AlDente-macbook-salva-batteria/com.davidwernhart.Helper/SMC.swift

//
// SMC.swift
// SMCKit
//
// The MIT License
//
// Copyright (C) 2014-2017  beltex <https://beltex.github.io>
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.

import IOKit
import Foundation
import os

//------------------------------------------------------------------------------
// MARK: Type Aliases
//------------------------------------------------------------------------------

// http://stackoverflow.com/a/22383661

/// Floating point, unsigned, 14 bits exponent, 2 bits fraction
public typealias FPE2 = (UInt8, UInt8)

/// Floating point, signed, 7 bits exponent, 8 bits fraction
public typealias SP78 = (UInt8, UInt8)

public typealias SMCBytes = (UInt8, UInt8, UInt8, UInt8, UInt8, UInt8, UInt8,
                             UInt8, UInt8, UInt8, UInt8, UInt8, UInt8, UInt8,
                             UInt8, UInt8, UInt8, UInt8, UInt8, UInt8, UInt8,
                             UInt8, UInt8, UInt8, UInt8, UInt8, UInt8, UInt8,
                             UInt8, UInt8, UInt8, UInt8)

//------------------------------------------------------------------------------
// MARK: Standard Library Extensions
//------------------------------------------------------------------------------

extension UInt32 {

    init(fromBytes bytes: (UInt8, UInt8, UInt8, UInt8)) {
        // TODO: Broken up due to "Expression was too complex" error as of
        //       Swift 4.

        let byte0 = UInt32(bytes.0) << 24
        let byte1 = UInt32(bytes.1) << 16
        let byte2 = UInt32(bytes.2) << 8
        let byte3 = UInt32(bytes.3)

        self = byte0 | byte1 | byte2 | byte3
    }
}

extension Bool {

    init(fromByte byte: UInt8) {
        self = byte == 1 ? true : false
    }
}

public extension Int {

    init(fromFPE2 bytes: FPE2) {
        self = (Int(bytes.0) << 6) + (Int(bytes.1) >> 2)
    }

    func toFPE2() -> FPE2 {
        return (UInt8(self >> 6), UInt8((self << 2) ^ ((self >> 6) << 8)))
    }
}

extension Double {

    init(fromSP78 bytes: SP78) {
        // FIXME: Handle second byte
        let sign = bytes.0 & 0x80 == 0 ? 1.0 : -1.0
        self = sign * Double(bytes.0 & 0x7F)    // AND to mask sign bit
    }
}

// Thanks to Airspeed Velocity for the great idea!
// http://airspeedvelocity.net/2015/05/22/my-talk-at-swift-summit/
public extension FourCharCode {

    init(fromString str: String) {
        precondition(str.count == 4)

        self = str.utf8.reduce(0) { sum, character in
            return sum << 8 | UInt32(character)
        }
    }

    init(fromStaticString str: StaticString) {
        precondition(str.utf8CodeUnitCount == 4)

        self = str.withUTF8Buffer { buffer in
            // TODO: Broken up due to "Expression was too complex" error as of
            //       Swift 4.

            let byte0 = UInt32(buffer[0]) << 24
            let byte1 = UInt32(buffer[1]) << 16
            let byte2 = UInt32(buffer[2]) << 8
            let byte3 = UInt32(buffer[3])

            return byte0 | byte1 | byte2 | byte3
        }
    }

    func toString() -> String {
        return String(describing: UnicodeScalar(self >> 24 & 0xff)!) +
               String(describing: UnicodeScalar(self >> 16 & 0xff)!) +
               String(describing: UnicodeScalar(self >> 8  & 0xff)!) +
               String(describing: UnicodeScalar(self       & 0xff)!)
    }
}

//------------------------------------------------------------------------------
// MARK: Defined by AppleSMC.kext
//------------------------------------------------------------------------------

