};
out << eid << std::endl;
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__count(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
};
out << rooms.count(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::servers origins
{
user
};
origins.for_each(membership, [&out]
(const string_view &origin)
{
out << origin << std::endl;
return true;
});
return true;
}
bool
console_cmd__user__read(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id", "room_id", "limit"
}};
const m::user::id user_id
{
param.at("user_id")
};
const auto room_id
{
param["room_id"] && !startswith(param["room_id"], '*')?
m::room_id(param["room_id"]):
m::room::id::buf{}
};
const bool all_rooms
{
param["room_id"] == "*"
};
const bool eye_track
{
param["room_id"] == "**"
|| !param["room_id"]
};
const bool fully_read
{
param["room_id"] == "***"
};
size_t limit
{
param.at("limit", 32UL)
};
const m::user::room user_room
{
user_id
};
const m::event::closure each_event{[&out]
(const m::event &event)
{
const json::string event_id
{
json::get<"content"_>(event).get("event_id")
};
const milliseconds receipt_ts
{
json::get<"content"_>(event).get("ts", 0ms)
};
const milliseconds origin_server_ts
{
json::get<"origin_server_ts"_>(event)
};
const bool hidden
{
json::get<"content"_>(event).get("m.hidden", false)
};
char tsbuf[2][2][64];
const string_view timef[2]
{
ircd::timef(tsbuf[0][0], origin_server_ts.count() / 1000L),
ircd::timef(tsbuf[1][0], receipt_ts.count() / 1000L, ircd::localtime),
};
const string_view ago[2]
{
ircd::ago(tsbuf[0][1], system_point(origin_server_ts)),
ircd::ago(tsbuf[1][1], system_point(receipt_ts), 1),
};
const m::event::fetch target
{
std::nothrow, event_id
};
out
<< (!hidden? "PUBLIC"_sv: " "_sv)
<< ' ' << std::right << std::setw(12) << ago[bool(receipt_ts.count())]
<< ' ' << std::left << timef[bool(receipt_ts.count())]
<< ' '
;
if(!target.valid)
{
out
<< json::get<"state_key"_>(event)
<< ' ' << std::left << std::setw(60) << event_id
<< std::endl;
return;
}
m::pretty_oneline(out, target);
out << std::endl;
}};
if(all_rooms)
{
const m::room::state state
{
user_room
};
state.for_each("ircd.read", each_event);
return true;
}
if(eye_track)
{
const m::room::type type
{
user_room, "ircd.read"
};
type.for_each([&each_event, &limit]
(const auto &, const auto &, const auto &event_idx) -> bool
{
const m::event::fetch event
{
std::nothrow, event_idx
};
if(likely(event.valid))
each_event(event);
return --limit;
});
return true;
}
if(fully_read)
{
const m::room::type type
{
user_room, "ircd.account_data!", { -1UL, -1UL }, true
};
type.for_each([&each_event, &limit]
(const auto &, const auto &, const auto &event_idx) -> bool
{
const m::event::fetch event
{
std::nothrow, event_idx
};
if(!event.valid)
return true;
if(json::get<"state_key"_>(event) != "m.fully_read")
return true;
each_event(event);
return --limit;
});
return true;
}
const m::room::state::space space
{
user_room
};
space.for_each("ircd.read", room_id, [&each_event, &limit]
(const auto &type, const auto &state_key, const auto &depth, const auto &event_idx) -> bool
{
const m::event::fetch event
{
std::nothrow, event_idx
};
if(likely(event.valid))
each_event(event);
return --limit;
});
return true;
}
bool
console_cmd__user__read__count(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id", "room_id"
}};
const m::user::id user_id
{
param.at("user_id")
};
const auto room_id
{
param["room_id"]?
m::room_id(param["room_id"]):
m::room::id::buf{}
};
const m::user::room user_room
{
user_id
};
if(!room_id)
{
const m::room::state state
{
user_room
};
const size_t count
{
state.count("ircd.read")
};
out << count << std::endl;
return true;
}
const m::room::state::space space
{
user_room
};
size_t count {0};
space.for_each("ircd.read", room_id, [&out, &count]
(const auto &type, const auto &state_key, const auto &depth, const auto &event_idx)
noexcept -> bool
{
++count;
return true;
});
out << count << 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<milliseconds>())
};
const json::strung content{json::members
{
{ "ts", ms },
}};
const auto eid
{
m::receipt::read(room_id, user_id, event_id, json::object(content))
};
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(), "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]
};
const m::user::filter filter
{
user
};
if(filter_id)
{
out << filter.get(filter_id) << std::endl;
return true;
}
filter.for_each([&out]
(const string_view &id, const json::object &filter)
{
out << id << std::endl;
out << filter << std::endl;
out << std::endl;
return true;
});
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<size_t>("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;
}
bool
console_cmd__user__sees(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id_a", "user_id_b", "membership"
}};
const m::user user_a
{
m::user(param.at("user_id_a"))
};
const m::user user_b
{
m::user(param.at("user_id_b"))
};
const string_view membership
{
param.at("membership", "join"_sv)
};
const m::user::mitsein mitsein
{
user_a
};
const bool result
{
mitsein.has(user_b, membership)
};
out << std::boolalpha << result
<< std::endl;
return true;
}
bool
console_cmd__user__mitsein(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id_a", "user_id_b", "membership"
}};
const m::user user_a
{
m::user(param.at("user_id_a"))
};
const string_view user_b
{
param.at("user_id_b", "*"_sv)
};
const string_view membership
{
param["membership"]
};
const m::user::mitsein mitsein
{
user_a
};
if(user_b != "*")
mitsein.for_each(m::user(user_b), membership, [&out]
(const m::room &room, const string_view &membership)
{
out
<< room.room_id
<< std::endl;
return true;
});
else
mitsein.for_each(membership, [&out]
(const m::user &other)
{
out
<< other.user_id
<< std::endl;
return true;
});
return true;
}
bool
console_cmd__user__mitsein__count(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id_a", "user_id_b", "membership"
}};
const m::user user_a
{
m::user(param.at("user_id_a"))
};
const string_view user_b
{
param.at("user_id_b", "*"_sv)
};
const string_view membership
{
param["membership"]
};
const m::user::mitsein mitsein
{
user_a
};
const auto result
{
user_b != "*"?
mitsein.count(m::user(user_b), membership):
mitsein.count(membership)
};
out
<< result
<< std::endl;
return true;
}
bool
console_cmd__user__tokens(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id", "clear"
}};
const m::user user
{
param.at("user_id")
};
const bool clear
{
param["clear"] == "clear"
};
const m::user::tokens tokens
{
user
};
if(clear)
{
const size_t count
{
tokens.del("Invalidated by administrator console.")
};
out << "Invalidated " << count << std::endl;
return true;
}
tokens.for_each([&out]
(const m::event::idx &event_idx, const string_view &token)
{
const milliseconds ost
{
m::get<long>(event_idx, "origin_server_ts")
};
const milliseconds now
{
time<milliseconds>()
};
const auto event_id
{
m::event_id(std::nothrow, event_idx)
};
const auto device_id
{
m::user::tokens::device(token)
};
out
<< token
<< " "
<< device_id
<< " "
<< ost
<< " "
<< string_view{event_id}
<< " "
<< pretty(now - ost) << " ago"
<< std::endl;
return true;
});
return true;
}
bool
console_cmd__user__profile(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id", "key"
}};
const m::user::id &user_id
{
param.at("user_id")
};
const string_view &key
{
param["key"]
};
const m::user::profile profile
{
user_id
};
if(key)
{
profile.get(key, [&out]
(const string_view &key, const string_view &val)
{
out << val << std::endl;
});
return true;
}
profile.for_each([&out]
(const string_view &key, const string_view &val)
{
out << key << ": " << val << std::endl;
return true;
});
return true;
}
bool
console_cmd__user__profile__fetch(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id", "key", "remote"
}};
const m::user::id &user_id
{
param.at("user_id")
};
const string_view &key
{
param["key"]
};
const auto &remote
{
param["remote"]?
