JetForMe/DynamicallyConfigurableLogHandler.swift

## DynamicallyConfigurableLogHandler.swift
//
//	DynamicallyConfigurableLogHandler.swift
//
//
//	Created by Rick Mann on 2022-08-04.
//

import Logging

import Foundation

import ConsoleKit
import Path


/**
	Swift Logging lacks one of Log4J’s best features: the ability to dynamically
	turn logging on and off per-logger. Because LogHanlders are structs, this
	struct references a singleton ``LogHandlerCoordinator`` that manages log message
	gating.

	Loggers should be named in reverse-FQDN style (e.g. "com.latencyzero.app.Foo").
	Logging is gated in the coordinator by a logging threshold, specified per log name
	level, up to the coordinator’s root threshold. For example, if the root logging
	threshold is set to ``.info``, and no other threshold is specifieid, then all log
	messages of ``.info`` level or higher will be output.

	If, in addition to the ``.info`` root threshold, a threshold is set on a specific
	logger name, that threshold will apply to any logger with that name. Note that
	FQDN-style logger names form a hierarchy, with each dotted component of the name
	serving as a level in the hierarchy. Thus, a threshold specified for `com.latencyzero`
	will apply to all loggers whose name begins with `com.latencyzero.`.
*/

public
struct
DynamicallyConfigurableLogHandler: LogHandler
{
	public
	init(label inLabel: String)
	{
		self.label = inLabel
		self.metadata = [:]
		self.logLevel = .trace
	}

	public
	func
	log(level: Logger.Level,
		message: Logger.Message,
		metadata: Logger.Metadata?,
		file: String,
		function: String,
		line: UInt)
	{
		LogHandlerCoordinator.instance.log(label: self.label, level: level, message: message, metadata: metadata, file: file, function: function, line: line)
	}

	public
	subscript(metadataKey inKey: String)
		-> Logging.Logger.Metadata.Value?
	{
		get { return self.metadata[inKey] }
		set { self.metadata[inKey] = newValue }
	}

	public	let		label						:	String

	public	var		metadata					:	Logger.Metadata
	public	var		logLevel					:	Logger.Level
}


public
class
LogHandlerCoordinator
{
	public	static	let	instance							=	LogHandlerCoordinator()

	public
	init()
	{
		self.df = DateFormatter()
		self.df.dateFormat = "yyyy-MM-dd HH:mm:ss.SSS"
	}

	public
	func
	set(rootThreshold inThreshold: Logger.Level)
	{
		self.workQ.async { self.rootThreshold = inThreshold }
	}

	public
	func
	set(threshold inThreshold: Logger.Level, for inName: String)
	{
		self.workQ.async { self.thresholds[inName] = inThreshold }
	}

	public
	func
	clearThreshold(for inName: String)
	{
		self.workQ.async { self.thresholds.removeValue(forKey: inName) }
	}

	public
	func
	log(label: String,
		level: Logger.Level,
		message: Logger.Message,
		metadata: Logger.Metadata?,
		file: String,
		function: String,
		line: UInt)
	{
		let now = Date()
		self.workQ.async
		{
			self.logInternal(timestamp: now, label: label, level: level, message: message, metadata: metadata, file: file, function: function, line: line)
		}
	}


	func
	logInternal(timestamp: Date,
					label inLabel: String,
					level inLevel: Logger.Level,
					message: Logger.Message,
					metadata: Logger.Metadata?,
					file inFile: String,
					function: String,
					line inLine: UInt)
	{
		let threshold = self.threshold(for: inLabel)
		if inLevel >= threshold
		{
			var ct: ConsoleText = ""

			//	Timestamp…

			if let ts = self.df.string(for: timestamp)
			{
				ct += ts.consoleText()
				ct += " "
			}

			//	Logger…

			let logger = "\(truncate(fqdn: inLabel, toLength: 25)) "
			ct += logger.consoleText()

			//	Log level…

			ct += "[\(inLevel.name.padded(to: 8))] ".consoleText(inLevel.style)