/// Defined by AppleSMC.kext
///
/// This is the predefined struct that must be passed to communicate with the
/// AppleSMC driver. While the driver is closed source, the definition of this
/// struct happened to appear in the Apple PowerManagement project at around
/// version 211, and soon after disappeared. It can be seen in the PrivateLib.c
/// file under pmconfigd. Given that it is C code, this is the closest
/// translation to Swift from a type perspective.
///
/// ### Issues
///
/// * Padding for struct alignment when passed over to C side
/// * Size of struct must be 80 bytes
/// * C array's are bridged as tuples
///
/// http://www.opensource.apple.com/source/PowerManagement/PowerManagement-211/
public struct SMCParamStruct {

    /// I/O Kit function selector
    public enum Selector: UInt8 {
        case kSMCHandleYPCEvent  = 2
        case kSMCReadKey         = 5
        case kSMCWriteKey        = 6
        case kSMCGetKeyFromIndex = 8
        case kSMCGetKeyInfo      = 9
    }

    /// Return codes for SMCParamStruct.result property
    public enum Result: UInt8 {
        case kSMCSuccess     = 0
        case kSMCError       = 1
        case kSMCKeyNotFound = 132
    }

    public struct SMCVersion {
        var major: CUnsignedChar = 0
        var minor: CUnsignedChar = 0
        var build: CUnsignedChar = 0
        var reserved: CUnsignedChar = 0
        var release: CUnsignedShort = 0
    }

    public struct SMCPLimitData {
        var version: UInt16 = 0
        var length: UInt16 = 0
        var cpuPLimit: UInt32 = 0
        var gpuPLimit: UInt32 = 0
        var memPLimit: UInt32 = 0
    }

    public struct SMCKeyInfoData {
        /// How many bytes written to SMCParamStruct.bytes
        //var dataSize: IOByteCount = 0
        var dataSize:UInt32 = 0

        /// Type of data written to SMCParamStruct.bytes. This lets us know how
        /// to interpret it (translate it to human readable)
        var dataType: UInt32 = 0

        var dataAttributes: UInt8 = 0
    }

    /// FourCharCode telling the SMC what we want
    var key: UInt32 = 0

    var vers = SMCVersion()

    var pLimitData = SMCPLimitData()

    var keyInfo = SMCKeyInfoData()

    /// Padding for struct alignment when passed over to C side
    var padding: UInt16 = 0

    /// Result of an operation
    var result: UInt8 = 0

    var status: UInt8 = 0

    /// Method selector
    var data8: UInt8 = 0

    var data32: UInt32 = 0

    /// Data returned from the SMC
    var bytes: SMCBytes = (UInt8(0), UInt8(0), UInt8(0), UInt8(0), UInt8(0), UInt8(0),
                           UInt8(0), UInt8(0), UInt8(0), UInt8(0), UInt8(0), UInt8(0),
                           UInt8(0), UInt8(0), UInt8(0), UInt8(0), UInt8(0), UInt8(0),
                           UInt8(0), UInt8(0), UInt8(0), UInt8(0), UInt8(0), UInt8(0),
                           UInt8(0), UInt8(0), UInt8(0), UInt8(0), UInt8(0), UInt8(0),
                           UInt8(0), UInt8(0))
}

//------------------------------------------------------------------------------
// MARK: SMC Client
//------------------------------------------------------------------------------

/// SMC data type information
public struct DataTypes {

    /// Fan information struct
    public static let FDS =
                DataType(type: FourCharCode(fromStaticString: "{fds"), size: 16)
    public static let Flag =
                 DataType(type: FourCharCode(fromStaticString: "flag"), size: 1)
    /// See type aliases
    public static let FPE2 =
                 DataType(type: FourCharCode(fromStaticString: "fpe2"), size: 2)
    /// See type aliases
    public static let SP78 =
                 DataType(type: FourCharCode(fromStaticString: "sp78"), size: 2)
    public static let UInt8 =
                 DataType(type: FourCharCode(fromStaticString: "ui8 "), size: 1)
    public static let UInt32 =
                 DataType(type: FourCharCode(fromStaticString: "ui32"), size: 4)
}

public struct SMCKey {
    let code: FourCharCode
    let info: DataType
}

public struct DataType: Equatable {
    let type: FourCharCode
    let size: IOByteCount
}

public func ==(lhs: DataType, rhs: DataType) -> Bool {
    return lhs.type == rhs.type && lhs.size == rhs.size
}