param["remote"]:
user_id.host()
};
m::user::profile::fetch(user_id, remote, key);
out << "done" << std::endl;
return true;
}
bool
console_cmd__user__account_data(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id", "key", "[val]"
}};
const m::user::id &user_id
{
param.at("user_id")
};
const string_view &key
{
param["key"]
};
const json::object &val
{
param["[val]"]
};
const m::user::account_data account_data
{
user_id
};
if(!empty(val))
{
account_data.set(key, val);
return true;
}
if(key)
{
account_data.get(key, [&out]
(const string_view &key, const json::object &val)
{
out << val << std::endl;
});
return true;
}
account_data.for_each([&out]
(const string_view &key, const json::object &val)
{
out << key << ": " << val << std::endl;
return true;
});
return true;
}
bool
console_cmd__user__room_account_data(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id", "room_id", "key", "[val]"
}};
const m::user::id &user_id
{
param.at("user_id")
};
const auto &room_id
{
m::room_id(param.at("room_id"))
};
const string_view &key
{
param["key"]
};
const json::object &val
{
param["[val]"]
};
const m::user::room_account_data room_account_data
{
user_id, room_id
};
if(!empty(val))
{
room_account_data.set(key, val);
return true;
}
if(key)
{
room_account_data.get(key, [&out]
(const string_view &key, const json::object &val)
{
out << val << std::endl;
});
return true;
}
room_account_data.for_each([&out]
(const string_view &key, const json::object &val)
{
out << key << ": " << val << std::endl;
return true;
});
return true;
}
bool
console_cmd__user__room_tags(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id", "room_id", "tag"
}};
const m::user::id &user_id
{
param.at("user_id")
};
const auto &room_id
{
param["room_id"]?
m::room_id(param.at("room_id")):
m::room::id::buf{}
};
const string_view &tag
{
param["tag"]
};
if(room_id)
{
const auto output
{
[&out, &room_id](const string_view &key, const json::object &val)
{
out << room_id << " " << key << ": " << val << std::endl;
return true;
}
};
const m::user::room_tags room_tags
{
user_id, room_id
};
if(tag)
room_tags.get(tag, output);
else
room_tags.for_each(output);
return true;
}
const m::user::rooms rooms
{
user_id
};
rooms.for_each(m::user::rooms::closure{[&user_id, &tag, &out]
(const m::room &room, const string_view &membership)
{
const auto output
{
[&out, &room](const string_view &key, const json::object &val)
{
out << room.room_id << " " << key << ": " << val << std::endl;
return true;
}
};
const m::user::room_tags room_tags
{
user_id, room
};
if(tag)
room_tags.get(tag, output);
else
room_tags.for_each(output);
}});
return true;
}
bool
console_cmd__user__room_tags__set(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id", "room_id", "tag", "content"
}};
const m::user::id &user_id
{
param.at("user_id")
};
const auto &room_id
{
m::room_id(param.at("room_id"))
};
const string_view &tag
{
param.at("tag")
};
const json::object &content
{
param.at("content")
};
const m::user::room_tags room_tags
{
user_id, room_id
};
out << room_tags.set(tag, content)
<< std::endl;
return true;
}
bool
console_cmd__user__devices(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id", "device_id"
}};
const m::user::id &user_id
{
param.at("user_id")
};
const string_view &device_id
{
param.at("device_id", string_view{})
};
const m::user::devices devices
{
user_id
};
if(!device_id)
{
devices.for_each([&out]
(const auto &event_idx, const string_view &device_id)
{
out << device_id << std::endl;
return true;
});
return true;
}
devices.for_each(device_id, [&out, &devices, &device_id]
(const auto &event_idx, const string_view &prop)
{
devices.get(std::nothrow, device_id, prop, [&out, &prop]
(const auto &event_idx, const string_view &value)
{
out << prop << ": "
<< value
<< std::endl;
});
return true;
});
return true;
}
bool
console_cmd__user__devices__update(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id", "device_id", "deleted"
}};
const m::user::id &user_id
{
param.at("user_id")
};
const string_view &device_id
{
param.at("device_id")
};
const bool deleted
{
param["deleted"] == "deleted"
};
const m::user::devices devices
{
user_id
};
json::iov content;
const json::iov::push push[]
{
{ content, { "user_id", user_id } },
{ content, { "device_id", device_id } },
{ content, { "deleted", deleted } },
};
const bool broadcasted
{
m::user::devices::send(content)
};
out << "done" << std::endl;
return true;
}
bool
console_id__device(opt &out,
const m::device::id &id,
const string_view &line)
{
return true;
}
bool
console_cmd__user__ignores(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id", "other_id"
}};
const m::user::id &user_id
{
param.at("user_id")
};
const string_view &other_id
{
param["other_id"]
};
const m::user::ignores ignores
{
user_id
};
if(other_id)
{
const bool ignored(ignores.has(other_id));
out << user_id << " is "
<< (ignored? "" : "not ")
<< "ignoring " << other_id
<< std::endl;
return true;
}
ignores.for_each([&out]
(const m::user::id &user_id, const json::object &object)
{
out << user_id;
if(!empty(object))
out << " " << object;
out << std::endl;
return true;
});
return true;
}
bool
console_cmd__user__breadcrumbs(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id"
}};
const m::user::id &user_id
{
param.at("user_id")
};
const m::breadcrumbs breadcrumbs
{
user_id
};
breadcrumbs.for_each([&out]
(const string_view &room_id)
{
out << room_id << std::endl;
return true;
});
return true;
}
bool
console_cmd__user__viewing(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id", "idx"
}};
const m::user::id user_id
{
param.at("user_id")
};
const size_t idx
{
param.at("idx", 0UL)
};
const m::user user
{
user_id
};
const auto room_id
{
m::viewing(user, idx)
};
out << room_id << std::endl;
return true;
}
bool
console_cmd__user__reading(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id"
}};
const m::user::id user_id
{
param.at("user_id")
};
const m::user::reading r
{
user_id
};
out
<< r.room_id
<< " "
<< r.last
<< " "
<< r.last_ts
<< " "
<< r.full
<< " "
<< r.full_ots
<< " "
<< (r.currently_active? "active"_sv: "inactive"_sv)
<< std::endl;
return true;
}
bool
console_cmd__user__pushrules(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id", "scope", "kind", "ruleid"
}};
const m::user::id &user_id
{
param.at("user_id")
};
const auto &scope
{
param["scope"]
};
const auto &kind
{
param["kind"]
};
const auto &ruleid
{
param["ruleid"]
};
const m::user::pushrules pushrules
{
user_id
};
pushrules.for_each({scope, kind, ruleid}, [&out]
(const auto &event_idx, const auto &path, const json::object &rule)
{
const auto &[scope, kind, ruleid]
{
path
};
out
<< std::right << std::setw(10) << event_idx << " | "
<< std::left << std::setw(10) << scope << " | "
<< std::left << std::setw(10) << kind << " | "
<< std::left << std::setw(36) << ruleid << " "
<< rule
<< std::endl;
return true;
});
return true;
}
bool
console_cmd__user__pushers(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id", "pushkey",
}};
const m::user::id &user_id
{
param.at("user_id")
};
const auto &pushkey
{
param["pushkey"]
};
const m::user::pushers pushers
{
user_id
};
if(pushkey)
{
pushers.get(pushkey, [&out]
(const auto &event_idx, const auto &key, const json::object &pusher)
{
out
<< pusher
<< std::endl;
});
return true;
}
pushers.for_each([&out]
(const auto &event_idx, const auto &pushkey, const json::object &pusher)
{
out
<< std::left << std::setw(40) << pushkey << " | "
<< pusher
<< std::endl;
return true;
});
return true;
}
bool
console_cmd__user__notifications(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id", "only", "room_id", "from", "to"
}};
const m::user::id &user_id
{
param.at("user_id")
};
const string_view &only
{
param["only"] == "*"?
string_view{}:
param["only"]
};
const m::room::id &room_id
{
!param["room_id"] || param["room_id"] == "*"?
m::room::id{}:
m::room::id{param["room_id"]}
};
const m::user::notifications notifications
{
user_id
};
m::user::notifications::opts opts;
opts.only = only;
opts.room_id = room_id;
opts.from = param.at<m::event::idx>("from", 0UL);
opts.to = param.at<m::event::idx>("to", 0UL);
notifications.for_each(opts, [&out]
(const auto &idx, const json::object &notification)
{
out
<< std::right << std::setw(10) << idx << " | "
<< notification
<< std::endl;
return true;
});
return true;
}
//
// users
//
bool
console_cmd__users(opt &out, const string_view &line)
{
const params param{line, " ",
{
"query"
}};
const auto query
{
param.at("query", string_view{})
};
m::users::opts opts
{
query
};
if(!query)
opts.hostpart = my_host();
m::users::for_each(opts, [&out]
(const m::user &user)
{
out << user.user_id << std::endl;
return true;
});
return true;
}
bool
console_cmd__user__typing(opt &out, const string_view &line)
{
m::typing::for_each([&out]
(const m::typing::edu &event)
{
out << event << std::endl;
return true;
});
return true;
}
//
// node
//
bool
console_cmd__node(opt &out, const string_view &line)
{
const params param{line, " ",
{
"node_id"
}};
return true;
}
bool
console_id__node(opt &out,
const string_view &id,
const string_view &line)
{
return console_cmd__node(out, line);
}
bool
console_cmd__node__keys(opt &out, const string_view &line)
{
const params param{line, " ",
{
"node_id", "[limit]"
}};
const m::node &node
{
param.at("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)
};
pretty_oneline(out, keys);
out << 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 &node
{
param.at("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)
};
pretty(out, key);
out << 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))
};
m::feds::opts opts;
opts.op = m::feds::op::version;
opts.room_id = room_id;
m::feds::execute(opts, [&out]
(const auto &result)
{
out << (result.eptr? '-' : '+')
<< " "
<< std::setw(40) << std::left << result.origin
<< " ";
if(result.eptr)
out << what(result.eptr);
else
out << string_view{result.object};
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<std::string> origins;
std::map<std::string, std::forward_list<string_view>, std::less<>> grid;
const auto closure{[&out, &grid, &origins](const auto &result)
{
if(result.eptr)
return true;
const json::array &auth_chain
{
result.object["auth_chain_ids"]
};
const json::array &pdus
{
result.object["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<string_view>{});
origins.emplace_front(result.origin);
it->second.emplace_front(origins.front());
}
return true;
}};
m::feds::opts opts;
opts.op = m::feds::op::state;
opts.timeout = out.timeout;
opts.event_id = event_id;
opts.room_id = room_id;
opts.arg[0] = "ids";
m::feds::execute(opts, 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", "room_id"
}};
const m::event::id event_id
{
param.at(0)
};
m::room::id::buf room_id;
if(param["room_id"])
room_id = m::room_id(param["room_id"]);
if(!room_id)
room_id = m::room_id(event_id);
if(!room_id)
{
out << "Cannot find the room_id for this event; supply it as a paramter."