			//	File & line…

			let file = Self.limit(path: inFile, separator: "/", length: 30).padded(to: 30, justification: .left)
			let line = "\(inLine)".padded(to: 5, justification: .right)
			let fl = "(\(file):\(line)) "

			ct += fl.consoleText(color: .custom(r: 0xcc, g: 0xcc, b: 0xcc))

			ct += message.description.consoleText()
			self.console.output(ct)
		}
	}

	/**
		Abbreviates and truncates an FQDN-style string to fit in the given
		length, and pads.
	*/

	func
	truncate(fqdn inName: String, toLength inLength: Int)
		-> String
	{
		var name = inName
		if name.count <= inLength
		{
			return name.padded(to: inLength)
		}

		var excess = name.count - inLength
		let components = name.split(separator: ".")
		var newComponents = [String]()
		for comp in components[..<(components.count - 1)]
		{
			if excess > 0
			{
				newComponents.append(String(comp.first!))
				excess -= comp.count - 1
			}
			else
			{
				newComponents.append(String(comp))
			}
		}
		newComponents.append(String(components.last!))				//	Always append the full last component

		name = newComponents.joined(separator: ".")

		//	Now truncate to max width…

		if name.count > inLength
		{
			name = "\(name.prefix(inLength - 1))…"
		}
		else if name.count < inLength
		{
			name = name.padded(to: inLength)
		}

//		while name.count > inLength
//		{
//			if let firstDot = name.firstIndex(of: ".")
//			{
//				let firstComponent = name[..<firstDot]
//				if firstComponent.count > 1
//				{
//					name.[..<firstDot] = String(firstComponent.first!)
//			}
//		}

		return name
	}

	/**
		Returns the effective threshold for the specified logger name.

		TODO: This function should be fast as possible; might be worth
		finding a way to cache thresholds.
	*/

	func
	threshold(for inName: String)
		-> Logger.Level
	{
		var name = inName
		var threshold = self.thresholds[name]
		while threshold == nil && name.count > 0
		{
			if let lastDot = name.lastIndex(of: ".")
			{
				name = String(name[..<lastDot])
				threshold = self.thresholds[name]
			}
			else
			{
				break
			}
		}

		return threshold ?? self.rootThreshold
	}

	/**
		Abbreviate leading path elements as needed to limit the length.
	*/

	static
	func
	limit(path inPath: String, separator inSep: Character = ".", length inLength: Int = 0)
		-> String
	{
		var comps = inPath.split(separator: inSep)
		var length = inPath.count
		for (idx, comp) in comps.enumerated()
		{
			//	If the string is too long, shorting path components…

			if length > inLength
			{
				//	If it's not the last component, append the abbreviation and continue…

				if idx < comps.count - 1
				{
					comps[idx] = comp.prefix(1)
					length -= comp.count - 1
				}
			}
			else
			{
				break
			}
		}

		//	If inPath started with the separator, prepend it…

		var result = ""
		if inPath.prefix(1) == String(inSep)
		{
			result = String(inSep)
		}

		//	Build and return the result…

		result.append(comps.joined(separator: String(inSep)))
		return result
	}

	var		workQ											=	DispatchQueue(label: "LogHandlerCoordinator")
	var		thresholds										=	[String : Logger.Level]()
	var		rootThreshold				:	Logger.Level	=	.trace
	let		console						:	Console			=	Terminal()

	let		df							:	DateFormatter
}


public
extension
String
{
	enum
	Justification
	{
		case left
		case right
		case center
	}

	/**
	*/

	func
	padded(to inLength: Int, justification inJust: Justification = .left)
		-> String
	{
		guard
			self.count < inLength
		else
		{
			return self
		}

		let pad = String(repeating: " ", count: inLength - self.count)
		if inJust == .left
		{
			return self + pad
		}
		else if inJust == .right
		{
			return pad + self
		}
		else
		{
			let halfPad = pad.count / 2
			let leftPad = String(repeating: " ", count: halfPad)
			let rightPad = String(repeating: " ", count: pad.count - halfPad)
			return leftPad + self + rightPad
		}
	}
}
	//
	// DynamicallyConfigurableLogHandler.swift
	//
	//
	// Created by Rick Mann on 2022-08-04.
	//

	import Logging

	import Foundation

	import ConsoleKit
	import Path



	/**
	Swift Logging lacks one of Log4J’s best features: the ability to dynamically
	turn logging on and off per-logger. Because LogHanlders are structs, this
	struct references a singleton ``LogHandlerCoordinator`` that manages log message
	gating.