/// Apple System Management Controller (SMC) user-space client for Intel-based
/// Macs. Works by talking to the AppleSMC.kext (kernel extension), the closed
/// source driver for the SMC.
public struct SMCKit {

    public enum SMCError: Error {

        /// AppleSMC driver not found
        case driverNotFound

        /// Failed to open a connection to the AppleSMC driver
        case failedToOpen

        /// This SMC key is not valid on this machine
        case keyNotFound(code: String)

        /// Requires root privileges
        case notPrivileged

        /// Fan speed must be > 0 && <= fanMaxSpeed
        case unsafeFanSpeed

        /// https://developer.apple.com/library/mac/qa/qa1075/_index.html
        ///
        /// - parameter kIOReturn: I/O Kit error code
        /// - parameter SMCResult: SMC specific return code
        case unknown(kIOReturn: kern_return_t, SMCResult: UInt8)
    }

    /// Connection to the SMC driver
    fileprivate static var connection: io_connect_t = 0

    /// Open connection to the SMC driver. This must be done first before any
    /// other calls
    public static func open() throws {
        let service = IOServiceGetMatchingService(kIOMasterPortDefault,
                                                  IOServiceMatching("AppleSMC"))

        if service == 0 { throw SMCError.driverNotFound }

        let result = IOServiceOpen(service, mach_task_self_, 0,
                                   &SMCKit.connection)
        IOObjectRelease(service)

        if result != kIOReturnSuccess { throw SMCError.failedToOpen }
    }

    /// Close connection to the SMC driver
    @discardableResult
    public static func close() -> Bool {
        let result = IOServiceClose(SMCKit.connection)
        return result == kIOReturnSuccess ? true : false
    }

    /// Get information about a key
    public static func keyInformation(_ key: FourCharCode) throws -> DataType {
        var inputStruct = SMCParamStruct()

        inputStruct.key = key
        inputStruct.data8 = SMCParamStruct.Selector.kSMCGetKeyInfo.rawValue

        let outputStruct = try callDriver(&inputStruct)

        return DataType(type: outputStruct.keyInfo.dataType,
                        size: IOByteCount(outputStruct.keyInfo.dataSize))
    }

    /// Get information about the key at index
    public static func keyInformationAtIndex(_ index: Int) throws ->
                                                                  FourCharCode {
        var inputStruct = SMCParamStruct()

        inputStruct.data8 = SMCParamStruct.Selector.kSMCGetKeyFromIndex.rawValue
        inputStruct.data32 = UInt32(index)

        let outputStruct = try callDriver(&inputStruct)

        return outputStruct.key
    }

    public static func getKey(_ code: String, type: DataType) -> SMCKey {
        let key = SMCKey(code: FourCharCode(fromString: code), info: type)
        return key
    }

    /// Read data of a key
    public static func readData(_ key: SMCKey) throws -> SMCBytes {
        var inputStruct = SMCParamStruct()

        inputStruct.key = key.code
        inputStruct.keyInfo.dataSize = UInt32(IOByteCount(key.info.size))
        inputStruct.data8 = SMCParamStruct.Selector.kSMCReadKey.rawValue

        let outputStruct = try callDriver(&inputStruct)

        return outputStruct.bytes
    }

    /// Write data for a key
    public static func writeData(_ key: SMCKey, data: SMCBytes) throws {
        var inputStruct = SMCParamStruct()

        inputStruct.key = key.code
        inputStruct.bytes = data
        inputStruct.keyInfo.dataSize = UInt32(IOByteCount(key.info.size))
        inputStruct.data8 = SMCParamStruct.Selector.kSMCWriteKey.rawValue