<< std::endl;
return true;
}
m::feds::opts opts;
opts.op = m::feds::op::event;
opts.room_id = room_id;
opts.event_id = event_id;
m::feds::execute(opts, [&out](const auto &result)
{
out << (result.eptr? '-': empty(result.object)? '?': '+')
<< " "
<< std::setw(40) << std::left << result.origin
<< " "
;
if(result.eptr)
out << " :" << what(result.eptr);
out << std::endl;
return true;
});
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["[user_id]"]?
m::user::id{param["[user_id]"]}:
m::user::id{}
};
m::feds::opts opts;
opts.op = m::feds::op::head;
opts.room_id = room_id;
opts.user_id = user_id;
opts.timeout = out.timeout;
m::feds::execute(opts, [&out](const auto &result)
{
if(result.eptr)
{
out << std::setw(8) << std::right << 0 << " ";
out << std::setw(3) << std::right << 0 << " ";
out << std::setw(40) << std::left << result.origin << " ";
out << what(result.eptr);
out << std::endl;
return true;
}
const json::object &event
{
result.object["event"]
};
const m::event::prev prev
{
event
};
for(ssize_t i(prev.prev_events_count() - 1); i >= 0; --i)
{
const auto &prev_event_id
{
prev.prev_event(i)
};
const m::event::fetch prev_event
{
std::nothrow, prev_event_id
};
out << std::setw(8) << std::right << event["depth"] << " ";
out << std::setw(3) << std::right << i << " ";
out << std::setw(40) << std::left << result.origin;
if(prev_event.valid)
out << pretty_oneline(prev_event);
else
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", "event_id"
}};
const auto &room_id
{
m::room_id(param.at("room_id"))
};
const m::event::id &event_id
{
param.at("event_id")
};
m::feds::opts opts;
opts.op = m::feds::op::auth;
opts.room_id = room_id;
opts.event_id = event_id;
m::feds::execute(opts, [&out](const auto &result)
{
if(result.eptr)
return true;
const json::array auth_chain
{
result.object.at("auth_chain")
};
out << "+ " << std::setw(40) << std::left << result.origin;
for(const json::object auth_event : auth_chain)
{
out << " " << unquote(auth_event.at("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())
};
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<closure_prototype> &);
static mods::import<prototype> feds__head
{
"federation_federation", "feds__head"
};
std::forward_list<std::string> origins;
std::map<std::string, std::forward_list<string_view>, 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")
};
const m::event::prev prev(prev_events);
for(size_t i(0); i < prev.prev_events_count(); ++i)
{
const auto &event_id
{
prev.prev_event(i)
};
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<string_view>{});
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)
};
const m::fed::key::server_key server_key
{
server_name, key_id
};
m::feds::opts opts;
opts.op = m::feds::op::keys;
opts.timeout = out.timeout;
opts.room_id = room_id;
opts.arg[0] = server_key.first;
opts.arg[1] = server_key.second;
m::feds::execute(opts, [&out](const auto &result)
{
out << std::setw(32) << trunc(result.origin, 32) << " :";
if(result.eptr)
{
out << what(result.eptr)
<< std::endl;
return true;
}
const json::array &server_keys
{
result.object["server_keys"]
};
for(const json::object server_key : server_keys)
{
const m::keys &key{server_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))
};
std::map<std::string, std::set<std::string>, std::less<>> grid;
std::set<string_view> origins;
m::feds::opts opts;
opts.op = m::feds::op::backfill;
opts.room_id = room_id;
opts.event_id = event_id;
opts.argi[0] = limit;
m::feds::execute(opts, [&grid, &origins]
(const auto &result)
{
if(result.eptr)
return true;
const json::array &pdus
{
result.object["pdus"]
};
for(const json::object pdu : pdus)
{
const auto &event_id
{
unquote(pdu.at("event_id"))
};
auto it(grid.lower_bound(event_id));
if(it == end(grid) || it->first != event_id)
it = grid.emplace_hint(it, event_id, std::set<std::string>{});
auto &set(it->second);
const auto iit(set.emplace(result.origin));
origins.emplace(*iit.first);
}
return true;
});
size_t i(0);
for(const auto &p : grid)
out << i++ << " " << p.first << std::endl;
for(size_t j(0); j < i; ++j)
out << "| " << std::left << std::setw(2) << j;
out << "|" << std::endl;
for(const auto &origin : origins)
{
for(const auto &p : grid)
out << "| " << (p.second.count(origin)? '+' : ' ') << " ";
out << "| " << origin << std::endl;
}
return true;
}
bool
console_cmd__feds__send(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
};
const json::value event_json
{
event.source
};
const m::txn::array pduv
{
&event_json, 1
};
const std::string content
{
m::txn::create(pduv)
};
char txnidbuf[64];
const auto txnid
{
m::txn::create_id(txnidbuf, content)
};
m::feds::opts opts;
opts.op = m::feds::op::send;
opts.room_id = at<"room_id"_>(event);
opts.arg[0] = txnid;
opts.arg[1] = content;
m::feds::execute(opts, [&out]
(const auto &result)
{
out << (result.eptr? '-' : '+')
<< " "
<< std::setw(40) << std::left << result.origin
<< " ";
if(result.eptr)
out << what(result.eptr);
else
out << string_view{result.object};
out << std::endl;
return true;
});
return true;
}
//
// fed
//
bool
console_cmd__fed__hierarchy(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "remote", "op"
}};
const auto &room_id
{
m::room_id(param.at(0))
};
const string_view remote
{
param.at(1, room_id.host())
};
const m::room room
{
room_id
};
const unique_mutable_buffer buf
{
16_KiB
};
m::fed::hierarchy::opts opts
{
.suggested_only = has(param["op"], "suggested"),
};
opts.remote = remote;
m::fed::hierarchy request
{
room_id, buf, std::move(opts)
};
request.wait(out.timeout);
request.get();
const json::object response
{
request
};
if(has(param["op"], "raw"))
{
out << string_view{response} << std::endl;
return true;
}
const json::array &inaccessible
{
response["inaccessible_children"]
};
for(const json::string room_id : inaccessible)
out << "inaccessible: " << room_id << std::endl;
const json::array &children
{
response["children"]
};
for(const json::object child : children)
for(const auto &[k, v] : child)
out << "child: " << std::setw(30) << k << " " << v << std::endl;
const json::object &room_summary
{
response["room"]
};
for(const auto &[k, v] : room_summary)
if(k != "children_state")
out << "room: " << std::setw(30) << k << " " << v << std::endl;
const json::array &children_state
{
room_summary["children_state"]
};
for(const json::object child : children_state)
for(const auto &[k, v] : child)
out << "state: " << std::setw(30) << k << " " << v << std::endl;
return true;
}
bool
console_cmd__fed__groups(opt &out, const string_view &line)
{
const string_view 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<mutable_buffer> buf
{
32_KiB
};
m::fed::groups::publicised::opts opts;
m::fed::groups::publicised request
{
node, vector_view<const m::user::id>(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__rooms__complexity(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "remote"
}};
const auto room_id
{
m::room_id(param.at("room_id"))
};
const auto remote
{
param["remote"]
};
const unique_buffer<mutable_buffer> buf
{
16_KiB
};
m::fed::rooms::complexity::opts opts;
opts.remote = remote;
opts.dynamic = false;
m::fed::rooms::complexity request
{
room_id, buf, std::move(opts)
};
const auto code
{
request.get(out.timeout)
};
const json::object response
{
request
};
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", "op", "knock"
}};
const auto &room_id
{
m::room_id(param.at(0))
};
const string_view remote
{
param.at(1, room_id.host())
};
/// Select a better user_id if possible
const m::room room{room_id};
m::user::id::buf user_id;
if(param["user_id"])
user_id = param["user_id"];
if(!user_id)
user_id = any_user(room, my_host(), "join");
// Make another attempt to find an invited user because that carries some
// value (this query is not as fast as querying join memberships).
