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5 Commits

Author SHA1 Message Date
Claude 1e153f2f85 Add FT-991A Remote Control App for macOS
Complete Phase 1 implementation of the Yaesu FT-991A remote control
application with CAT protocol support over USB serial (CP210x).

Features implemented:
- SerialPortManager with auto-detection of CP210x ports
- Full CAT protocol parser and command builder
- RadioState model with all transceiver parameters
- Modern SwiftUI interface with frequency/mode/level controls
- Skeuomorphic front panel view (switchable)
- Debug panel with CAT command console
- QSO log panel with CSV export/import
- Audio routing panel with BlackHole integration
- Settings with connection, UI, keyboard configuration
- Menu bar extra for background operation
- German/English localization
- Logging system for debugging

Supports: Frequency control, VFO A/B, all modes (LSB/USB/CW/FM/AM/
DATA/RTTY/C4FM), level controls, NB/NR/DNF/ATU/Split functions,
S-meter/Power/SWR metering, PTT control via Shift key.

Target: macOS 15.0+ (Sequoia/Tahoe)
2025-12-18 10:59:15 +00:00
admin 20904e2a96 Refactor SerialManager for VU1 Hub support
Refactor SerialManager for VU1 Dials Hub communication, update protocols, and improve connection management.
2025-12-14 22:06:09 +01:00
admin 841d1c09fc Merge pull request #6 from metacube2/claude/macos-audio-vu-meter-j8fVB
Add USB auto-probing to detect VU meter hardware
2025-12-14 11:46:57 +01:00
admin 3dd5a1891f Merge pull request #5 from metacube2/claude/macos-audio-vu-meter-j8fVB
Add physical VU meter hardware support (4 dials)
2025-12-14 11:27:59 +01:00
admin e4e08037c3 Merge pull request #4 from metacube2/claude/macos-audio-vu-meter-j8fVB
Create macOS app for audio level monitoring
2025-12-14 11:05:17 +01:00
31 changed files with 6941 additions and 547 deletions
+216 -487
View File
@@ -2,49 +2,51 @@
// SerialManager.swift // SerialManager.swift
// AudioVUMeter // AudioVUMeter
// //
// Serial communication manager for physical VU meter hardware // Direct VU1 Dials Hub communication - Native Swift
// Supports multiple protocols: Raw bytes, Text commands, JSON, VU-Server compatible // Protocol: >{CMD:02X}{TYPE:02X}{LEN:04X}{DATA}\r\n
// Includes auto-probing to find connected VU meter hardware
// //
import Foundation import Foundation
import IOKit import IOKit
import IOKit.serial import IOKit.serial
import IOKit.usb
/// Protocol format for serial communication // MARK: - VU1 Protocol Constants
private struct VU1 {
// Commands (from Comms_Hub_Server.py)
static let CMD_SET_DIAL_PERC_SINGLE: UInt8 = 0x03
static let CMD_RESCAN_BUS: UInt8 = 0x0C
static let CMD_GET_DEVICES_MAP: UInt8 = 0x07
// Data Types
static let DATA_NONE: UInt8 = 0x01
static let DATA_KEY_VALUE_PAIR: UInt8 = 0x04
// Serial
static let BAUD: speed_t = 115200
static let SUFFIX = "\r\n"
}
// MARK: - Serial Protocol Enum
enum SerialProtocol: String, CaseIterable, Identifiable { enum SerialProtocol: String, CaseIterable, Identifiable {
case rawBytes = "Raw Bytes (0-255)" case rawBytes = "Raw Bytes (0-255)"
case textCommand = "Text Commands" case textCommand = "Text Commands"
case json = "JSON Format" case json = "JSON Format"
case vuServer = "VU-Server Compatible" case vuServer = "VU1 Direct (Native)"
var id: String { rawValue } var id: String { rawValue }
/// Probe command for this protocol
var probeCommand: Data {
switch self {
case .rawBytes:
// Send test pattern
return Data([0xAA, 0x00, 0x00, 0x00, 0x00, 0x55])
case .textCommand:
return "PING\n".data(using: .utf8)!
case .json:
return "{\"cmd\":\"ping\"}\n".data(using: .utf8)!
case .vuServer:
return "?\n".data(using: .utf8)! // Query command
}
}
} }
/// Represents a serial port device with extended info // MARK: - Serial Port
struct SerialPort: Identifiable, Hashable { struct SerialPort: Identifiable, Hashable {
let id: String let id: String
let path: String let path: String
let name: String let name: String
let vendorID: Int? let vendorID: Int?
let productID: Int? let productID: Int?
