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construct/ircd/logger.cc

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// 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 <RB_INC_IOSTREAM
// <iostream> inclusion here runs std::ios_base::Init() statically as this unit
// is initialized (GNU initialization order given in Makefile).
namespace ircd::log
{
// Option toggles
std::array<bool, num_of<facility>()> file_flush;
std::array<bool, num_of<facility>()> console_flush;
std::array<const char *, num_of<facility>()> console_ansi;
// Runtime master switches
std::array<bool, num_of<facility>()> file_out;
std::array<bool, num_of<facility>()> console_out;
std::array<bool, num_of<facility>()> console_err;
// Suppression state (for struct console_quiet)
std::array<bool, num_of<facility>()> quieted_out;
std::array<bool, num_of<facility>()> quieted_err;
// Logfile name and device
std::array<const char *, num_of<facility>()> fname;
std::array<std::ofstream, num_of<facility>()> file;
std::ostream &out_console
{
std::cout
};
std::ostream &err_console
{
std::cerr
};
static void open(const facility &fac);
}
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void
ircd::log::init()
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{
//TODO: XXX: config + cmd control + other fancy stuff
console_out[CRITICAL] = true;
console_out[ERROR] = true;
console_out[DERROR] = true;
console_out[WARNING] = true;
console_out[DWARNING] = true;
console_out[NOTICE] = true;
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console_out[INFO] = true;
console_out[DEBUG] = ircd::debugmode;
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//console_err[CRITICAL] = true;
//console_err[ERROR] = true;
//console_err[WARNING] = true;
file_out[CRITICAL] = true;
file_out[ERROR] = true;
file_out[DERROR] = true;
file_out[WARNING] = true;
file_out[DWARNING] = true;
file_out[NOTICE] = true;
file_out[INFO] = true;
file_out[DEBUG] = ircd::debugmode;
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file_flush[CRITICAL] = true;
file_flush[ERROR] = true;
file_flush[DERROR] = true;
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file_flush[WARNING] = true;
file_flush[DWARNING] = true;
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file_flush[NOTICE] = false;
file_flush[INFO] = false;
file_flush[DEBUG] = false;
console_flush[CRITICAL] = true;
console_flush[ERROR] = true;
console_flush[DERROR] = true;
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console_flush[WARNING] = true;
console_flush[DWARNING] = true;
console_flush[NOTICE] = true;
console_flush[INFO] = true;
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console_flush[DEBUG] = true;
console_ansi[CRITICAL] = "\033[1;5;37;45m";
console_ansi[ERROR] = "\033[1;37;41m";
console_ansi[DERROR] = "\033[0;31;47m";
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console_ansi[WARNING] = "\033[0;30;43m";
console_ansi[DWARNING] = "\033[0;30;47m";
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console_ansi[NOTICE] = "\033[1;37;46m";
console_ansi[INFO] = "\033[1;37;42m";
console_ansi[DEBUG] = "\033[1;30;47m";
}
void
ircd::log::fini()
{
flush();
close();
}
void
ircd::log::open()
{
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for_each<facility>([](const facility &fac)
{
if(!fname[fac])
return;
if(!file_out[fac])
return;
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if(file[fac].is_open())
file[fac].close();
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file[fac].clear();
file[fac].exceptions(std::ios::badbit | std::ios::failbit);
open(fac);
});
}
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void
ircd::log::close()
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{
for_each<facility>([](const facility &fac)
{
if(file[fac].is_open())
file[fac].close();
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});
}
void
ircd::log::flush()
{
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for_each<facility>([](const facility &fac)
{
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file[fac].flush();
});
std::flush(out_console);
std::flush(err_console);
}
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void
ircd::log::open(const facility &fac)
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try
{
const auto &mode(std::ios::app);
file[fac].open(fname[fac], mode);
}
catch(const std::exception &e)
{
fprintf(stderr, "!!! Opening log file [%s] failed: %s",
fname[fac],
e.what());
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throw;
}
void
ircd::log::console_enable()
{
for_each<facility>([](const facility &fac)
{
console_enable(fac);
});
}
void
ircd::log::console_disable()
{
for_each<facility>([](const facility &fac)
{
console_disable(fac);
});
}
void
ircd::log::console_enable(const facility &fac)
{
console_out[fac] = true;
}
void
ircd::log::console_disable(const facility &fac)
{
console_out[fac] = false;
}
bool
ircd::log::console_enabled(const facility &fac)
{
return console_out[fac];
}
void
ircd::log::console_mask(const vector_view<string_view> &list)
{
for(auto *const &log : log::list)
log->cmasked = std::find(begin(list), end(list), log->name) != end(list);
}
void
ircd::log::console_unmask(const vector_view<string_view> &list)
{
for(auto *const &log : log::list)
log->cmasked = std::find(begin(list), end(list), log->name) == end(list);
}
//
// console quiet
//
ircd::log::console_quiet::console_quiet(const bool &showmsg)
{
if(showmsg)
notice("Log messages are now quieted at the console");
std::copy(begin(console_out), end(console_out), begin(quieted_out));
std::copy(begin(console_err), end(console_err), begin(quieted_err));
std::fill(begin(console_out), end(console_out), false);
std::fill(begin(console_err), end(console_err), false);
// Make a special amend to never suppress CRITICAL messages because
// these are usually for a crash or major b0rk where the console
// user probably won't be continuing normally anyway...