if(!user_id)
user_id = any_user(room, my_host(), "invite");
const unique_mutable_buffer buf
{
16_KiB
};
m::fed::make_join::opts opts
{
.knock = param["knock"] == "knock",
};
opts.remote = remote;
m::fed::make_join request
{
room_id, user_id, buf, std::move(opts)
};
request.wait(out.timeout);
request.get();
const json::object &proto
{
request.in.content
};
if(param["op"] == "raw")
{
out << string_view{proto} << std::endl;
return true;
}
const json::object event
{
proto["event"]
};
out << "VERSION "
<< proto["room_version"]
<< std::endl;
out << "DEPTH "
<< event["depth"]
<< std::endl;
const m::event::auth auth{event};
for(size_t i(0); i < auth.auth_events_count(); ++i)
{
const m::event::id &id
{
auth.auth_event(i)
};
out << "AUTH " << id << " " << std::endl;
}
const m::event::prev prev{event};
for(size_t i(0); i < prev.prev_events_count(); ++i)
{
const m::event::id &id
{
prev.prev_event(i)
};
out << "PREV " << id << " " << std::endl;
}
return true;
}
bool
console_cmd__fed__send(opt &out, const string_view &line)
{
const params param{line, " ",
{
"remote", "event_id",
}};
const string_view remote
{
param.at(0)
};
const m::event::id &event_id
{
param.at(1)
};
const m::event::fetch event
{
event_id
};
const unique_mutable_buffer pdubuf
{
m::event::MAX_SIZE
};
const json::value pdu
{
json::stringify(mutable_buffer{pdubuf}, event)
};
const vector_view<const json::value> pdus
{
&pdu, &pdu + 1
};
const auto txn
{
m::txn::create(pdus)
};
char idbuf[128];
const auto txnid
{
m::txn::create_id(idbuf, txn)
};
const unique_buffer<mutable_buffer> bufs
{
16_KiB
};
m::fed::send::opts opts;
opts.remote = remote;
m::fed::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::fed::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__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 string_view 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);
const m::event::id::buf head_buf
{
event_id?
m::event::id::buf{}:
m::head(std::nothrow, room_id)
};
if(!event_id)
event_id = head_buf;
// Used for out.head, out.content, in.head, but in.content is dynamic
const unique_mutable_buffer buf
{
16_KiB
};
m::fed::state::opts opts;
opts.remote = remote;
opts.event_id = event_id;
m::fed::state request
{
room_id, buf, std::move(opts)
};
request.wait(out.timeout);
request.get();
const json::object response
{
request
};
if(op == "raw")
{
out << string_view{response} << std::endl;
return true;
}
const json::array &auth_chain
{
response["auth_chain"]
};
const json::array &pdus
{
response["pdus"]
};
if(op != "eval")
{
if(op != "auth")
{
out << "state at " << event_id << ":" << std::endl;
for(const json::object event : pdus)
out << pretty_oneline(m::event{event}) << std::endl;
}
out << std::endl;
if(op != "state")
{
out << "auth chain at " << event_id << ":" << std::endl;
for(const json::object event : auth_chain)
out << pretty_oneline(m::event{event}) << std::endl;
}
return true;
}
m::vm::opts vmopts;
vmopts.nothrows = -1;
vmopts.phase.set(m::vm::phase::FETCH_PREV, false);
vmopts.phase.set(m::vm::phase::FETCH_STATE, false);
vmopts.notify_servers = false;
vmopts.node_id = remote;
m::vm::eval
{
auth_chain, vmopts
};
m::vm::eval
{
pdus, vmopts
};
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 string_view 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
const unique_mutable_buffer buf
{
16_KiB
};
m::fed::state::opts opts;
opts.remote = remote;
opts.event_id = event_id;
opts.ids_only = true;
m::fed::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 params param{line, " ",
{
"room_id", "remote", "count", "event_id", "op"
}};
const auto &room_param
{
param.at("room_id")
};
const auto &room_id
{
m::room_id(room_param)
};
const string_view remote
{
param["remote"] && !lex_castable<uint>(param["remote"])?
param["remote"]:
valid(m::id::ROOM_ALIAS, room_param)?
m::room::alias{room_param}.host():
room_id.host()
};
const string_view &count
{
!lex_castable<uint>(param["remote"])?
param.at("count", "32"_sv):
param.at("remote")
};
string_view event_id
{
param["event_id"]
};
string_view op
{
param["op"]
};
if(!op && event_id == "eval")
std::swap(op, event_id);
else if(!event_id && !lex_castable<uint>(param["count"]))
op = param["count"];
// Used for out.head, out.content, in.head, but in.content is dynamic
const unique_mutable_buffer buf
{
16_KiB
};
m::fed::backfill::opts opts;
opts.remote = remote;
opts.limit = lex_cast<size_t>(count);
opts.event_id = event_id;
m::fed::backfill request
{
room_id, buf, std::move(opts)
};
request.wait(out.timeout);
request.get();
const json::object response
{
request
};
if(op == "raw")
{
out << string_view{response} << std::endl;
return true;
}
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.nothrows = -1;
vmopts.wopts.appendix[m::dbs::appendix::ROOM_HEAD_RESOLVE] = false;
vmopts.wopts.appendix[m::dbs::appendix::ROOM_HEAD] = false;
vmopts.phase.set(m::vm::phase::FETCH_PREV, false);
vmopts.phase.set(m::vm::phase::FETCH_STATE, false);
vmopts.node_id = remote;
vmopts.notify_servers = false;
m::vm::eval eval
{
pdus, vmopts
};
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 string_view remote
{
param.at(1, room_id.host())
};
const m::event::id &earliest
{
param["earliest"] == "*"?
m::event::id{}:
param.at(2, m::event::id{})
};
const m::event::id &latest
{
param["latest"] == "*"?
m::event::id{}:
param.at(3, m::event::id{})
};
const auto &limit
{
param.at(4, 32UL)
};
const auto &min_depth
{
param.at(5, 0UL)
};
m::fed::frontfill::opts opts;
opts.remote = remote;
opts.limit = limit;
opts.min_depth = min_depth;
const unique_buffer<mutable_buffer> buf
{
16_KiB
};
const m::fed::frontfill::span span
{
earliest, latest
};
m::fed::frontfill request
{
room_id, span, 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]", "[oparg]"
}};
const m::event::id &event_id
{
param.at("event_id")
};
const string_view &remote
{
param["remote"]?
param["remote"]:
event_id.host()?
event_id.host():
param.at("remote")
};
const string_view op
{
param[2]
};
const string_view oparg
{
param[3]
};
m::fed::event::opts opts;
opts.remote = remote;
opts.dynamic = false;
const unique_buffer<mutable_buffer> buf
{
128_KiB
};
m::fed::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;
}
if(has(op, "parse"))
{
out << json::object{request.in.content} << std::endl;
return true;
}
const json::object response
{
request
};
if(has(op, "raw"))
{
out
<< string_view{response}
<< std::endl;
return true;
}
if(has(op, "essential"))
{
const unique_mutable_buffer buf
{
m::event::MAX_SIZE
};
out << m::essential(response, buf) << std::endl;
return true;
}
if(has(op, "preimage"))
{
const unique_mutable_buffer buf
{
m::event::MAX_SIZE
};
const string_view preimage(m::event::preimage(buf, response));
out << preimage << std::endl;
return true;
}
m::event::id::buf _event_id;
const m::event event
{
_event_id, response
};
if(has(op, "eval"))
{
m::vm::opts vmopts;
vmopts.phase.set(m::vm::phase::FETCH_PREV, has(oparg, "prev"));
vmopts.phase.set(m::vm::phase::FETCH_STATE, false);
vmopts.phase.set(m::vm::phase::ACCESS, !has(oparg, "noacl"));
vmopts.phase.set(m::vm::phase::CONFORM, !has(oparg, "noconform"));
vmopts.phase.set(m::vm::phase::VERIFY, !has(oparg, "noverify"));
vmopts.phase.set(m::vm::phase::AUTH_STATIC, !has(oparg, "noauth"));
vmopts.phase.set(m::vm::phase::AUTH_RELA, !has(oparg, "noauth"));
vmopts.phase.set(m::vm::phase::AUTH_PRES, !has(oparg, "noauth"));
vmopts.phase.set(m::vm::phase::WRITE, !has(oparg, "nowrite"));
vmopts.replays = has(oparg, "replay");
vmopts.notify_servers = false;
vmopts.node_id = remote;
m::vm::eval eval
{
event, vmopts
};
return true;
}
m::pretty_detailed(out, event, 0UL);
out << std::endl;
return true;
}
bool
console_cmd__fed__event__near(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "remote", "ts"
}};
const auto &room_id
{
m::room_id(param.at(0))
};
const string_view remote
{
param.at(1, room_id.host())
};
const int64_t ts
{
param.at<int64_t>("ts", 0)
};
const unique_mutable_buffer buf
{
16_KiB
};
m::fed::request::opts opts
{
.remote = remote,
};
m::fed::event_near request
{
room_id, buf, ts, std::move(opts)
};
request.wait(out.timeout);
request.get();
const json::object response
{
request
};
const m::event::id event_id
{
response.has("event_id")?
