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singlog/source/singlog.d

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D

module singlog;
version(Windows) {
import core.sys.windows.windows;
import std.utf : toUTF8, toUTF16z;
} else version(Posix)
import core.sys.posix.syslog;
import std.string;
import std.stdio;
import std.conv;
import std.file;
import std.datetime;
import datefmt;
alias log = Log.msg;
/++
Singleton for simple logging
---
// Setting the name of the logged program
log.program("My program");
// Setting the status of color text output
log.color(true);
// Setting the error output level
log.level(log.level.debugging);
log.level(log.level.alert);
log.level(log.level.critical);
log.level(log.level.error);
log.level(log.level.warning);
log.level(log.level.notice);
log.level(log.level.information);
// Assigning a target output
log.output(log.output.syslog.stderr.stdout.file);
// Setup and allowing writing to a file
log.file("./file.log");
// Output of messages to the log
log.debugging("Debugging message");
log.alert("Alert message");
log.critical("Critical message");
log.error("Error message");
log.warning("Warning message");
log.notice("Notice message");
log.informations("Information message");
// Write message to specific outputs
log.now(log.output.stdout.file).informations("Information message");
---
+/
class Log {
private:
static Log _log;
string _path;
wstring _name = "singlog";
bool _writeToFile = true;
bool _ccolor = false;
this() {}
version(Windows) {
int[] _sysPriority = [0, 1, 1, 1, 2, 3, 3];
WORD[] _sysPriorityOS = [
EVENTLOG_SUCCESS,
EVENTLOG_ERROR_TYPE,
EVENTLOG_WARNING_TYPE,
EVENTLOG_INFORMATION_TYPE
];
void writesyslog(string message, WORD priority) {
auto wMessage = message.toUTF16z();
HANDLE handleEventLog = RegisterEventSourceW(NULL, this._name.ptr);
if (handleEventLog == NULL)
return;
ReportEventW(handleEventLog, priority, 0, 0, NULL, 1, 0, &wMessage, NULL);
DeregisterEventSource(handleEventLog);
}
WORD[] _color = [
FOREGROUND_GREEN, // green
FOREGROUND_BLUE, // blue
FOREGROUND_RED | FOREGROUND_BLUE, // magenta
FOREGROUND_RED, // red
FOREGROUND_RED | FOREGROUND_GREEN, // yellow
FOREGROUND_BLUE | FOREGROUND_GREEN, // cyan
FOREGROUND_RED | FOREGROUND_BLUE | FOREGROUND_GREEN // white
];
void colorTextOutput(HANDLE handle, string time, string message, int priority) {
CONSOLE_SCREEN_BUFFER_INFO defaultConsole;
GetConsoleScreenBufferInfo(handle, &defaultConsole);
wstring wTime = "%s ".format(time).to!wstring;
wstring wType = this._type[priority].to!wstring;
wstring wMessage = " %s\n".format(message).to!wstring;
switch (GetFileType(handle)) {
case FILE_TYPE_CHAR:
WriteConsoleW(handle, wTime.ptr, cast(DWORD)wTime.length, NULL, NULL);
SetConsoleTextAttribute(handle, this._color[priority] | FOREGROUND_INTENSITY);
WriteConsoleW(handle, wType.ptr, cast(DWORD)wType.length, NULL, NULL);
SetConsoleTextAttribute(handle, this._color[priority]);
WriteConsoleW(handle, wMessage.ptr, cast(DWORD)wMessage.length, NULL, NULL);
SetConsoleTextAttribute(handle, defaultConsole.wAttributes);
break;
case FILE_TYPE_PIPE, FILE_TYPE_DISK:
auto utf8Message = (wTime ~ wType ~ wMessage).toUTF8;
WriteFile(handle, utf8Message.ptr, cast(DWORD)utf8Message.length, NULL, NULL);
break;
default:
writesyslog("Unknown output file", _sysPriorityOS[_sysPriority[ERROR]]);
}
}
void defaultTextOutput(HANDLE handle, string time, string message, int priority) {
wstring wMessage = "%s %s %s\n".format(time, this._type[priority], message).to!wstring;
switch (GetFileType(handle)) {
case FILE_TYPE_CHAR:
WriteConsoleW(handle, wMessage.ptr, cast(DWORD)wMessage.length, NULL, NULL);
break;
case FILE_TYPE_PIPE, FILE_TYPE_DISK:
auto utf8Message = wMessage.toUTF8;
WriteFile(handle, utf8Message.ptr, cast(DWORD)utf8Message.length, NULL, NULL);
break;
default:
writesyslog("Unknown output file", _sysPriorityOS[_sysPriority[ERROR]]);
}
}
void writestdout(string time, string message, int priority) {
HANDLE handle = GetStdHandle(STD_OUTPUT_HANDLE);
this._ccolor ?
colorTextOutput(handle, time, message, priority) :
defaultTextOutput(handle, time, message, priority);
}
void writestderr(string time, string message, int priority) {
HANDLE handle = GetStdHandle(STD_ERROR_HANDLE);
this._ccolor ?