        _ = try callDriver(&inputStruct)
    }

    /// Make an actual call to the SMC driver
    public static func callDriver(_ inputStruct: inout SMCParamStruct,
                        selector: SMCParamStruct.Selector = .kSMCHandleYPCEvent)
                                                      throws -> SMCParamStruct {
        os_log("SMCPARAMSTRUCT SIZE: %d", MemoryLayout<SMCParamStruct>.stride)
        assert(MemoryLayout<SMCParamStruct>.stride == 80, "SMCParamStruct size is != 80")

        var outputStruct = SMCParamStruct()
        let inputStructSize = MemoryLayout<SMCParamStruct>.stride
        var outputStructSize = MemoryLayout<SMCParamStruct>.stride

        let result = IOConnectCallStructMethod(SMCKit.connection,
                                               UInt32(selector.rawValue),
                                               &inputStruct,
                                               inputStructSize,
                                               &outputStruct,
                                               &outputStructSize)

        switch (result, outputStruct.result) {
        case (kIOReturnSuccess, SMCParamStruct.Result.kSMCSuccess.rawValue):
            return outputStruct
        case (kIOReturnSuccess, SMCParamStruct.Result.kSMCKeyNotFound.rawValue):
            throw SMCError.keyNotFound(code: inputStruct.key.toString())
        case (kIOReturnNotPrivileged, _):
            throw SMCError.notPrivileged
        default:
            throw SMCError.unknown(kIOReturn: result,
                                SMCResult: outputStruct.result)
        }
    }
}

//------------------------------------------------------------------------------
// MARK: General
//------------------------------------------------------------------------------

extension SMCKit {

    /// Get all valid SMC keys for this machine
    public static func allKeys() throws -> [SMCKey] {
        let count = try keyCount()
        var keys = [SMCKey]()

        for i in 0 ..< count {
            let key = try keyInformationAtIndex(i)
            let info = try keyInformation(key)
            keys.append(SMCKey(code: key, info: info))
        }

        return keys
    }

    /// Get the number of valid SMC keys for this machine
    public static func keyCount() throws -> Int {
        let key = SMCKey(code: FourCharCode(fromStaticString: "#KEY"),
                         info: DataTypes.UInt32)

        let data = try readData(key)
        return Int(UInt32(fromBytes: (data.0, data.1, data.2, data.3)))
    }

    /// Is this key valid on this machine?
    public static func isKeyFound(_ code: FourCharCode) throws -> Bool {
        do {
            _ = try keyInformation(code)
        } catch SMCError.keyNotFound { return false }

        return true
    }
}

//------------------------------------------------------------------------------
// MARK: Temperature
//------------------------------------------------------------------------------

/// The list is NOT exhaustive. In addition, the names of the sensors may not be
/// mapped to the correct hardware component.
///
/// ### Sources
///
/// * powermetrics(1)
/// * https://www.apple.com/downloads/dashboard/status/istatpro.html
/// * https://github.com/hholtmann/smcFanControl
/// * https://github.com/jedda/OSX-Monitoring-Tools
/// * http://www.opensource.apple.com/source/net_snmp/
/// * http://www.parhelia.ch/blog/statics/k3_keys.html
public struct TemperatureSensors {