m::event::id{response["event_id"]}:
m::event::id{}
};
out << event_id << std::endl;
return true;
}
bool
console_cmd__fed__public_rooms(opt &out, const string_view &line)
{
const params param{line, " ",
{
"remote", "limit", "search_term", "all_networks", "tpid"
}};
const string_view remote
{
param.at("remote")
};
const auto limit
{
param.at("limit", 32)
};
const auto search_term
{
param["search_term"]
};
const auto all_nets
{
param.at("all_networks", false)
};
const auto tpid
{
param["tpid"]
};
m::fed::public_rooms::opts opts;
opts.limit = limit;
opts.third_party_instance_id = tpid;
opts.include_all_networks = all_nets;
opts.search_term = search_term;
const unique_buffer<mutable_buffer> buf
{
16_KiB
};
m::fed::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<size_t>("total_room_count_estimate")
};
const json::string next_batch
{
response["next_batch"]
};
const json::array &rooms
{
response["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__auth(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "event_id", "remote", "op", "oparg"
}};
const auto room_id
{
m::room_id(param.at(0))
};
const m::event::id &event_id
{
param.at(1)
};
const string_view remote
{
param.at(2, event_id.host())
};
const string_view &op
{
param["op"]
};
m::fed::event_auth::opts opts;
opts.remote = remote;
opts.ids = op == "ids";
opts.ids_only = op == "ids_only";
const unique_buffer<mutable_buffer> buf
{
16_KiB
};
m::fed::event_auth request
{
room_id, event_id, buf, std::move(opts)
};
request.wait(out.timeout);
request.get();
const json::array &auth_chain
{
opts.ids_only?
json::object(request.in.content).at("auth_chain_ids"):
json::array(request)
};
if(opts.ids_only)
{
for(const json::string event_id : auth_chain)
out << event_id << std::endl;
return true;
}
if(param["op"] == "raw")
{
for(const string_view &event : auth_chain)
out << event << std::endl;
return true;
}
if(param["op"] == "eval")
{
m::vm::opts vmopts;
vmopts.node_id = opts.remote;
vmopts.nothrows = -1;
vmopts.wopts.appendix[m::dbs::appendix::ROOM_HEAD_RESOLVE] = false;
vmopts.wopts.appendix[m::dbs::appendix::ROOM_HEAD] = false;
vmopts.phase.set(m::vm::phase::FETCH_PREV, false);
vmopts.phase.set(m::vm::phase::FETCH_STATE, false);
vmopts.phase.set(m::vm::phase::FETCH_AUTH, false);
vmopts.notify_servers = false;
vmopts.auth = !has(param["oparg"], "noauth");
vmopts.replays = has(param["oparg"], "replay");
m::vm::eval eval
{
auth_chain, vmopts
};
return true;
}
std::vector<m::event> 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_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 string_view remote
{
param.at(2, event_id.host())
};
m::fed::query_auth::opts opts;
opts.remote = remote;
const unique_buffer<mutable_buffer> buf
{
128_KiB
};
json::stack ost{buf};
{
json::stack::object top{ost};
json::stack::array auth_chain
{
top, "auth_chain"
};
const m::room::auth::chain chain
{
m::index(event_id)
};
m::event::fetch event;
chain.for_each([&auth_chain, &event]
(const m::event::idx &event_idx)
{
if(seek(std::nothrow, event, event_idx))
auth_chain.append(event);
return true;
});
}
const json::object content
{
ost.completed()
};
m::fed::query_auth request
{
room_id, event_id, content, buf + size(ost.completed()), 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 &missing
{
response["missing"]
};
const json::object &rejects
{
response["rejects"]
};
out << "auth_chain: " << std::endl;
for(const json::object event : auth_chain)
out << pretty_oneline(m::event{event}) << std::endl;
out << std::endl;
out << "missing: " << std::endl;
for(const string_view &event_id : missing)
out << event_id << std::endl;
out << std::endl;
out << "rejects: " << std::endl;
for(const auto &member : rejects)
out << member.first << ": " << member.second << 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 string_view remote
{
token_count(line, ' ') > 1? token(line, ' ', 1) : user_id.host()
};
m::fed::query::opts opts;
opts.remote = remote;
const unique_mutable_buffer buf
{
8_KiB
};
m::fed::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 string_view remote
{
token_count(line, ' ') > 1? token(line, ' ', 1) : room_alias.host()
};
m::fed::query::opts opts;
opts.remote = remote;
const unique_mutable_buffer buf
{
8_KiB
};
m::fed::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 params param{line, " ",
{
"user_id", "remote"
}};
const m::user::id &user_id
{
param.at("user_id")
};
const string_view remote
{
param.at("remote", user_id.host())
};
m::fed::user::devices::opts opts;
opts.remote = remote;
const unique_buffer<mutable_buffer> buf
{
8_KiB
};
m::fed::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__user__keys__query(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id", "device_id", "remote"
}};
const m::user::id &user_id
{
param.at("user_id")
};
const string_view &device_id
{
param.at("device_id", string_view{})
};
const string_view remote
{
param.at("remote", user_id.host())
};
m::fed::user::opts opts;
opts.remote = remote;
const unique_buffer<mutable_buffer> buf
{
8_KiB
};
m::fed::user::keys::query request
{
user_id, device_id, buf, std::move(opts)
};
request.wait(out.timeout);
const auto code
{
request.get()
};
const json::object response
{
request
};
const json::object &device_keys
{
response["device_keys"]
};
for(const auto &p : device_keys)
{
const m::user::id &user_id{p.first};
out << user_id << ": " << std::endl;
const json::object &devices{p.second};
for(const auto &p : devices)
{
const auto &device_id{p.first};
out << " " << device_id << ": " << std::endl;
const m::device_keys &device{p.second};
for_each(device, [&out]
(const auto &key, const auto &val)
{
out << " " << key
<< ": " << val
<< std::endl;
});
out << std::endl;
}
out << std::endl;
}
return true;
}
bool
console_cmd__fed__user__keys__claim(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id", "device_id", "algorithm", "remote"
}};
const m::user::id &user_id
{
param.at("user_id")
};
const string_view &device_id
{
param.at("device_id")
};
const string_view &algorithm
{
param.at("algorithm")
};
const string_view remote
{
param.at("remote", user_id.host())
};
m::fed::user::opts opts;
opts.remote = remote;
const unique_buffer<mutable_buffer> buf
{
8_KiB
};
m::fed::user::keys::claim request
{
user_id, device_id, algorithm, buf, std::move(opts)
};
request.wait(out.timeout);
const auto code
{
request.get()
};
const json::object response
{
request
};
const json::object &one_time_keys
{
response["one_time_keys"]
};
out << one_time_keys << 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<mutable_buffer> buf{16_KiB};
m::fed::key::opts opts;
m::fed::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
};
pretty(out, key);
out << std::endl;
out << string_view{response};
out << std::endl;
if(!m::verify(key, std::nothrow))
out << "SIGNATURE FAILIED" << std::endl;
if(expired(key))
out << "EXPIRED" << 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<std::pair<string_view, string_view>> r;
tokens(requests, ' ', [&r]
(const string_view &req)
{
r.emplace_back(split(req, ','));
});
m::fed::key::opts opts;
opts.remote = param.at("remote");
const unique_buffer<mutable_buffer> buf{24_KiB};
m::fed::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 params param{line, " ",
{
"remote"
}};
const auto remote
{
param.at("remote")
};
if(valid(m::id::ROOM, remote) || valid(m::id::ROOM_ALIAS, remote))
return console_cmd__feds__version(out, line);
m::fed::version::opts opts;
opts.remote = remote;
