Older/ToolKit/Util/logger.cpp

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2024-09-28 23:55:00 +08:00
/*
* Copyright (c) 2016 The ZLToolKit project authors. All Rights Reserved.
*
* This file is part of ZLToolKit(https://github.com/ZLMediaKit/ZLToolKit).
*
* Use of this source code is governed by MIT license that can be found in the
* LICENSE file in the root of the source tree. All contributing project authors
* may be found in the AUTHORS file in the root of the source tree.
*/
#include <sys/stat.h>
#include <cstdarg>
#include <iostream>
#include "logger.h"
#include "onceToken.h"
#include "File.h"
#include "NoticeCenter.h"
#if defined(_WIN32)
#include "strptime_win.h"
#endif
#ifdef ANDROID
#include <android/log.h>
#endif //ANDROID
#if defined(__MACH__) || ((defined(__linux) || defined(__linux__)) && !defined(ANDROID))
#include <sys/syslog.h>
#endif
using namespace std;
namespace toolkit {
#ifdef _WIN32
#define CLEAR_COLOR 7
static const WORD LOG_CONST_TABLE[][3] = {
{0x97, 0x09 , 'T'},//蓝底灰字黑底蓝字window console默认黑底
{0xA7, 0x0A , 'D'},//绿底灰字,黑底绿字
{0xB7, 0x0B , 'I'},//天蓝底灰字,黑底天蓝字
{0xE7, 0x0E , 'W'},//黄底灰字,黑底黄字
{0xC7, 0x0C , 'E'} };//红底灰字,黑底红字
bool SetConsoleColor(WORD Color)
{
HANDLE handle = GetStdHandle(STD_OUTPUT_HANDLE);
if (handle == 0)
return false;
BOOL ret = SetConsoleTextAttribute(handle, Color);
return(ret == TRUE);
}
#else
#define CLEAR_COLOR "\033[0m"
static const char *LOG_CONST_TABLE[][3] = {
{"\033[44;37m", "\033[34m", "T"},
{"\033[42;37m", "\033[32m", "D"},
{"\033[46;37m", "\033[36m", "I"},
{"\033[43;37m", "\033[33m", "W"},
{"\033[41;37m", "\033[31m", "E"}};
#endif
Logger *g_defaultLogger = nullptr;
Logger &getLogger() {
if (!g_defaultLogger) {
g_defaultLogger = &Logger::Instance();
}
return *g_defaultLogger;
}
void setLogger(Logger *logger) {
g_defaultLogger = logger;
}
///////////////////Logger///////////////////
INSTANCE_IMP(Logger, exeName())
Logger::Logger(const string &loggerName) {
_logger_name = loggerName;
_last_log = std::make_shared<LogContext>();
_default_channel = std::make_shared<ConsoleChannel>("default", LTrace);
#if defined(_WIN32)
SetConsoleOutputCP(CP_UTF8);
#endif
}
Logger::~Logger() {
_writer.reset();
{
LogContextCapture(*this, LInfo, __FILE__, __FUNCTION__, __LINE__);
}
_channels.clear();
}
void Logger::add(const std::shared_ptr<LogChannel> &channel) {
_channels[channel->name()] = channel;
}
void Logger::del(const string &name) {
_channels.erase(name);
}
std::shared_ptr<LogChannel> Logger::get(const string &name) {
auto it = _channels.find(name);
if (it == _channels.end()) {
return nullptr;
}
return it->second;
}
void Logger::setWriter(const std::shared_ptr<LogWriter> &writer) {
_writer = writer;
}
void Logger::write(const LogContextPtr &ctx) {
if (_writer) {
_writer->write(ctx, *this);
} else {
writeChannels(ctx);
}
}
void Logger::setLevel(LogLevel level) {
for (auto &chn : _channels) {
chn.second->setLevel(level);
}
}
void Logger::writeChannels_l(const LogContextPtr &ctx) {
if (_channels.empty()) {
_default_channel->write(*this, ctx);
} else {
for (auto &chn : _channels) {
chn.second->write(*this, ctx);
}
}
_last_log = ctx;
_last_log->_repeat = 0;