    public static let AMBIENT_AIR_0 = TemperatureSensor(name: "AMBIENT_AIR_0",
                                   code: FourCharCode(fromStaticString: "TA0P"))
    public static let AMBIENT_AIR_1 = TemperatureSensor(name: "AMBIENT_AIR_1",
                                   code: FourCharCode(fromStaticString: "TA1P"))
    // Via powermetrics(1)
    public static let CPU_0_DIE = TemperatureSensor(name: "CPU_0_DIE",
                                   code: FourCharCode(fromStaticString: "TC0F"))
    public static let CPU_0_DIODE = TemperatureSensor(name: "CPU_0_DIODE",
                                   code: FourCharCode(fromStaticString: "TC0D"))
    public static let CPU_0_HEATSINK = TemperatureSensor(name: "CPU_0_HEATSINK",
                                   code: FourCharCode(fromStaticString: "TC0H"))
    public static let CPU_0_PROXIMITY =
                                      TemperatureSensor(name: "CPU_0_PROXIMITY",
                                   code: FourCharCode(fromStaticString: "TC0P"))
    public static let ENCLOSURE_BASE_0 =
                                     TemperatureSensor(name: "ENCLOSURE_BASE_0",
                                   code: FourCharCode(fromStaticString: "TB0T"))
    public static let ENCLOSURE_BASE_1 =
                                     TemperatureSensor(name: "ENCLOSURE_BASE_1",
                                   code: FourCharCode(fromStaticString: "TB1T"))
    public static let ENCLOSURE_BASE_2 =
                                     TemperatureSensor(name: "ENCLOSURE_BASE_2",
                                   code: FourCharCode(fromStaticString: "TB2T"))
    public static let ENCLOSURE_BASE_3 =
                                     TemperatureSensor(name: "ENCLOSURE_BASE_3",
                                   code: FourCharCode(fromStaticString: "TB3T"))
    public static let GPU_0_DIODE = TemperatureSensor(name: "GPU_0_DIODE",
                                   code: FourCharCode(fromStaticString: "TG0D"))
    public static let GPU_0_HEATSINK = TemperatureSensor(name: "GPU_0_HEATSINK",
                                   code: FourCharCode(fromStaticString: "TG0H"))
    public static let GPU_0_PROXIMITY =
                                      TemperatureSensor(name: "GPU_0_PROXIMITY",
                                   code: FourCharCode(fromStaticString: "TG0P"))
    public static let HDD_PROXIMITY = TemperatureSensor(name: "HDD_PROXIMITY",
                                   code: FourCharCode(fromStaticString: "TH0P"))
    public static let HEATSINK_0 = TemperatureSensor(name: "HEATSINK_0",
                                   code: FourCharCode(fromStaticString: "Th0H"))
    public static let HEATSINK_1 = TemperatureSensor(name: "HEATSINK_1",
                                   code: FourCharCode(fromStaticString: "Th1H"))
    public static let HEATSINK_2 = TemperatureSensor(name: "HEATSINK_2",
                                   code: FourCharCode(fromStaticString: "Th2H"))
    public static let LCD_PROXIMITY = TemperatureSensor(name: "LCD_PROXIMITY",
                                   code: FourCharCode(fromStaticString: "TL0P"))
    public static let MEM_SLOT_0 = TemperatureSensor(name: "MEM_SLOT_0",
                                   code: FourCharCode(fromStaticString: "TM0S"))
    public static let MEM_SLOTS_PROXIMITY =
                                  TemperatureSensor(name: "MEM_SLOTS_PROXIMITY",
                                   code: FourCharCode(fromStaticString: "TM0P"))
    public static let MISC_PROXIMITY = TemperatureSensor(name: "MISC_PROXIMITY",
                                   code: FourCharCode(fromStaticString: "Tm0P"))
    public static let NORTHBRIDGE = TemperatureSensor(name: "NORTHBRIDGE",
                                   code: FourCharCode(fromStaticString: "TN0H"))
    public static let NORTHBRIDGE_DIODE =
                                    TemperatureSensor(name: "NORTHBRIDGE_DIODE",
                                   code: FourCharCode(fromStaticString: "TN0D"))
    public static let NORTHBRIDGE_PROXIMITY =
                                TemperatureSensor(name: "NORTHBRIDGE_PROXIMITY",
                                   code: FourCharCode(fromStaticString: "TN0P"))
    public static let ODD_PROXIMITY = TemperatureSensor(name: "ODD_PROXIMITY",
                                   code: FourCharCode(fromStaticString: "TO0P"))
    public static let PALM_REST = TemperatureSensor(name: "PALM_REST",
                                   code: FourCharCode(fromStaticString: "Ts0P"))
    public static let PWR_SUPPLY_PROXIMITY =
                                 TemperatureSensor(name: "PWR_SUPPLY_PROXIMITY",
                                   code: FourCharCode(fromStaticString: "Tp0P"))
    public static let THUNDERBOLT_0 = TemperatureSensor(name: "THUNDERBOLT_0",
                                   code: FourCharCode(fromStaticString: "TI0P"))
    public static let THUNDERBOLT_1 = TemperatureSensor(name: "THUNDERBOLT_1",
                                   code: FourCharCode(fromStaticString: "TI1P"))