colorTextOutput(handle, time, message, priority) :
defaultTextOutput(handle, time, message, priority);
}
} else version(Posix) {
int[] _sysPriority = [0, 1, 2, 3, 4, 5, 6];
int[] _sysPriorityOS = [
LOG_DEBUG,
LOG_ALERT,
LOG_CRIT,
LOG_ERR,
LOG_WARNING,
LOG_NOTICE,
LOG_INFO
];
string[] _color = [
"\x1b[1;32m%s\x1b[0;32m %s\x1b[0;0m", // green
"\x1b[1;34m%s\x1b[0;34m %s\x1b[0;0m", // blue
"\x1b[1;35m%s\x1b[0;35m %s\x1b[0;0m", // magenta
"\x1b[1;31m%s\x1b[0;31m %s\x1b[0;0m", // red
"\x1b[1;33m%s\x1b[0;33m %s\x1b[0;0m", // yellow
"\x1b[1;36m%s\x1b[0;36m %s\x1b[0;0m", // cyan
"\x1b[1;97m%s\x1b[0;97m %s\x1b[0;0m", // white
];
void writestdout(string time, string message, int priority) {
writefln("%s %s",
time,
(this._ccolor ? this._color[priority] : "%s %s").format(this._type[priority], message)
);
}
void writestderr(string time, string message, int priority) {
stderr.writefln("%s %s",
time,
(this._ccolor ? this._color[priority] : "%s %s").format(this._type[priority], message)
);
}
void writesyslog(string message, int priority) {
syslog(priority, message.toStringz());
}
}
public enum {
DEBUGGING = 0,
ALERT = 1,
CRITICAL = 2,
ERROR = 3,
WARNING = 4,
NOTICE = 5,
INFORMATION = 6
}
string[] _type = [
"[DEBUG]:",
"[ALERT]:",
"[CRITICAL]:",
"[ERROR]:",
"[WARNING]:",
"[NOTICE]:",
"[INFO]:"
];
public enum {
SYSLOG = 1,
STDOUT = 2,
STDERR = 4,
FILE = 8
}
int _nowoutput = 0;
int _output = STDOUT;
int _priority = INFORMATION;
void writelog(string message, int priority) {
string time;
int output = this._nowoutput ? this._nowoutput : this._output;
this._nowoutput = 0;
if (this._priority > priority)
return;
if (output & 1)
writesyslog(message, _sysPriorityOS[_sysPriority[priority]]);
if (output & 14)
time = Clock.currTime().format("%Y.%m.%d %H:%M:%S");
if (output & 2 && priority >= WARNING)
writestdout(time, message, priority);
if (output & 4 && priority <= ERROR)
writestderr(time, message, priority);
if (output & 8)
writefile(time, message, priority);
}
void writefile(string time, string message, int priority) {
if (!this._writeToFile)
return;
if (!this._path.exists) {
this._writeToFile = false;
this.warning("The log file does not exist: " ~ this._path);
}
File file;
try {
file = File(this._path, "a+");
this._writeToFile = true;
} catch (Exception e) {
this._writeToFile = false;
this.now(output.stderr).error("Unable to open the log file " ~ this._path);
this.information(e);
return;
}
try {
file.writefln("%s %s %s", time, this._type[priority], message);
} catch (Exception e) {
this._writeToFile = false;
this.now(output.stderr).error("Unable to write to the log file " ~ this._path);
this.information(e);
return;
}
try {
file.close();
} catch (Exception e) {
this._writeToFile = false;
this.now(output.stderr).error("Unable to close the log file " ~ this._path);
this.information(e);
return;
}
}
struct Output {
int _output = STDOUT;
int _newoutput = 0;
int output() { return this._newoutput ? this._newoutput : this._output; }
public:
Output syslog() { this._newoutput |= SYSLOG; return this; }
Output stdout() { this._newoutput |= STDOUT; return this; }
Output stderr() { this._newoutput |= STDERR; return this; }
Output file() { this._newoutput |= FILE; return this; }
}
struct Level {
public:
int debugging() { return DEBUGGING; }
int alert() { return ALERT; }
int critical() { return CRITICAL; }
int error() { return ERROR; }
int warning() { return WARNING; }
int notice() { return NOTICE; }
int information() { return INFORMATION; }
alias d = debugging;
alias a = alert;
alias c = critical;
alias e = error;
alias w = warning;
alias n = notice;
alias i = information;
}
struct Now {
this(Output outs) {
_log._nowoutput = outs.output();
}
public:
void alert(T)(T message) { _log.alert(message); }
void critical(T)(T message) { _log.critical(message); }
void error(T)(T message) { _log.error(message); }
void warning(T)(T message) { _log.warning(message); }
void notice(T)(T message) { _log.notice(message); }
void information(T)(T message) { _log.information(message); }
void debugging(T)(T message) { _log.debugging(message); }
alias a = alert;
alias c = critical;
alias e = error;
alias w = warning;
alias n = notice;
alias i = information;
alias d = debugging;
}
public:
@property static Log msg() {
if (this._log is null)
this._log = new Log;
return this._log;
}
Output output() { return Output(); }
Level level() { return Level(); }
Now now(Output outs) { return Now(outs); }
Log output(Output outs) { this._output = outs.output(); return this._log; }
deprecated("Use passing the argument as a `log.output.<outs>` object")
Log output(int outs) { this._output = outs; return this._log; }
Log program(string name) { this._name = name.to!wstring; return this._log; }
Log file(string path) { this._path = path; return this._log; }
Log level(int priority) { this._priority = priority; return this._log; }
Log color(bool condition) { this._ccolor = condition; return this._log; }
void alert(T)(T message) { writelog(message.to!string, ALERT); }
void critical(T)(T message) { writelog(message.to!string, CRITICAL); }
void error(T)(T message) { writelog(message.to!string, ERROR); }
void warning(T)(T message) { writelog(message.to!string, WARNING); }
void notice(T)(T message) { writelog(message.to!string, NOTICE); }
void information(T)(T message) { writelog(message.to!string, INFORMATION); }
void debugging(T)(T message) { writelog(message.to!string, DEBUGGING); }
alias a = alert;
alias c = critical;
alias e = error;
alias w = warning;
alias n = notice;
alias i = information;
alias d = debugging;
}