opts.dynamic = false;
const unique_mutable_buffer buf
{
16_KiB
};
m::fed::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]
};
const m::media::mxc mxc
{
server, file
};
out << m::media::file::room_id(mxc) << std::endl;
return true;
}
bool
console_cmd__file__download(opt &out, const string_view &line)
{
const params param{line, " ",
{
"server|file", "[remote]"
}};
const string_view &path
{
param.at("server|file")
};
const auto &server
{
split(path, '/').first
};
const auto &file
{
split(path, '/').second
};
const string_view &remote
{
param.at("[remote]", server)
};
const m::media::mxc mxc
{
server, file
};
const auto room_id
{
m::media::file::download(mxc, m::me(), remote)
};
out << room_id << std::endl;
return true;
}
//
// vm
//
bool
console_cmd__vm(opt &out, const string_view &line)
{
out
<< std::right << std::setw(8) << "ID" << " "
<< std::right << std::setw(4) << "CTX" << " "
<< std::left << std::setw(8) << " " << " "
<< std::left << std::setw(24) << "USER" << " "
<< std::right << std::setw(4) << "PDUS" << " "
<< std::right << std::setw(4) << "EVAL" << " "
<< std::right << std::setw(4) << "EXEC" << " "
<< std::right << std::setw(4) << "ERRS" << " "
<< std::right << std::setw(8) << "PARENT" << " "
<< std::right << std::setw(9) << "SEQUENCE" << " "
<< std::left << std::setw(4) << "HOOK" << " "
<< std::left << std::setw(10) << "PHASE" << " "
<< std::right << std::setw(6) << "SIZE" << " "
<< std::right << std::setw(5) << "CELLS" << " "
<< std::right << std::setw(8) << "DEPTH" << " "
<< std::right << std::setw(5) << "VER" << " "
<< std::left << std::setw(40) << "ROOM ID" << " "
<< std::left << std::setw(60) << "EVENT ID" << " "
<< std::left << std::setw(20) << "SENDER" << " "
<< std::left << std::setw(20) << "TYPE" << " "
<< std::left << std::setw(20) << "STATE_KEY" << " "
<< std::endl;
for(const auto *const &eval : m::vm::eval::list)
{
assert(eval);
assert(eval->ctx);
out
<< std::right << std::setw(8) << eval->id << " "
<< std::right << std::setw(4) << (eval->ctx? ctx::id(*eval->ctx) : 0UL) << " "
<< std::left << std::setw(8) << (eval->ctx? trunc(ctx::name(*eval->ctx), 8) : string_view{}) << " "
<< std::left << std::setw(24) << trunc(eval->opts->node_id?: eval->opts->user_id, 24) << " "
<< std::right << std::setw(4) << eval->pdus.size() << " "
<< std::right << std::setw(4) << eval->evaluated << " "
<< std::right << std::setw(4) << eval->accepted << " "
<< std::right << std::setw(4) << eval->faulted << " "
<< std::right << std::setw(8) << (eval->parent? eval->parent->id : 0UL) << " "
<< std::right << std::setw(9) << eval->sequence << " "
<< std::right << std::setw(4) << (eval->hook? eval->hook->id(): 0U) << " "
<< std::left << std::setw(10) << trunc(reflect(eval->phase), 10) << " "
<< std::right << std::setw(6) << (eval->txn? eval->txn->bytes() : 0UL) << " "
<< std::right << std::setw(5) << (eval->txn? eval->txn->size() : 0UL) << " "
<< std::right << std::setw(8) << (eval->event_ && eval->event_id? long(json::get<"depth"_>(*eval->event_)) : -1L) << " "
<< std::right << std::setw(5) << eval->room_version << " "
<< std::left << std::setw(40) << trunc(eval->room_id, 40) << " "
<< std::left << std::setw(60) << trunc(eval->event_id, 60) << " "
<< std::left << std::setw(20) << trunc(eval->event_? json::get<"sender"_>(*eval->event_) : json::string{}, 20) << " "
<< std::left << std::setw(20) << trunc(eval->event_? json::get<"type"_>(*eval->event_) : json::string{}, 20) << " "
<< std::left << std::setw(20) << trunc(eval->event_? json::get<"state_key"_>(*eval->event_) : json::string{}, 20) << " "
<< std::endl
;
}
out << std::endl;
out << " retired " << std::left << std::setw(10) << m::vm::sequence::retired;
out << " committed " << std::left << std::setw(10) << m::vm::sequence::committed;
out << " uncommit " << std::left << std::setw(10) << m::vm::sequence::uncommitted;
out << std::endl;
out << " pending " << std::left << std::setw(10) << m::vm::sequence::pending;
out << " evals " << std::left << std::setw(10) << m::vm::eval::id_ctr;
out << " spread " << std::left << std::setw(10) << m::vm::sequence::min()
<< ' ' << std::left << std::setw(10) << m::vm::sequence::max();
out << std::endl;
out << " inst " << std::left << std::setw(10) << size(m::vm::eval::list);
out << " exec " << std::left << std::setw(10) << m::vm::eval::executing;
out << " inject " << std::left << std::setw(10) << m::vm::eval::injecting;
out << std::endl;
return true;
}
//
// mc
//
bool
console_cmd__mc__versions(opt &out, const string_view &line)
{
const params param{line, " ",
{
"remote"
}};
const net::hostport remote
{
param.at("remote")
};
const unique_mutable_buffer buf
{
16_KiB
};
window_buffer window{buf};
http::request
{
window, host(remote), "GET", "/_matrix/client/versions"
};
server::request request
{
remote,
server::out { window.completed() },
server::in { mutable_buffer{window} },
};
const auto code
{
request.get(out.timeout)
};
const json::object response
{
request.in.content
};
out << string_view{response} << std::endl;
return true;
}
bool
console_cmd__mc__register(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id", "password", "[remote]"
}};
const m::user::id &user_id
{
param.at("user_id")
};
const string_view &password
{
param.at("password")
};
const net::hostport remote
{
param.at("[remote]", user_id.host())
};
static const string_view uri
{
"/_matrix/client/r0/register?kind=user"
};
server::request::opts sopts;
const unique_buffer<mutable_buffer> buf
{
16_KiB
};
window_buffer window{buf};
window([&](mutable_buffer buf)
{
return json::stringify(buf, json::members
{
{ "username", user_id.localname() },
{ "password", password },
{ "auth", json::members
{
{ "type", "m.login.dummy" }
}}
});
});
const string_view &content
{
window.completed()
};
window = mutable_buffer{window};
http::request
{
window, host(remote), "POST", uri, size(content), "application/json"
};
server::out sout
{
window.completed(), content
};
server::in sin
{
mutable_buffer{window}
};
server::request request
{
remote, std::move(sout), std::move(sin)
};
request.wait(out.timeout);
const auto code
{
request.get()
};
const json::object response
{
request.in.content
};
out << uint(code) << ": " << std::endl;
out << string_view{response} << std::endl;
return true;
}
bool
console_cmd__mc__register__available(opt &out, const string_view &line)
{
const params param{line, " ",
{
"user_id", "[remote]"
}};
const m::user::id &user_id
{
param.at("user_id")
};
const net::hostport remote
{
param.at("[remote]", user_id.host())
};
server::request::opts sopts;
const unique_buffer<mutable_buffer> buf
{
16_KiB
};
window_buffer window{buf};
window([&user_id](const mutable_buffer &buf)
{
char urlencbuf[256];
return fmt::sprintf
{
buf, "/_matrix/client/r0/register/available?username=%s",
url::encode(urlencbuf, user_id.localname())
};
});
const string_view uri{window.completed()};
window = mutable_buffer{window};
http::request
{
window, host(remote), "GET", uri
};
server::out sout{window.completed()};
server::in sin{mutable_buffer{window}};
server::request request
{
remote, std::move(sout), std::move(sin)
};
request.wait(out.timeout);
const auto code
{
request.get()
};
const json::object response
{
request.in.content
};
out << uint(code) << ": " << string_view{response} << std::endl;
return true;
}
//
// fetch
//
bool
console_cmd__fetch(opt &out, const string_view &line)
{
m::fetch::for_each([&out]
(const m::fetch::request &request)
{
const auto request_finished
{
!!request.finished?