}
//返回毫秒
static int64_t timevalDiff(struct timeval &a, struct timeval &b) {
return (1000 * (b.tv_sec - a.tv_sec)) + ((b.tv_usec - a.tv_usec) / 1000);
}
void Logger::writeChannels(const LogContextPtr &ctx) {
if (ctx->_line == _last_log->_line && ctx->_file == _last_log->_file && ctx->str() == _last_log->str() && ctx->_thread_name == _last_log->_thread_name) {
//重复的日志每隔500ms打印一次过滤频繁的重复日志
++_last_log->_repeat;
if (timevalDiff(_last_log->_tv, ctx->_tv) > 500) {
ctx->_repeat = _last_log->_repeat;
writeChannels_l(ctx);
}
return;
}
if (_last_log->_repeat) {
writeChannels_l(_last_log);
}
writeChannels_l(ctx);
}
const string &Logger::getName() const {
return _logger_name;
}
///////////////////LogContext///////////////////
static inline const char *getFileName(const char *file) {
auto pos = strrchr(file, '/');
#ifdef _WIN32
if(!pos){
pos = strrchr(file, '\\');
}
#endif
return pos ? pos + 1 : file;
}
static inline const char *getFunctionName(const char *func) {
#ifndef _WIN32
return func;
#else
auto pos = strrchr(func, ':');
return pos ? pos + 1 : func;
#endif
}
LogContext::LogContext(LogLevel level, const char *file, const char *function, int line, const char *module_name, const char *flag)
: _level(level), _line(line), _file(getFileName(file)), _function(getFunctionName(function)),
_module_name(module_name), _flag(flag) {
gettimeofday(&_tv, nullptr);
_thread_name = getThreadName();
}
const string &LogContext::str() {
if (_got_content) {
return _content;
}
_content = ostringstream::str();
_got_content = true;
return _content;
}
///////////////////AsyncLogWriter///////////////////
static string s_module_name = exeName(false);
LogContextCapture::LogContextCapture(Logger &logger, LogLevel level, const char *file, const char *function, int line, const char *flag) :
_ctx(new LogContext(level, file, function, line, s_module_name.c_str() ? s_module_name.c_str() : "", flag)), _logger(logger) {
}
LogContextCapture::LogContextCapture(const LogContextCapture &that) : _ctx(that._ctx), _logger(that._logger) {
const_cast<LogContextPtr &>(that._ctx).reset();
}
LogContextCapture::~LogContextCapture() {
*this << endl;
}
LogContextCapture &LogContextCapture::operator<<(ostream &(*f)(ostream &)) {
if (!_ctx) {
return *this;
}
_logger.write(_ctx);
_ctx.reset();
return *this;
}
void LogContextCapture::clear() {
_ctx.reset();
}
///////////////////AsyncLogWriter///////////////////
AsyncLogWriter::AsyncLogWriter() : _exit_flag(false) {
_thread = std::make_shared<thread>([this]() { this->run(); });
}
AsyncLogWriter::~AsyncLogWriter() {
_exit_flag = true;
_sem.post();
_thread->join();
flushAll();
}
void AsyncLogWriter::write(const LogContextPtr &ctx, Logger &logger) {
{
lock_guard<mutex> lock(_mutex);
_pending.emplace_back(std::make_pair(ctx, &logger));
}
_sem.post();
}
void AsyncLogWriter::run() {
setThreadName("async log");
while (!_exit_flag) {
_sem.wait();
flushAll();
}
}
void AsyncLogWriter::flushAll() {
decltype(_pending) tmp;
{
lock_guard<mutex> lock(_mutex);
tmp.swap(_pending);
}
tmp.for_each([&](std::pair<LogContextPtr, Logger *> &pr) {
pr.second->writeChannels(pr.first);
});
}