if(quieted_out[CRITICAL]) console_out[CRITICAL] = true;
if(quieted_err[CRITICAL]) console_err[CRITICAL] = true;
}
ircd::log::console_quiet::~console_quiet()
{
std::copy(begin(quieted_out), end(quieted_out), begin(console_out));
std::copy(begin(quieted_err), end(quieted_err), begin(console_err));
}
//
// mark
//
ircd::log::mark::mark(const string_view &msg)
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{
for_each<facility>([&msg]
(const auto &fac)
{
mark(fac, msg);
});
}
ircd::log::mark::mark(const facility &fac,
const string_view &msg)
{
vlog(star, fac, "%s", msg);
}
//
// log
//
/// Linkage for list of named loggers.
template<>
decltype(ircd::instance_list<ircd::log::log>::list)
ircd::instance_list<ircd::log::log>::list
{};
ircd::log::log *
ircd::log::log::find(const string_view &name)
{
const auto it
{
std::find_if(begin(list), end(list), [&name]
(const auto *const &log)
{
return log->name == name;
})
};
return *it;
}
ircd::log::log *
ircd::log::log::find(const char &snote)
{
const auto it
{
std::find_if(begin(list), end(list), [&snote]
(const auto *const &log)
{
return log->snote == snote;
})
};
return *it;
}
/// This function is related to cross-thread logging; its purpose
/// is to check if a given named logger still exists after the pointer
/// is conveyed to the main thread from some other thread.
bool
ircd::log::log::exists(const log *const &ptr)
{
const auto it
{
std::find_if(begin(list), end(list), [&ptr]
(const auto *const &log)
{
return log == ptr;
})
};
return it != end(list);
}
//
// log::log
//
ircd::log::log::log(const string_view &name,
const char &snote)
:name{name}
,snote{snote}
{
for(const auto *const &other : list)
{
if(other == this)
continue;
if(other->name == name)
throw ircd::error
{
"Logger with name '%s' already exists at %p",
name,
other
};
if(snote != '\0' && other->snote == snote)
throw ircd::error
{
"Logger with snote '%c' is '%s' and already exists at %p",
snote,
other->name,
other
};
}
}
//
// vlog
//
namespace ircd::log
{
static void check(std::ostream &) noexcept;
static void slog(const log &, const facility &, const window_buffer::closure &) noexcept;
static void vlog_threadsafe(const log &, const facility &, const string_view &fmt, const va_rtti &ap);
}
decltype(ircd::log::star)
ircd::log::star
{
"*", '*'
};
decltype(ircd::log::general)
ircd::log::general
{
"ircd", 'G'
};
/// ircd::log is not thread-safe. This internal function is called when the
/// normal vlog() detects it's not on the main IRCd thread. It then generates
/// the formatted log message on this thread, and posts the message to the
/// main IRCd event loop which is running on the main thread.
void
ircd::log::vlog_threadsafe(const log &log,
const facility &fac,
const string_view &fmt,
const va_rtti &ap)
{
// Generate the formatted message on this thread first
std::string str
{
fmt::vsnstringf(1024, fmt, ap)
};
// The pointer to the logger is copied to the main thread.
auto *const logp{&log};
ircd::post([fac, str(std::move(str)), logp]
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{
// If that named logger was destroyed while this closure was
// travelling to the main thread then we just discard this message.
if(!log::exists(logp))
return;
slog(*logp, fac, [&str](const mutable_buffer &out) -> size_t
{
return copy(out, string_view{str});
});
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});
}
ircd::log::vlog::vlog(const log &log,
const facility &fac,
const string_view &fmt,
const va_rtti &ap)
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{
if(!is_main_thread())
{
vlog_threadsafe(log, fac, fmt, ap);
return;
}
slog(log, fac, [&fmt, &ap](const mutable_buffer &out) -> size_t
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{
return fmt::vsprintf(out, fmt, ap);
});
}
namespace ircd::log
{
// linkage for slog() reentrance assertion
bool entered;
}
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void
ircd::log::slog(const log &log,
const facility &fac,
const window_buffer::closure &closure)
noexcept
{
// When all of these conditions are true there is no possible log output
// so we can bail real quick.