let isVUMeter: Bool // Detected as VU meter let isVUMeter: Bool
init(path: String, name: String, vendorID: Int? = nil, productID: Int? = nil, isVUMeter: Bool = false) { init(path: String, name: String, vendorID: Int? = nil, productID: Int? = nil, isVUMeter: Bool = false) {
self.id = path self.id = path
@@ -56,7 +58,8 @@ struct SerialPort: Identifiable, Hashable {
} }
} }
/// Probe result for a serial port // MARK: - Probe Result
struct ProbeResult { struct ProbeResult {
let port: SerialPort let port: SerialPort
let protocol_: SerialProtocol let protocol_: SerialProtocol
@@ -66,7 +69,8 @@ struct ProbeResult {
let responseTime: TimeInterval let responseTime: TimeInterval
} }
/// Channel assignment for physical VU meters // MARK: - Dial Channel
enum DialChannel: String, CaseIterable, Identifiable { enum DialChannel: String, CaseIterable, Identifiable {
case audioLeft = "Audio Left" case audioLeft = "Audio Left"
case audioRight = "Audio Right" case audioRight = "Audio Right"
@@ -80,7 +84,8 @@ enum DialChannel: String, CaseIterable, Identifiable {
var id: String { rawValue } var id: String { rawValue }
} }
/// Configuration for a single dial // MARK: - Dial Configuration
struct DialConfig: Identifiable, Codable { struct DialConfig: Identifiable, Codable {
let id: Int let id: Int
var channel: String var channel: String
@@ -93,14 +98,21 @@ struct DialConfig: Identifiable, Codable {
self.id = id self.id = id
self.channel = channel.rawValue self.channel = channel.rawValue
self.minValue = 0 self.minValue = 0
self.maxValue = 255 self.maxValue = 100
self.inverted = false self.inverted = false
self.smoothing = 0.3 self.smoothing = 0.3
} }
var dialChannel: DialChannel {
get { DialChannel(rawValue: channel) ?? .audioLeft }
set { channel = newValue.rawValue }
}
} }
/// Serial communication manager with auto-probing // MARK: - Serial Manager
class SerialManager: ObservableObject { class SerialManager: ObservableObject {
// MARK: - Published Properties // MARK: - Published Properties
@Published var isConnected = false @Published var isConnected = false
@@ -112,50 +124,33 @@ class SerialManager: ObservableObject {
@Published var lastError: String? @Published var lastError: String?
@Published var bytesSent: UInt64 = 0 @Published var bytesSent: UInt64 = 0
// Auto-probe state
@Published var isProbing = false @Published var isProbing = false
@Published var probeProgress: Double = 0 @Published var probeProgress: Double = 0
@Published var probeStatus: String = "" @Published var probeStatus: String = ""
@Published var detectedDevice: SerialPort? @Published var detectedDevice: SerialPort?
@Published var probeResults: [ProbeResult] = [] @Published var probeResults: [ProbeResult] = []
// Current dial values (0-255)
@Published var dialValues: [Int] = [0, 0, 0, 0] @Published var dialValues: [Int] = [0, 0, 0, 0]
// MARK: - Private Properties // MARK: - Private Properties
private var fileDescriptor: Int32 = -1 private var fileDescriptor: Int32 = -1
private var writeQueue = DispatchQueue(label: "serial.write", qos: .userInteractive) private var writeQueue = DispatchQueue(label: "vu1.write", qos: .userInteractive)
private var probeQueue = DispatchQueue(label: "serial.probe", qos: .userInitiated)
private var updateTimer: Timer? private var updateTimer: Timer?