///////////////////EventChannel////////////////////
const string EventChannel::kBroadcastLogEvent = "kBroadcastLogEvent";
EventChannel::EventChannel(const string &name, LogLevel level) : LogChannel(name, level) {}
void EventChannel::write(const Logger &logger, const LogContextPtr &ctx) {
if (_level > ctx->_level) {
return;
}
NOTICE_EMIT(BroadcastLogEventArgs, kBroadcastLogEvent, logger, ctx);
}
const std::string &EventChannel::getBroadcastLogEventName() { return kBroadcastLogEvent;}
///////////////////ConsoleChannel///////////////////
ConsoleChannel::ConsoleChannel(const string &name, LogLevel level) : LogChannel(name, level) {}
void ConsoleChannel::write(const Logger &logger, const LogContextPtr &ctx) {
if (_level > ctx->_level) {
return;
}
#if defined(OS_IPHONE)
//ios禁用日志颜色
format(logger, std::cout, ctx, false);
#elif defined(ANDROID)
static android_LogPriority LogPriorityArr[10];
static onceToken s_token([](){
LogPriorityArr[LTrace] = ANDROID_LOG_VERBOSE;
LogPriorityArr[LDebug] = ANDROID_LOG_DEBUG;
LogPriorityArr[LInfo] = ANDROID_LOG_INFO;
LogPriorityArr[LWarn] = ANDROID_LOG_WARN;
LogPriorityArr[LError] = ANDROID_LOG_ERROR;
});
__android_log_print(LogPriorityArr[ctx->_level],"JNI","%s %s",ctx->_function.data(),ctx->str().data());
#else
//linux/windows日志启用颜色并显示日志详情
format(logger, std::cout, ctx);
#endif
}
///////////////////SysLogChannel///////////////////
#if defined(__MACH__) || ((defined(__linux) || defined(__linux__)) && !defined(ANDROID))
SysLogChannel::SysLogChannel(const string &name, LogLevel level) : LogChannel(name, level) {}
void SysLogChannel::write(const Logger &logger, const LogContextPtr &ctx) {
if (_level > ctx->_level) {
return;
}
static int s_syslog_lev[10];
static onceToken s_token([]() {
s_syslog_lev[LTrace] = LOG_DEBUG;
s_syslog_lev[LDebug] = LOG_INFO;
s_syslog_lev[LInfo] = LOG_NOTICE;
s_syslog_lev[LWarn] = LOG_WARNING;
s_syslog_lev[LError] = LOG_ERR;
}, nullptr);
syslog(s_syslog_lev[ctx->_level], "-> %s %d\r\n", ctx->_file.data(), ctx->_line);
syslog(s_syslog_lev[ctx->_level], "## %s %s | %s %s\r\n", printTime(ctx->_tv).data(),
LOG_CONST_TABLE[ctx->_level][2], ctx->_function.data(), ctx->str().data());
}
#endif//#if defined(__MACH__) || ((defined(__linux) || defined(__linux__)) && !defined(ANDROID))
///////////////////LogChannel///////////////////
LogChannel::LogChannel(const string &name, LogLevel level) : _name(name), _level(level) {}
LogChannel::~LogChannel() {}
const string &LogChannel::name() const { return _name; }
void LogChannel::setLevel(LogLevel level) { _level = level; }
std::string LogChannel::printTime(const timeval &tv) {
auto tm = getLocalTime(tv.tv_sec);
char buf[128];
snprintf(buf, sizeof(buf), "%d-%02d-%02d %02d:%02d:%02d.%03d",
1900 + tm.tm_year,
1 + tm.tm_mon,
tm.tm_mday,
tm.tm_hour,
tm.tm_min,
tm.tm_sec,
(int) (tv.tv_usec / 1000));
return buf;
}
#ifdef _WIN32
#define printf_pid() GetCurrentProcessId()
#else
#define printf_pid() getpid()
#endif
void LogChannel::format(const Logger &logger, ostream &ost, const LogContextPtr &ctx, bool enable_color, bool enable_detail) {
if (!enable_detail && ctx->str().empty()) {
// 没有任何信息打印
return;
}
if (enable_color) {