request.finished:
now<system_point>()
};
const auto elapsed
{
request_finished - request.started
};
char abuf[2][48];
out
<< std::right << std::setw(10) << reflect(request.opts.op) << " "
<< std::left << std::setw(64) << trunc(request.event_id, 64) << " "
<< std::left << std::setw(40) << trunc(request.room_id, 40) << " "
<< std::left << std::setw(32) << trunc(request.origin, 32) << " "
<< std::left << std::right << std::setw(10) << pretty(abuf[1], elapsed, 1) << " | "
<< std::left << std::right << std::setw(14) << ago(abuf[0], request.last, 1) << " "
<< std::left << "attempt:" << std::setw(3) << request.attempted.size() << " "
<< std::left << "err:" << bool(request.eptr) << " "
<< std::endl
;
return true;
});
return true;
}
bool
console_cmd__fetch__event(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "event_id", "hint", "limit"
}};
const auto room_id
{
m::room_id(param.at("room_id"))
};
const m::event::id &event_id
{
m::event::id{param.at("event_id")}
};
const string_view hint
{
param["hint"]
};
const size_t limit
{
param.at("limit", 0UL)
};
m::fetch::opts opts;
opts.op = m::fetch::op::event;
opts.room_id = room_id;
opts.event_id = event_id;
opts.hint = hint;
opts.attempt_limit = limit;
auto future
{
m::fetch::start(opts)
};
const auto result
{
future.get()
};
out << "Received "
<< event_id << " in "
<< room_id
<< std::endl
<< std::endl
;
out << json::object{result}
<< std::endl
;
return true;
}
bool
console_cmd__fetch__event__auth(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "event_id"
}};
const auto room_id
{
m::room_id(param.at("room_id"))
};
const m::event::id &event_id
{
m::event::id{param.at("event_id")}
};
m::fetch::opts opts;
opts.op = m::fetch::op::auth;
opts.room_id = room_id;
opts.event_id = event_id;
auto future
{
m::fetch::start(opts)
};
const auto result
{
future.get()
};
const json::object response
{
result
};
const json::array &auth_chain
{
response["auth_chain"]
};
out << "Received "
<< auth_chain.size()
<< " auth events for "
<< event_id
<< " in "
<< room_id
<< std::endl
<< std::endl
;
for(const json::object event : auth_chain)
out << string_view{event} << std::endl;
return true;
}
//
// synchron
//
bool
console_cmd__synchron(opt &out, const string_view &line)
{
for(auto *const &data_p : m::sync::data::list)
{
const auto *const &client(data_p->client);
if(client)
out << client->loghead() << " | ";
out << m::sync::loghead(*data_p) << " | ";
out << std::endl;
}
return true;
}
bool
console_cmd__synchron__item(opt &out, const string_view &line)
{
const params param{line, " ",
{
"prefix"
}};
const auto prefix
{
param.at("prefix", ""_sv)
};
ircd::m::sync::for_each(prefix, [&out]
(const auto &item)
{
out << item.name() << std::endl;
return true;
});
return true;
}
//
// redact
//
bool
console_cmd__redact(opt &out, const string_view &line)
{
const params param{line, " ",
{
"event_id", "sender", "reason"
}};
const params param_alt{line, " ",
{
"room_id", "type", "state_key", "sender", "reason"
}};
const m::room::id::buf room_id
{
m::room_id(param.at(0))
};
const m::room room
{
room_id
};
const auto state_idx
{
!valid(m::id::EVENT, param["event_id"])?
room.get(param_alt["type"], param_alt["state_key"]):
0UL
};
const m::event::id::buf redacts
{
valid(m::id::EVENT, param["event_id"])?
param["event_id"]:
m::event_id(state_idx)
};
const m::user::id &sender
{
state_idx && param_alt["sender"]?
param_alt["sender"]:
!state_idx && param["sender"]?
param["sender"]:
m::me()
};
const string_view reason
{
state_idx && param_alt["reason"]?
param_alt["reason"]:
!state_idx && param["reason"]?
param["reason"]:
string_view{}
};
const auto event_id
{
redact(room, sender, redacts, reason)
};
out
<< redacts
<< " redacted by " << sender
<< " with " << event_id
<< std::endl;
return true;
}
//
// well-known
//
bool
console_cmd__well_known(opt &out, const string_view &line)
{
const ctx::critical_assertion ca;
out
<< std::left << std::setw(8) << "ID"
<< " "
<< std::right << std::setw(8) << "REDIRS"
<< " "
<< std::right << std::setw(6) << "CODE"
<< " "
<< std::left << std::setw(40) << "TARGET"
<< " "
<< std::left << std::setw(40) << "CACHED"
<< std::endl;
for(const auto *const request : m::fed::well_known::request::list)
{
out
<< std::left << std::setw(8) << request->id
<< " "
<< std::right << std::setw(8) << request->redirects
<< " "
<< std::right << std::setw(6) << uint(request->code)
<< " "
<< std::left << std::setw(40) << trunc(request->target, 40)
<< " "
<< std::left << std::setw(40) << trunc(request->m_server, 40)
<< std::endl;
}
return true;
}
bool
console_cmd__well_known__matrix__server(opt &out, const string_view &line)
{
const params param{line, " ",
{
"remote" // ...
}};
std::forward_list
<
std::tuple
<
unique_mutable_buffer,
string_view,
ctx::future<string_view>
>
>
reqs;
tokens(line, ' ', [&reqs]
(const string_view &remote)
{
m::fed::well_known::opts opts;
opts.cache_check = false;
opts.cache_result = false;
unique_mutable_buffer buf{1_KiB};
const mutable_buffer _buf{buf};
reqs.emplace_front(std::make_tuple
(
std::move(buf),
remote,
m::fed::well_known::get(_buf, remote, opts)
));
});
for(auto &[buf, tgt, req] : reqs)
out
<< std::right << std::setw(40) << trunc(tgt, 40)
<< " => "
<< std::left << string_view{req}
<< std::endl;
return true;
}
//
// bridge
//
bool
console_cmd__bridge(opt &out, const string_view &line)
{
const params param{line, " ",
{
"id"
}};
const string_view &id
{
param["id"]
};
if(!id)
{
m::bridge::config::for_each([&out]
(const auto &event_idx, const auto &event, const m::bridge::config &config)
{
out
<< json::get<"id"_>(config)
<< std::endl;
return true;
});
return true;
}
m::bridge::config::get(id, [&out]
(const auto &event_idx, const auto &event, const m::bridge::config &config)
{
for(const auto &[key, val] : config.source)
out
<< std::right << std::setw(24) << key
<< " : "
<< std::left << val
<< std::endl;
});
return true;
}
bool
console_cmd__bridge__exists(opt &out, const string_view &line)
{
const params param{line, " ",
{
"bridge_id", "mxid"
}};
const string_view &bridge_id
{
param.at("bridge_id")
};
const string_view &mxid
{
param.at("mxid")
};
std::string config;
m::bridge::config::get(bridge_id, [&config]
(const auto &, const auto &, const auto &object)
{
config = object.source;
});
bool exists {false};
switch(m::sigil(mxid))
{
case m::id::USER:
{
exists = m::bridge::exists(m::bridge::config(config), m::user::id(mxid));
break;
}
case m::id::ROOM_ALIAS:
{
exists = m::bridge::exists(m::bridge::config(config), m::room::alias(mxid));
break;
}
default:
throw error
{
"Invalid MXID argument"
};
}
out
<< mxid
<< " "
<< (exists? "exists"_sv: "does not exist")
<< " on the "
<< bridge_id
<< " bridge."
<< std::endl;
return true;
}
bool
console_cmd__bridge__protocol(opt &out, const string_view &line)
{
const params param{line, " ",
{
"id", "protocol"
}};
const string_view &id
{
param["id"]
};
const string_view &protocol
{
param["protocol"]
};
m::bridge::config::get(id, [&out, &protocol]
(const auto &event_idx, const auto &event, const m::bridge::config &config)
{
const unique_mutable_buffer buf
{
8_KiB
};
const json::object &info
{
m::bridge::protocol(buf, config, protocol)
};
out
<< string_view{info}
<< std::endl;
});
return true;
}
//
// icu
//
bool
console_cmd__icu(opt &out, const string_view &line)
{
if constexpr(!IRCD_USE_ICU)
throw error
{
"ICU is not available."
};
const unique_mutable_buffer buf
{
size(line) * 4
};
char32_t *const ch
{
reinterpret_cast<char32_t *>(data(buf))
};
const size_t count
{
icu::utf8::decode(ch, size(line), line)
};
char namebuf[64]; size_t li(0);
for(size_t i(0); i < count; ++i, li += icu::utf8::length(ch[i]))
out
<< ' ' << std::dec << std::right << std::setw(6) << int(icu::block(ch[i]))
<< ' ' << std::dec << std::right << std::setw(4) << int(icu::category(ch[i]))
<< ' ' << std::dec << std::right << std::setw(2) << int(icu::utf8::length(ch[i]))
<< ' ' << "U+" << std::hex << std::right << std::setw(6) << std::setfill('0') << uint32_t(ch[i]) << std::setfill(' ')
<< ' ' << ' ' << icu::name(namebuf, ch[i])
<< std::endl;
return true;
}
//
// group
//
bool
console_cmd__group(opt &out, const string_view &line)
{
const params param{line, " ",
{
"group_id"
}};
return true;
}
bool
console_id__group(opt &out,
const m::id::group &id,
const string_view &line)
{
return console_cmd__group(out, line);
}
//
// exec
//
bool
console_cmd__exec__list(opt &out, const string_view &line)
{
for(const auto *const &exec : ircd::exec::list)
out
<< " " << exec->id
<< " " << exec->pid
<< " " << (!exec->pid? lex_cast(exec->code): "-"_sv)
<< " " << exec->path
<< std::endl;
return true;
}
bool
console_cmd__exec(opt &out, const string_view &line)
{
if(empty(line))
return console_cmd__exec__list(out, line);
if(ctx::name(ctx::cur()) != "console")
throw ircd::error
{
"Command access denied to non-terminal administrators."