private let updateInterval: TimeInterval = 1.0 / 30.0 // 30 Hz update rate private let updateInterval: TimeInterval = 1.0 / 30.0
// Smoothed values for each dial
private var smoothedValues: [Double] = [0, 0, 0, 0] private var smoothedValues: [Double] = [0, 0, 0, 0]
private var lastSentValues: [Int] = [-1, -1, -1, -1]
// Known VU meter USB identifiers
private let knownVUMeterDevices: [(vendorID: Int, productID: Int, name: String)] = [
(0x1A86, 0x7523, "CH340 Serial"), // Common CH340 USB-Serial
(0x10C4, 0xEA60, "CP210x Serial"), // Silicon Labs CP210x
(0x0403, 0x6001, "FTDI Serial"), // FTDI FT232
(0x0403, 0x6015, "FTDI FT231X"), // FTDI FT231X
(0x2341, 0x0043, "Arduino Uno"), // Arduino Uno
(0x2341, 0x0001, "Arduino Mega"), // Arduino Mega
(0x1B4F, 0x9206, "SparkFun Pro Micro"), // SparkFun
(0x239A, 0x8014, "Adafruit Feather"), // Adafruit
]
// MARK: - Initialization // MARK: - Initialization
init() { init() {
// Initialize 4 dial configurations with default assignments
dialConfigs = [ dialConfigs = [
DialConfig(id: 0, channel: .audioLeft), DialConfig(id: 0, channel: .audioLeft),
DialConfig(id: 1, channel: .audioRight), DialConfig(id: 1, channel: .audioRight),
DialConfig(id: 2, channel: .cpu), DialConfig(id: 2, channel: .cpu),
DialConfig(id: 3, channel: .ram) DialConfig(id: 3, channel: .ram)
] ]
refreshPorts() refreshPorts()
} }
@@ -163,436 +158,230 @@ class SerialManager: ObservableObject {
disconnect() disconnect()
} }
// MARK: - Port Management // MARK: - Port Discovery
/// Refresh list of available serial ports with USB info
func refreshPorts() { func refreshPorts() {
availablePorts = getSerialPortsWithUSBInfo() availablePorts = findSerialPorts()
// Auto-select VU meter if found // Auto-select VU1 Hub (usbserial)
if let vuMeter = availablePorts.first(where: { $0.isVUMeter }) { if let vu1 = availablePorts.first(where: { $0.isVUMeter }) {
selectedPortPath = vuMeter.path selectedPortPath = vu1.path
} else if selectedPortPath.isEmpty, let firstPort = availablePorts.first { } else if selectedPortPath.isEmpty, let first = availablePorts.first {
selectedPortPath = firstPort.path selectedPortPath = first.path
} }
} }
/// Get all available serial ports with USB vendor/product info private func findSerialPorts() -> [SerialPort] {
private func getSerialPortsWithUSBInfo() -> [SerialPort] {
var ports: [SerialPort] = [] var ports: [SerialPort] = []
var iterator: io_iterator_t = 0 var iterator: io_iterator_t = 0
let matchingDict = IOServiceMatching(kIOSerialBSDServiceValue)
let result = IOServiceGetMatchingServices(kIOMainPortDefault, matchingDict, &iterator) let matching = IOServiceMatching(kIOSerialBSDServiceValue)
guard result == KERN_SUCCESS else { return ports } guard IOServiceGetMatchingServices(kIOMainPortDefault, matching, &iterator) == KERN_SUCCESS else {
return ports
}
var service: io_object_t = IOIteratorNext(iterator) var service = IOIteratorNext(iterator)
while service != 0 { while service != 0 {
defer { defer {
IOObjectRelease(service) IOObjectRelease(service)
service = IOIteratorNext(iterator) service = IOIteratorNext(iterator)
} }
// Get device path guard let path = IORegistryEntryCreateCFProperty(
guard let pathKey = IORegistryEntryCreateCFProperty( service, kIOCalloutDeviceKey as CFString, kCFAllocatorDefault, 0
service,
kIOCalloutDeviceKey as CFString,
kCFAllocatorDefault,
0
)?.takeRetainedValue() as? String else { continue } )?.takeRetainedValue() as? String else { continue }
// Filter for cu.* devices (not tty.*) guard path.contains("cu.") else { continue }
guard pathKey.contains("cu.") else { continue }
// Get device name var name = path.components(separatedBy: "/").last ?? "Unknown"
var name = pathKey.components(separatedBy: "/").last ?? "Unknown"
// Try to get USB info by traversing the registry
var vendorID: Int? var vendorID: Int?
var productID: Int? var productID: Int?