// color console start
#ifdef _WIN32
SetConsoleColor(LOG_CONST_TABLE[ctx->_level][1]);
#else
ost << LOG_CONST_TABLE[ctx->_level][1];
#endif
}
// print log time and level
#ifdef _WIN32
ost << printTime(ctx->_tv) << " " << (char)LOG_CONST_TABLE[ctx->_level][2] << " ";
#else
ost << printTime(ctx->_tv) << " " << LOG_CONST_TABLE[ctx->_level][2] << " ";
#endif
if (enable_detail) {
// tag or process name
ost << "[" << (!ctx->_flag.empty() ? ctx->_flag : logger.getName()) << "] ";
// pid and thread_name
ost << "[" << printf_pid() << "-" << ctx->_thread_name << "] ";
// source file location
ost << ctx->_file << ":" << ctx->_line << " " << ctx->_function << " | ";
}
// log content
ost << ctx->str();
if (enable_color) {
// color console end
#ifdef _WIN32
SetConsoleColor(CLEAR_COLOR);
#else
ost << CLEAR_COLOR;
#endif
}
if (ctx->_repeat > 1) {
// log repeated
ost << "\r\n Last message repeated " << ctx->_repeat << " times";
}
// flush log and new line
ost << endl;
}
///////////////////FileChannelBase///////////////////
FileChannelBase::FileChannelBase(const string &name, const string &path, LogLevel level) : LogChannel(name, level), _path(path) {}
FileChannelBase::~FileChannelBase() {
close();
}
void FileChannelBase::write(const Logger &logger, const std::shared_ptr<LogContext> &ctx) {
if (_level > ctx->_level) {
return;
}
if (!_fstream.is_open()) {
open();
}
//打印至文件,不启用颜色
format(logger, _fstream, ctx, false);
}
bool FileChannelBase::setPath(const string &path) {
_path = path;
return open();
}
const string &FileChannelBase::path() const {
return _path;
}
bool FileChannelBase::open() {
// Ensure a path was set
if (_path.empty()) {
throw runtime_error("Log file path must be set");
}
// Open the file stream
_fstream.close();
#if !defined(_WIN32)
//创建文件夹
File::create_path(_path, S_IRWXO | S_IRWXG | S_IRWXU);
#else
File::create_path(_path,0);
#endif
_fstream.open(_path.data(), ios::out | ios::app);
if (!_fstream.is_open()) {
return false;
}
//打开文件成功
return true;
}
void FileChannelBase::close() {
_fstream.close();
}
size_t FileChannelBase::size() {
return (_fstream << std::flush).tellp();
}
///////////////////FileChannel///////////////////
static const auto s_second_per_day = 24 * 60 * 60;
//根据GMT UNIX时间戳生产日志文件名
static string getLogFilePath(const string &dir, time_t second, int32_t index) {
auto tm = getLocalTime(second);
char buf[64];
snprintf(buf, sizeof(buf), "%d-%02d-%02d_%02d.log", 1900 + tm.tm_year, 1 + tm.tm_mon, tm.tm_mday, index);
return dir + buf;
}
//根据日志文件名返回GMT UNIX时间戳
static time_t getLogFileTime(const string &full_path) {
auto name = getFileName(full_path.data());
struct tm tm{0};
if (!strptime(name, "%Y-%m-%d", &tm)) {
return 0;
}
//此函数会把本地时间转换成GMT时间戳
return mktime(&tm);
}
//获取1970年以来的第几天
static uint64_t getDay(time_t second) {
return (second + getGMTOff()) / s_second_per_day;
}
FileChannel::FileChannel(const string &name, const string &dir, LogLevel level) : FileChannelBase(name, "", level) {
_dir = dir;
if (_dir.back() != '/') {
_dir.append("/");
}
//收集所有日志文件
File::scanDir(_dir, [this](const string &path, bool isDir) -> bool {
if (!isDir && end_with(path, ".log")) {
_log_file_map.emplace(path);