	Loggers should be named in reverse-FQDN style (e.g. "com.latencyzero.app.Foo").
	Logging is gated in the coordinator by a logging threshold, specified per log name
	level, up to the coordinator’s root threshold. For example, if the root logging
	threshold is set to ``.info``, and no other threshold is specifieid, then all log
	messages of ``.info`` level or higher will be output.

	If, in addition to the ``.info`` root threshold, a threshold is set on a specific
	logger name, that threshold will apply to any logger with that name. Note that
	FQDN-style logger names form a hierarchy, with each dotted component of the name
	serving as a level in the hierarchy. Thus, a threshold specified for `com.latencyzero`
	will apply to all loggers whose name begins with `com.latencyzero.`.
	*/

	public
	struct
	DynamicallyConfigurableLogHandler: LogHandler
	{
	public
	init(label inLabel: String)
	{
	self.label = inLabel
	self.metadata = [:]
	self.logLevel = .trace
	}

	public
	func
	log(level: Logger.Level,
	message: Logger.Message,
	metadata: Logger.Metadata?,
	file: String,
	function: String,
	line: UInt)
	{
	LogHandlerCoordinator.instance.log(label: self.label, level: level, message: message, metadata: metadata, file: file, function: function, line: line)
	}

	public
	subscript(metadataKey inKey: String)
	-> Logging.Logger.Metadata.Value?
	{
	get { return self.metadata[inKey] }
	set { self.metadata[inKey] = newValue }
	}

	public let label : String

	public var metadata : Logger.Metadata
	public var logLevel : Logger.Level
	}




	public
	class
	LogHandlerCoordinator
	{
	public static let instance = LogHandlerCoordinator()

	public
	init()
	{
	self.df = DateFormatter()
	self.df.dateFormat = "yyyy-MM-dd HH:mm:ss.SSS"
	}

	public
	func
	set(rootThreshold inThreshold: Logger.Level)
	{
	self.workQ.async { self.rootThreshold = inThreshold }
	}

	public
	func
	set(threshold inThreshold: Logger.Level, for inName: String)
	{
	self.workQ.async { self.thresholds[inName] = inThreshold }
	}

	public
	func
	clearThreshold(for inName: String)
	{
	self.workQ.async { self.thresholds.removeValue(forKey: inName) }
	}

	public
	func
	log(label: String,
	level: Logger.Level,
	message: Logger.Message,
	metadata: Logger.Metadata?,
	file: String,
	function: String,
	line: UInt)
	{
	let now = Date()
	self.workQ.async
	{
	self.logInternal(timestamp: now, label: label, level: level, message: message, metadata: metadata, file: file, function: function, line: line)
	}
	}




	func
	logInternal(timestamp: Date,
	label inLabel: String,
	level inLevel: Logger.Level,
	message: Logger.Message,
	metadata: Logger.Metadata?,
	file inFile: String,
	function: String,
	line inLine: UInt)
	{
	let threshold = self.threshold(for: inLabel)
	if inLevel >= threshold
	{
	var ct: ConsoleText = ""

	// Timestamp…

	if let ts = self.df.string(for: timestamp)
	{
	ct += ts.consoleText()
	ct += " "
	}

	// Logger…

	let logger = "\(truncate(fqdn: inLabel, toLength: 25)) "
	ct += logger.consoleText()

	// Log level…

	ct += "[\(inLevel.name.padded(to: 8))] ".consoleText(inLevel.style)