    public static let all = [AMBIENT_AIR_0.code: AMBIENT_AIR_0,
                             AMBIENT_AIR_1.code: AMBIENT_AIR_1,
                             CPU_0_DIE.code: CPU_0_DIE,
                             CPU_0_DIODE.code: CPU_0_DIODE,
                             CPU_0_HEATSINK.code: CPU_0_HEATSINK,
                             CPU_0_PROXIMITY.code: CPU_0_PROXIMITY,
                             ENCLOSURE_BASE_0.code: ENCLOSURE_BASE_0,
                             ENCLOSURE_BASE_1.code: ENCLOSURE_BASE_1,
                             ENCLOSURE_BASE_2.code: ENCLOSURE_BASE_2,
                             ENCLOSURE_BASE_3.code: ENCLOSURE_BASE_3,
                             GPU_0_DIODE.code: GPU_0_DIODE,
                             GPU_0_HEATSINK.code: GPU_0_HEATSINK,
                             GPU_0_PROXIMITY.code: GPU_0_PROXIMITY,
                             HDD_PROXIMITY.code: HDD_PROXIMITY,
                             HEATSINK_0.code: HEATSINK_0,
                             HEATSINK_1.code: HEATSINK_1,
                             HEATSINK_2.code: HEATSINK_2,
                             MEM_SLOT_0.code: MEM_SLOT_0,
                             MEM_SLOTS_PROXIMITY.code: MEM_SLOTS_PROXIMITY,
                             PALM_REST.code: PALM_REST,
                             LCD_PROXIMITY.code: LCD_PROXIMITY,
                             MISC_PROXIMITY.code: MISC_PROXIMITY,
                             NORTHBRIDGE.code: NORTHBRIDGE,
                             NORTHBRIDGE_DIODE.code: NORTHBRIDGE_DIODE,
                             NORTHBRIDGE_PROXIMITY.code: NORTHBRIDGE_PROXIMITY,
                             ODD_PROXIMITY.code: ODD_PROXIMITY,
                             PWR_SUPPLY_PROXIMITY.code: PWR_SUPPLY_PROXIMITY,
                             THUNDERBOLT_0.code: THUNDERBOLT_0,
                             THUNDERBOLT_1.code: THUNDERBOLT_1]
}

public struct TemperatureSensor {
    public let name: String
    public let code: FourCharCode
}

public enum TemperatureUnit {
    case celius
    case fahrenheit
    case kelvin

    public static func toFahrenheit(_ celius: Double) -> Double {
        // https://en.wikipedia.org/wiki/Fahrenheit#Definition_and_conversions
        return (celius * 1.8) + 32
    }

    public static func toKelvin(_ celius: Double) -> Double {
        // https://en.wikipedia.org/wiki/Kelvin
        return celius + 273.15
    }
}

extension SMCKit {

    public static func allKnownTemperatureSensors() throws ->
                                                           [TemperatureSensor] {
        var sensors = [TemperatureSensor]()

        for sensor in TemperatureSensors.all.values {
            if try isKeyFound(sensor.code) { sensors.append(sensor) }
        }

        return sensors
    }

    public static func allUnknownTemperatureSensors() throws -> [TemperatureSensor] {
        let keys = try allKeys()

        return keys.filter { $0.code.toString().hasPrefix("T") &&
                             $0.info == DataTypes.SP78 &&
                             TemperatureSensors.all[$0.code] == nil }
                   .map { TemperatureSensor(name: "Unknown", code: $0.code) }
    }

