libcryfs/vendor/spdlog/sinks/file_sinks.h

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//
// Copyright(c) 2015 Gabi Melman.
// Distributed under the MIT License (http://opensource.org/licenses/MIT)
//
#pragma once
#include <mutex>
#include "base_sink.h"
#include "../details/null_mutex.h"
#include "../details/file_helper.h"
#include "../details/format.h"
namespace spdlog
{
namespace sinks
{
/*
* Trivial file sink with single file as target
*/
template<class Mutex>
class simple_file_sink : public base_sink < Mutex >
{
public:
explicit simple_file_sink(const std::string &filename,
bool force_flush = false) :
_file_helper(force_flush)
{
_file_helper.open(filename);
}
void flush() override
{
_file_helper.flush();
}
protected:
void _sink_it(const details::log_msg& msg) override
{
_file_helper.write(msg);
}
private:
details::file_helper _file_helper;
};
typedef simple_file_sink<std::mutex> simple_file_sink_mt;
typedef simple_file_sink<details::null_mutex> simple_file_sink_st;
/*
* Rotating file sink based on size
*/
template<class Mutex>
class rotating_file_sink : public base_sink < Mutex >
{
public:
rotating_file_sink(const std::string &base_filename, const std::string &extension,
std::size_t max_size, std::size_t max_files,
bool force_flush = false) :
_base_filename(base_filename),
_extension(extension),
_max_size(max_size),
_max_files(max_files),
_current_size(0),
_file_helper(force_flush)
{
_file_helper.open(calc_filename(_base_filename, 0, _extension));
_current_size = _file_helper.size(); //expensive. called only once
}
void flush() override
{
_file_helper.flush();
}
protected:
void _sink_it(const details::log_msg& msg) override
{
_current_size += msg.formatted.size();
if (_current_size > _max_size)
{
_rotate();
_current_size = msg.formatted.size();
}
_file_helper.write(msg);
}
private:
static std::string calc_filename(const std::string& filename, std::size_t index, const std::string& extension)
{
fmt::MemoryWriter w;
if (index)
w.write("{}.{}.{}", filename, index, extension);
else
w.write("{}.{}", filename, extension);
return w.str();
}
// Rotate files:
// log.txt -> log.1.txt
// log.1.txt -> log2.txt
// log.2.txt -> log3.txt
// log.3.txt -> delete
void _rotate()
{
_file_helper.close();
for (auto i = _max_files; i > 0; --i)
{
std::string src = calc_filename(_base_filename, i - 1, _extension);
std::string target = calc_filename(_base_filename, i, _extension);
if (details::file_helper::file_exists(target))
{
if (std::remove(target.c_str()) != 0)
{
throw spdlog_ex("rotating_file_sink: failed removing " + target);
}
}
if (details::file_helper::file_exists(src) && std::rename(src.c_str(), target.c_str()))
{
throw spdlog_ex("rotating_file_sink: failed renaming " + src + " to " + target);
}
}
_file_helper.reopen(true);
}
std::string _base_filename;
std::string _extension;
std::size_t _max_size;
std::size_t _max_files;
std::size_t _current_size;
details::file_helper _file_helper;
};
typedef rotating_file_sink<std::mutex> rotating_file_sink_mt;
typedef rotating_file_sink<details::null_mutex>rotating_file_sink_st;
/*
* Rotating file sink based on date. rotates at midnight
*/
template<class Mutex>
class daily_file_sink :public base_sink < Mutex >
{
public:
//create daily file sink which rotates on given time
daily_file_sink(
const std::string& base_filename,
const std::string& extension,
int rotation_hour,
int rotation_minute,
bool force_flush = false) : _base_filename(base_filename),
_extension(extension),
_rotation_h(rotation_hour),
_rotation_m(rotation_minute),
_file_helper(force_flush)
{
if (rotation_hour < 0 || rotation_hour > 23 || rotation_minute < 0 || rotation_minute > 59)
throw spdlog_ex("daily_file_sink: Invalid rotation time in ctor");
_rotation_tp = _next_rotation_tp();
_file_helper.open(calc_filename(_base_filename, _extension));
}
void flush() override
{
_file_helper.flush();
}
protected:
void _sink_it(const details::log_msg& msg) override
{
if (std::chrono::system_clock::now() >= _rotation_tp)
{
_file_helper.open(calc_filename(_base_filename, _extension));
_rotation_tp = _next_rotation_tp();
}
_file_helper.write(msg);
}
private:
std::chrono::system_clock::time_point _next_rotation_tp()
{
using namespace std::chrono;
auto now = system_clock::now();
time_t tnow = std::chrono::system_clock::to_time_t(now);
tm date = spdlog::details::os::localtime(tnow);
date.tm_hour = _rotation_h;
date.tm_min = _rotation_m;
date.tm_sec = 0;
auto rotation_time = std::chrono::system_clock::from_time_t(std::mktime(&date));
if (rotation_time > now)
return rotation_time;
else
return system_clock::time_point(rotation_time + hours(24));
}
//Create filename for the form basename.YYYY-MM-DD.extension
static std::string calc_filename(const std::string& basename, const std::string& extension)
{
std::tm tm = spdlog::details::os::localtime();
fmt::MemoryWriter w;
w.write("{}_{:04d}-{:02d}-{:02d}_{:02d}-{:02d}.{}", basename, tm.tm_year + 1900, tm.tm_mon + 1, tm.tm_mday, tm.tm_hour, tm.tm_min, extension);
return w.str();
}
std::string _base_filename;
std::string _extension;
int _rotation_h;
int _rotation_m;
std::chrono::system_clock::time_point _rotation_tp;
details::file_helper _file_helper;
};
typedef daily_file_sink<std::mutex> daily_file_sink_mt;
typedef daily_file_sink<details::null_mutex> daily_file_sink_st;
}
}