}
return true;
}, false);
//获取今天日志文件的最大index号
auto log_name_prefix = getTimeStr("%Y-%m-%d_");
for (auto it = _log_file_map.begin(); it != _log_file_map.end(); ++it) {
auto name = getFileName(it->data());
//筛选出今天所有的日志文件
if (start_with(name, log_name_prefix)) {
int tm_mday; // day of the month - [1, 31]
int tm_mon; // months since January - [0, 11]
int tm_year; // years since 1900
uint32_t index;
//今天第几个文件
int count = sscanf(name, "%d-%02d-%02d_%d.log", &tm_year, &tm_mon, &tm_mday, &index);
if (count == 4) {
_index = index >= _index ? index : _index;
}
}
}
}
void FileChannel::write(const Logger &logger, const LogContextPtr &ctx) {
//GMT UNIX时间戳
time_t second = ctx->_tv.tv_sec;
//这条日志所在第几天
auto day = getDay(second);
if ((int64_t) day != _last_day) {
if (_last_day != -1) {
//重置日志index
_index = 0;
}
//这条日志是新的一天,记录这一天
_last_day = day;
//获取日志当天对应的文件,每天可能有多个日志切片文件
changeFile(second);
} else {
//检查该天日志是否需要重新分片
checkSize(second);
}
//写日志
if (_can_write) {
FileChannelBase::write(logger, ctx);
}
}
void FileChannel::clean() {
//获取今天是第几天
auto today = getDay(time(nullptr));
//遍历所有日志文件,删除超过若干天前的过期日志文件
for (auto it = _log_file_map.begin(); it != _log_file_map.end();) {
auto day = getDay(getLogFileTime(it->data()));
if (today < day + _log_max_day) {
//这个日志文件距今尚未超过一定天数,后面的文件更新,所以停止遍历
break;
}
//这个文件距今超过了一定天数,则删除文件
File::delete_file(*it);
//删除这条记录
it = _log_file_map.erase(it);
}
//按文件个数清理,限制最大文件切片个数
while (_log_file_map.size() > _log_max_count) {
auto it = _log_file_map.begin();
if (*it == path()) {
//当前文件,停止删除
break;
}
//删除文件
File::delete_file(*it);
//删除这条记录
_log_file_map.erase(it);
}
}
void FileChannel::checkSize(time_t second) {
//每60秒检查一下文件大小防止频繁flush日志文件
if (second - _last_check_time > 60) {
if (FileChannelBase::size() > _log_max_size * 1024 * 1024) {
changeFile(second);
}
_last_check_time = second;
}
}
void FileChannel::changeFile(time_t second) {
auto log_file = getLogFilePath(_dir, second, _index++);
//记录所有的日志文件,以便后续删除老的日志
_log_file_map.emplace(log_file);
//打开新的日志文件
_can_write = setPath(log_file);
if (!_can_write) {
ErrorL << "Failed to open log file: " << _path;
}
//尝试删除过期的日志文件
clean();
}
void FileChannel::setMaxDay(size_t max_day) {
_log_max_day = max_day > 1 ? max_day : 1;
}
void FileChannel::setFileMaxSize(size_t max_size) {
_log_max_size = max_size > 1 ? max_size : 1;
}
void FileChannel::setFileMaxCount(size_t max_count) {
_log_max_count = max_count > 1 ? max_count : 1;
}
//////////////////////////////////////////////////////////////////////////////////////////////////
void LoggerWrapper::printLogV(Logger &logger, int level, const char *file, const char *function, int line, const char *fmt, va_list ap) {
LogContextCapture info(logger, (LogLevel) level, file, function, line);
char *str = nullptr;
if (vasprintf(&str, fmt, ap) >= 0 && str) {
info << str;
#ifdef ASAN_USE_DELETE
delete [] str; // 开启asan后用free会卡死
#else
free(str);
#endif
}
}
void LoggerWrapper::printLog(Logger &logger, int level, const char *file, const char *function, int line, const char *fmt, ...) {
va_list ap;
va_start(ap, fmt);
printLogV(logger, level, file, function, line, fmt, ap);
va_end(ap);
}
} /* namespace toolkit */