    /// Get current temperature of a sensor
    public static func temperature(_ sensorCode: FourCharCode,
                             unit: TemperatureUnit = .celius) throws -> Double {
        let data = try readData(SMCKey(code: sensorCode, info: DataTypes.SP78))

        let temperatureInCelius = Double(fromSP78: (data.0, data.1))

        switch unit {
        case .celius:
            return temperatureInCelius
        case .fahrenheit:
            return TemperatureUnit.toFahrenheit(temperatureInCelius)
        case .kelvin:
            return TemperatureUnit.toKelvin(temperatureInCelius)
        }
    }
}

//------------------------------------------------------------------------------
// MARK: Fan
//------------------------------------------------------------------------------

public struct Fan {
    // TODO: Should we start the fan id from 1 instead of 0?
    public let id: Int
    public let name: String
    public let minSpeed: Int
    public let maxSpeed: Int
}

extension SMCKit {

    public static func allFans() throws -> [Fan] {
        let count = try fanCount()
        var fans = [Fan]()

        for i in 0 ..< count {
            fans.append(try SMCKit.fan(i))
        }

        return fans
    }

    public static func fan(_ id: Int) throws -> Fan {
        let name = try fanName(id)
        let minSpeed = try fanMinSpeed(id)
        let maxSpeed = try fanMaxSpeed(id)
        return Fan(id: id, name: name, minSpeed: minSpeed, maxSpeed: maxSpeed)
    }

    /// Number of fans this machine has. All Intel based Macs, except for the
    /// 2015 MacBook (8,1), have at least 1
    public static func fanCount() throws -> Int {
        let key = SMCKey(code: FourCharCode(fromStaticString: "FNum"),
                                            info: DataTypes.UInt8)

        let data = try readData(key)
        return Int(data.0)
    }

    public static func fanName(_ id: Int) throws -> String {
        let key = SMCKey(code: FourCharCode(fromString: "F\(id)ID"),
                                            info: DataTypes.FDS)
        let data = try readData(key)

        // The last 12 bytes of '{fds' data type, a custom struct defined by the
        // AppleSMC.kext that is 16 bytes, contains the fan name
        let c1  = String(UnicodeScalar(data.4))
        let c2  = String(UnicodeScalar(data.5))
        let c3  = String(UnicodeScalar(data.6))
        let c4  = String(UnicodeScalar(data.7))
        let c5  = String(UnicodeScalar(data.8))
        let c6  = String(UnicodeScalar(data.9))
        let c7  = String(UnicodeScalar(data.10))
        let c8  = String(UnicodeScalar(data.11))
        let c9  = String(UnicodeScalar(data.12))
        let c10 = String(UnicodeScalar(data.13))
        let c11 = String(UnicodeScalar(data.14))
        let c12 = String(UnicodeScalar(data.15))

        let name = c1 + c2 + c3 + c4 + c5 + c6 + c7 + c8 + c9 + c10 + c11 + c12

        let characterSet = CharacterSet.whitespaces
        return name.trimmingCharacters(in: characterSet)
    }

    public static func fanCurrentSpeed(_ id: Int) throws -> Int {
        let key = SMCKey(code: FourCharCode(fromString: "F\(id)Ac"),
                                            info: DataTypes.FPE2)

        let data = try readData(key)
        return Int(fromFPE2: (data.0, data.1))
    }

    public static func fanMinSpeed(_ id: Int) throws -> Int {
        let key = SMCKey(code: FourCharCode(fromString: "F\(id)Mn"),
                                            info: DataTypes.FPE2)

        let data = try readData(key)
        return Int(fromFPE2: (data.0, data.1))
    }

    public static func fanMaxSpeed(_ id: Int) throws -> Int {
        let key = SMCKey(code: FourCharCode(fromString: "F\(id)Mx"),
                                            info: DataTypes.FPE2)

        let data = try readData(key)
        return Int(fromFPE2: (data.0, data.1))
    }