};
string_view argv[16];
const auto argc
{
tokens(line, ' ', argv)
};
exec p
{
{ argv, argc }
};
const auto pid
{
p.run()
};
unique_mutable_buffer buf
{
4_KiB, 4_KiB
};
const string_view in
{
read(p, buf)
};
out << in << std::endl;
return true;
}
//
// app
//
bool
console_cmd__app(opt &out, const string_view &line)
{
out
<< " " << std::right << std::setw(5) << "ID"
<< " " << std::right << std::setw(10) << "EVENTID"
<< " " << std::right << std::setw(8) << "PID"
<< " " << std::right << std::setw(6) << "EXIT"
<< " " << std::left << std::setw(40) << "ROOM"
<< " " << "PATH"
<< std::endl;
for(const auto *const &app : ircd::m::app::list)
{
const auto room_id
{
m::room_id(app->event_idx)
};
out
<< " " << std::right << std::setw(5) << app->child.id
<< " " << std::right << std::setw(10) << app->event_idx
<< " " << std::right << std::setw(8) << app->child.pid
<< " " << std::right << std::setw(6) << (!app->child.pid? lex_cast(app->child.code): "---"_sv)
<< " " << std::left << std::setw(40) << room_id
<< " `" << app->argv.at(0) << "'"
;
if(app->child.eptr)
out << " :" << what(app->child.eptr);
out << std::endl;
}
return true;
}
bool
console_cmd__app__load(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "name"
}};
const auto room_id
{
m::room_id(param.at("room_id"))
};
const auto name
{
param.at("name")
};
const auto event_idx
{
m::room(room_id).get("ircd.app", name)
};
auto *const app
{
std::make_unique<m::app>(event_idx).release()
};
const auto pid
{
app->child.run()
};
out << "Started PID " << pid << "..." << std::endl;
return true;
}
bool
console_cmd__app__unload(opt &out, const string_view &line)
{
const params param{line, " ",
{
"room_id", "name"
}};
const auto room_id
{
m::room_id(param.at("room_id"))
};
const auto name
{
param["name"]
};
const auto event_idx
{
m::valid(m::id::EVENT, param.at("room_id"))?
m::index(param.at("room_id")):
m::room(room_id).get("ircd.app", name)
};
for(auto *const &app : m::app::list)
if(app->event_idx == event_idx)
{
out << "Stopped PID " << app->child.pid << "..." << std::endl;
app->child.join(15);
delete app;
return true;
}
out << "not found." << std::endl;
return true;
}
bool
console_cmd__app__signal(opt &out, const string_view &line)
{
const params param{line, " ",
{
"signum", "event_id"
}};
const auto signum
{
param.at<uint>("signum")
};
const auto event_idx
{
lex_castable<m::event::idx>(param.at("event_id"))?
lex_cast<m::event::idx>(param.at("event_id")):
m::index(param.at("event_id"))
};
for(auto *const &app : m::app::list)
if(app->event_idx == event_idx)
{
out << "Signal " << signum;
if(!app->child.signal(signum))
out << " failed";
out << " to PID " << app->child.pid << std::endl;
return true;
}
out << "not found." << std::endl;
return true;
}
//
// cl
//
bool
console_cmd__cl__info(opt &out, const string_view &line)
{
if constexpr(!IRCD_USE_OPENCL)
throw error
{
"OpenCL is not available."
};
const params param{line, " ",
{
"platform", "device",
}};
const int platform
{
param.at("platform", -1)
};
const int device
{
param.at("device", -1)
};
if(platform >= 0 && device >= 0)
cl::log_dev_info(platform, device);
else if(platform >= 0)
cl::log_dev_info(platform);
else
cl::log_dev_info();
out
<< "OpenCL information written to logger."
<< std::endl;
return true;
}
//
// gpt
//
bool
console_cmd__gpt__token(opt &out, const string_view &line)
{
const params param{line, " ",
{
"idx"
}};
const auto idx
{
param.at<ushort>("idx")
};
char buf[512];
out
<< gpt::vocab::debug(buf, idx)
<< std::endl;
return true;
}
bool
console_cmd__gpt__tokenize(opt &out, const string_view &line)
{
const auto text
{
line
};
u16 buf[1024];
const auto tokens
{
gpt::vocab::tokenize(buf, text)
};
uint i(0);
char dbuf[512];
for(const auto &token : tokens)
out
<< std::setw(4) << (i++) << ": "
<< gpt::vocab::debug(dbuf, token)
<< std::endl;
return true;
}
bool
console_cmd__gpt__tokensp(opt &out, const string_view &line)
{
const auto text
{
std::string{" "} + std::string{line}
};
u16 buf[1024];
const auto tokens
{
gpt::vocab::tokenize(buf, text)
};
uint i(0);
char dbuf[512];
for(const auto &token : tokens)
out
<< std::setw(4) << (i++) << ": "
<< gpt::vocab::debug(dbuf, token)
<< std::endl;
return true;
}
bool
console_cmd__gpt__data(opt &out, const string_view &line)
{
const params param{line, " ",
{
"id"
}};
const auto idx
{
param.at<uint>("id")
};
const json::object step
{
gpt::model::default_data.at(idx)
};
out
<< "#" << step["id"]
<< " | " << step["length"]
<< " " << (step["ended"]? "ended"_sv: string_view{})
<< std::endl
<< std::endl
<< step["text"]
<< std::endl;
return true;
}
bool
console_cmd__gpt__data__tokenize(opt &out, const string_view &line)
{
const params param{line, " ",
{
"id"
}};
const auto idx
{
param.at<uint>("id")
};
const json::object step
{
gpt::model::default_data.at(idx)
};
const json::string text
{
step.get("text")
};
const unique_mutable_buffer sbuf
{
16_KiB
};
const string_view input
{
json::unescape(sbuf, text)
};
u16 tbuf[1024];
const auto tokens
{
gpt::vocab::tokenize(tbuf, input)
};
uint i(0);
char dbuf[256];
for(const auto &token : tokens)
out
<< std::setw(4) << (i++) << ": "
<< gpt::vocab::debug(dbuf, token)
<< std::endl;
return true;
}
bool
console_cmd__gpt__raw(opt &out, const string_view &line)
{
const params param{line, " ",
{
"limit", "top_k"
}};
const int skips
{
-1
+ lex_castable<int>(param.at("limit"))
+ lex_castable<uint>(param.at("top_k"))
};
const auto text
{
tokens_after(line, " ", skips)
};
const unique_mutable_buffer buf
{
16_KiB
};
gpt::opts opts alignas(4096);
opts.debug |= 0x1;
opts.debug |= 0x2;
if(skips >= 1)
opts.limit = param.at<int>("limit", opts.limit);
if(skips >= 0)
opts.top_k = param.at<uint>("top_k", opts.top_k);
gpt::ctrl ctrl alignas(4096) {0};
ctrl.label[opts.labels++].logit.token = 198;
gpt::task task
{
&opts, &ctrl
};
const auto output
{
task(buf, text)
};
out
<< output
<< std::endl;
return true;
}
bool
console_cmd__gpt__query(opt &out, const string_view &line)
{
const params param{line, " ",
{
"limit", "top_k"
}};
const int skips
{
-1
+ lex_castable<int>(param.at("limit"))
+ lex_castable<uint>(param.at("top_k"))
};
std::string text {"Q: "s};
text += tokens_after(line, " ", skips);
text += "\n\nA:";
const unique_mutable_buffer buf
{
16_KiB
};
gpt::opts opts;
opts.debug |= 0x2;
if(skips >= 1)
opts.limit = param.at<int>("limit", opts.limit);
if(skips >= 0)
opts.top_k = param.at<uint>("top_k", opts.top_k);
if(opts.limit == 1)
opts.debug |= 0x10;
gpt::ctrl ctrl {0};
ctrl.label[0].logit.token = 198;
opts.labels = 1;
opts.top_n = 16;
gpt::task task
{
&opts, &ctrl
};
const auto output
{
task(buf, text)
};
out
<< output
<< std::endl;
return true;
}
bool
console_cmd__gpt__label(opt &out, const string_view &line)
{
const params param{line, " ",
{
"label",
}};
const gpt::token label
{
param["label"], true
};
const auto text
{
tokens_after(line, ' ', 0)
};
gpt::opts opts alignas(4096);
opts.limit = 0;
opts.debug |= 0x40;
gpt::ctrl ctrl alignas(4096) {0};
ctrl.label[opts.labels++].logit.token = label;
gpt::task task
{
&opts, &ctrl
};
char buf[32] {0};
const auto output
{
task(buf, text)
};
out
<< output
<< std::endl;
return true;
}