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if(!file[fac].is_open() && !console_out[fac] && !console_err[fac])
return;
// Same for this set of conditions...
if((!file[fac].is_open() || !log.fmasked) && !log.cmasked)
return;
// Have to be on the main thread to call slog().
assert_main_thread();
// During the composition of this log message, if another log message
// is created from calls for normal reasons or from errors, it's a
// problem too. We can only have one log slog() at a time for now...
const reentrance_assertion<entered> ra;
// If slog() yields for some reason that's not good either...
const ctx::critical_assertion ca;
// The principal buffer doesn't have to be static but courtesy of all the
// above effort we might as well take advantage...
static char buf[1024], date[64];
// Maximum size of log line leaving 2 characters for \r\n
const size_t max(sizeof(buf) - 2);
// Compose the prefix sequence into the buffer through stringstream
std::stringstream s;
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pubsetbuf(s, buf);
s << microtime(date)
<< ' '
<< (console_ansi[fac]? console_ansi[fac] : "")
<< std::setw(8)
<< std::right
<< reflect(fac)
<< (console_ansi[fac]? "\033[0m " : " ")
// << (log.snote? log.snote : '-')
<< std::setw(9)
<< std::right
<< log.name
<< ' '
<< std::setw(8)
<< trunc(ctx::name(), 8)
<< ' '
<< std::setw(6)
<< std::right
<< ctx::id()
<< " :";
// Compose the user message after prefix
const size_t pos(s.tellp());
const mutable_buffer userspace{buf + pos, max - pos};
window_buffer sb{userspace};
sb(closure);
// Compose the newline after user message.
size_t len{pos + sb.consumed()};
assert(len + 2 <= sizeof(buf));
buf[len++] = '\r';
buf[len++] = '\n';
// Closure to copy the message to various places
assert(len <= sizeof(buf));
const string_view msg{buf, len};
const auto write{[&msg](std::ostream &s)
{
check(s);
s.write(data(msg), size(msg));
}};
// copy to std::cerr
if(log.cmasked && console_err[fac])
{
err_console.clear();
write(err_console);
}
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// copy to std::cout
if(log.cmasked && console_out[fac])
{
out_console.clear();
write(out_console);
if(console_flush[fac])
std::flush(out_console);
}
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// copy to file
if(log.fmasked && file[fac].is_open())
{
file[fac].clear();
write(file[fac]);
if(file_flush[fac])
std::flush(file[fac]);
}
}
void
ircd::log::check(std::ostream &s)
noexcept try
{
if(likely(s.good()))
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return;
thread_local char buf[128];
snprintf(buf, sizeof(buf), "fatal: log stream good[%d] bad[%d] fail[%d] eof[%d]",
s.good(),
s.bad(),
s.fail(),
s.eof());
fprintf(stderr, "log stream(%p) fatal: %s\n", (const void *)&s, buf);
fprintf(stdout, "log stream(%p) fatal: %s\n", (const void *)&s, buf);
fflush(stderr);
fflush(stdout);
s.exceptions(s.eofbit | s.failbit | s.badbit);
throw std::runtime_error(buf);
}
catch(const std::exception &e)
{
fprintf(stderr, "%s\n", e.what());
fprintf(stdout, "%s\n", e.what());
fflush(stderr);
fflush(stdout);
ircd::terminate();
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}
const char *
ircd::log::reflect(const facility &f)
{
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switch(f)
{
case facility::CRITICAL: return "CRITICAL";
case facility::ERROR: return "ERROR";
case facility::DERROR: return "ERROR";
case facility::WARNING: return "WARNING";
case facility::DWARNING: return "WARNING";
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case facility::INFO: return "INFO";
case facility::NOTICE: return "NOTICE";
case facility::DEBUG: return "DEBUG";
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case facility::_NUM_: break; // Allows -Wswitch to remind developer to add reflection here
};
return "??????";
}
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const char *
ircd::smalldate(const time_t &ltime)
{
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static const size_t MAX_DATE_STRING
{
32 // maximum string length for a date string (ircd_defs.h)
};
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struct tm lt;
localtime_r(&ltime, &lt);
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thread_local char buf[MAX_DATE_STRING];
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snprintf(buf, sizeof(buf), "%d/%d/%d %02d.%02d",
lt.tm_year + 1900,
lt.tm_mon + 1,
lt.tm_mday,
lt.tm_hour,
lt.tm_min);
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return buf;
}