    /// Requires root privileges. By minimum we mean that OS X can interject and
    /// raise the fan speed if needed, however it will not go below this.
    ///
    /// WARNING: You are playing with hardware here, BE CAREFUL.
    ///
    /// - Throws: Of note, `SMCKit.SMCError`'s `UnsafeFanSpeed` and `NotPrivileged`
    public static func fanSetMinSpeed(_ id: Int, speed: Int) throws {
        let maxSpeed = try fanMaxSpeed(id)
        if speed <= 0 || speed > maxSpeed { throw SMCError.unsafeFanSpeed }

        let data = speed.toFPE2()
        let bytes: SMCBytes = (data.0, data.1, UInt8(0), UInt8(0), UInt8(0), UInt8(0),
                               UInt8(0), UInt8(0), UInt8(0), UInt8(0), UInt8(0), UInt8(0),
                               UInt8(0), UInt8(0), UInt8(0), UInt8(0), UInt8(0), UInt8(0),
                               UInt8(0), UInt8(0), UInt8(0), UInt8(0), UInt8(0), UInt8(0),
                               UInt8(0), UInt8(0), UInt8(0), UInt8(0), UInt8(0), UInt8(0),
                               UInt8(0), UInt8(0))

        let key = SMCKey(code: FourCharCode(fromString: "F\(id)Mn"),
                         info: DataTypes.FPE2)

        try writeData(key, data: bytes)
    }
}

//------------------------------------------------------------------------------
// MARK: Miscellaneous
//------------------------------------------------------------------------------

public struct batteryInfo {
    public let batteryCount: Int
    public let isACPresent: Bool
    public let isBatteryPowered: Bool
    public let isBatteryOk: Bool
    public let isCharging: Bool
}

extension SMCKit {

    public static func isOpticalDiskDriveFull() throws -> Bool {
        // TODO: Should we catch key not found? That just means the machine
        // doesn't have an ODD. Returning false though is not fully correct.
        // Maybe we could throw a no ODD error instead?
        let key = SMCKey(code: FourCharCode(fromStaticString: "MSDI"),
                         info: DataTypes.Flag)

        let data = try readData(key)
        return Bool(fromByte: data.0)
    }

    public static func batteryInformation() throws -> batteryInfo {
        let batteryCountKey =
                            SMCKey(code: FourCharCode(fromStaticString: "BNum"),
                                   info: DataTypes.UInt8)
        let batteryPoweredKey =
                            SMCKey(code: FourCharCode(fromStaticString: "BATP"),
                                   info: DataTypes.Flag)
        let batteryInfoKey =
                            SMCKey(code: FourCharCode(fromStaticString: "BSIn"),
                                   info: DataTypes.UInt8)

        let batteryCountData = try readData(batteryCountKey)
        let batteryCount = Int(batteryCountData.0)

        let isBatteryPoweredData = try readData(batteryPoweredKey)
        let isBatteryPowered = Bool(fromByte: isBatteryPoweredData.0)

        let batteryInfoData = try readData(batteryInfoKey)
        let isCharging = batteryInfoData.0 & 1 == 1 ? true : false
        let isACPresent = (batteryInfoData.0 >> 1) & 1 == 1 ? true : false
        let isBatteryOk = (batteryInfoData.0 >> 6) & 1 == 1 ? true : false

        return batteryInfo(batteryCount: batteryCount, isACPresent: isACPresent,
                           isBatteryPowered: isBatteryPowered,
                           isBatteryOk: isBatteryOk,
                           isCharging: isCharging)
    }
}