	// File & line…

	let file = Self.limit(path: inFile, separator: "/", length: 30).padded(to: 30, justification: .left)
	let line = "\(inLine)".padded(to: 5, justification: .right)
	let fl = "(\(file):\(line)) "

	ct += fl.consoleText(color: .custom(r: 0xcc, g: 0xcc, b: 0xcc))

	ct += message.description.consoleText()
	self.console.output(ct)
	}
	}

	/**
	Abbreviates and truncates an FQDN-style string to fit in the given
	length, and pads.
	*/

	func
	truncate(fqdn inName: String, toLength inLength: Int)
	-> String
	{
	var name = inName
	if name.count <= inLength
	{
	return name.padded(to: inLength)
	}

	var excess = name.count - inLength
	let components = name.split(separator: ".")
	var newComponents = [String]()
	for comp in components[..<(components.count - 1)]
	{
	if excess > 0
	{
	newComponents.append(String(comp.first!))
	excess -= comp.count - 1
	}
	else
	{
	newComponents.append(String(comp))
	}
	}
	newComponents.append(String(components.last!)) // Always append the full last component

	name = newComponents.joined(separator: ".")

	// Now truncate to max width…

	if name.count > inLength
	{
	name = "\(name.prefix(inLength - 1))…"
	}
	else if name.count < inLength
	{
	name = name.padded(to: inLength)
	}

	// while name.count > inLength
	// {
	// if let firstDot = name.firstIndex(of: ".")
	// {
	// let firstComponent = name[..<firstDot]
	// if firstComponent.count > 1
	// {
	// name.[..<firstDot] = String(firstComponent.first!)
	// }
	// }

	return name
	}

	/**
	Returns the effective threshold for the specified logger name.

	TODO: This function should be fast as possible; might be worth
	finding a way to cache thresholds.
	*/

	func
	threshold(for inName: String)
	-> Logger.Level
	{
	var name = inName
	var threshold = self.thresholds[name]
	while threshold == nil && name.count > 0
	{
	if let lastDot = name.lastIndex(of: ".")
	{
	name = String(name[..<lastDot])
	threshold = self.thresholds[name]
	}
	else
	{
	break
	}
	}

	return threshold ?? self.rootThreshold
	}

	/**
	Abbreviate leading path elements as needed to limit the length.
	*/

	static
	func
	limit(path inPath: String, separator inSep: Character = ".", length inLength: Int = 0)
	-> String
	{
	var comps = inPath.split(separator: inSep)
	var length = inPath.count
	for (idx, comp) in comps.enumerated()
	{
	// If the string is too long, shorting path components…

	if length > inLength
	{
	// If it's not the last component, append the abbreviation and continue…

	if idx < comps.count - 1
	{
	comps[idx] = comp.prefix(1)
	length -= comp.count - 1
	}
	}
	else
	{
	break
	}
	}

	// If inPath started with the separator, prepend it…

	var result = ""
	if inPath.prefix(1) == String(inSep)
	{
	result = String(inSep)
	}

	// Build and return the result…

	result.append(comps.joined(separator: String(inSep)))
	return result
	}

	var workQ = DispatchQueue(label: "LogHandlerCoordinator")
	var thresholds = [String : Logger.Level]()
	var rootThreshold : Logger.Level = .trace
	let console : Console = Terminal()

	let df : DateFormatter
	}


	public
	extension
	String
	{
	enum
	Justification
	{
	case left
	case right
	case center
	}

	/**
	*/

	func
	padded(to inLength: Int, justification inJust: Justification = .left)
	-> String
	{
	guard
	self.count < inLength
	else
	{
	return self
	}

	let pad = String(repeating: " ", count: inLength - self.count)
	if inJust == .left
	{
	return self + pad
	}
	else if inJust == .right
	{
	return pad + self
	}
	else
	{
	let halfPad = pad.count / 2
	let leftPad = String(repeating: " ", count: halfPad)
	let rightPad = String(repeating: " ", count: pad.count - halfPad)
	return leftPad + self + rightPad
	}
	}
	}