var isVUMeter = false var isVU1 = false
// Walk up the registry to find USB device info // Check for usbserial (FT230X = VU1 Hub)
if path.contains("usbserial") {
isVU1 = true
name = "VU1 Dials Hub"
}
// Walk registry for USB info
var parent: io_object_t = 0 var parent: io_object_t = 0
var current = service var current = service
IOObjectRetain(current) IOObjectRetain(current)
for _ in 0..<10 { // Max depth for _ in 0..<10 {
if IORegistryEntryGetParentEntry(current, kIOServicePlane, &parent) != KERN_SUCCESS { if IORegistryEntryGetParentEntry(current, kIOServicePlane, &parent) != KERN_SUCCESS { break }
break
}
IOObjectRelease(current) IOObjectRelease(current)
current = parent current = parent
// Try to get vendor ID if let vid = IORegistryEntryCreateCFProperty(current, "idVendor" as CFString, kCFAllocatorDefault, 0)?.takeRetainedValue() as? Int {
if let vid = IORegistryEntryCreateCFProperty(
current,
"idVendor" as CFString,
kCFAllocatorDefault,
0
)?.takeRetainedValue() as? Int {
vendorID = vid vendorID = vid
} }
if let pid = IORegistryEntryCreateCFProperty(current, "idProduct" as CFString, kCFAllocatorDefault, 0)?.takeRetainedValue() as? Int {
// Try to get product ID
if let pid = IORegistryEntryCreateCFProperty(
current,
"idProduct" as CFString,
kCFAllocatorDefault,
0
)?.takeRetainedValue() as? Int {
productID = pid productID = pid
} }
if let usbName = IORegistryEntryCreateCFProperty(current, "USB Product Name" as CFString, kCFAllocatorDefault, 0)?.takeRetainedValue() as? String {
// Try to get USB product name
if let usbName = IORegistryEntryCreateCFProperty(
current,
"USB Product Name" as CFString,
kCFAllocatorDefault,
0
)?.takeRetainedValue() as? String {
name = usbName name = usbName
} }
if vendorID != nil && productID != nil { // FTDI FT230X = VU1 Hub
break if vendorID == 0x0403 && (productID == 0x6015 || productID == 0x6001) {
isVU1 = true
name = "VU1 Dials Hub"
} }
if vendorID != nil && productID != nil { break }
} }
IOObjectRelease(current) IOObjectRelease(current)
// Check if this is a known VU meter device ports.append(SerialPort(path: path, name: name, vendorID: vendorID, productID: productID, isVUMeter: isVU1))
if let vid = vendorID, let pid = productID {
isVUMeter = knownVUMeterDevices.contains { $0.vendorID == vid && $0.productID == pid }
// Also check name for VU-related keywords
let lowerName = name.lowercased()
if lowerName.contains("vu") || lowerName.contains("dial") || lowerName.contains("meter") {
isVUMeter = true
}
}
ports.append(SerialPort(
path: pathKey,
name: name,
vendorID: vendorID,
productID: productID,
isVUMeter: isVUMeter
))
} }
IOObjectRelease(iterator) IOObjectRelease(iterator)
// Sort: VU meters first, then by name
return ports.sorted { ($0.isVUMeter ? 0 : 1, $0.name) < ($1.isVUMeter ? 0 : 1, $1.name) } return ports.sorted { ($0.isVUMeter ? 0 : 1, $0.name) < ($1.isVUMeter ? 0 : 1, $1.name) }
} }
// MARK: - Auto-Probing // MARK: - Connection
/// Auto-probe all ports to find VU meter hardware
func startAutoProbe() {
guard !isProbing else { return }
isProbing = true
probeProgress = 0
probeStatus = "Starting auto-probe..."
probeResults = []
detectedDevice = nil
probeQueue.async { [weak self] in
self?.performAutoProbe()
}
}
/// Stop auto-probing
func stopAutoProbe() {
isProbing = false
DispatchQueue.main.async {
self.probeStatus = "Probe cancelled"
}
}
/// Perform the actual auto-probe
private func performAutoProbe() {
let ports = availablePorts
let baudRates = [115200, 9600, 57600, 38400, 19200] // Most common first
let protocols = SerialProtocol.allCases
let totalSteps = Double(ports.count * baudRates.count * protocols.count)
var currentStep = 0
var bestResult: ProbeResult?
for port in ports {
guard isProbing else { break }
DispatchQueue.main.async {
self.probeStatus = "Probing: \(port.name)"
}
for baud in baudRates {
guard isProbing else { break }
for proto in protocols {
guard isProbing else { break }
currentStep += 1
DispatchQueue.main.async {
self.probeProgress = Double(currentStep) / totalSteps
}
// Try to probe this combination
if let result = probePort(port: port, baudRate: baud, protocol_: proto) {
DispatchQueue.main.async {
self.probeResults.append(result)
}
if result.success {
// Found a working device!
if bestResult == nil || result.responseTime < bestResult!.responseTime {
bestResult = result
}
// If we got a response, this is very likely the device
if result.response != nil {
DispatchQueue.main.async {
self.detectedDevice = port
self.selectedPortPath = port.path
self.selectedProtocol = proto
self.baudRate = baud
self.probeStatus = "Found VU Meter: \(port.name)"
self.isProbing = false
}
return
}
}
}
}
}
}
// Probing complete
DispatchQueue.main.async {
self.isProbing = false
self.probeProgress = 1.0
if let best = bestResult {
self.detectedDevice = best.port
self.selectedPortPath = best.port.path
self.selectedProtocol = best.protocol_
self.baudRate = best.baudRate
self.probeStatus = "Found: \(best.port.name) (\(best.protocol_.rawValue))"
} else {
self.probeStatus = "No VU meter found"
}
}
}
/// Probe a single port with specific settings
private func probePort(port: SerialPort, baudRate: Int, protocol_: SerialProtocol) -> ProbeResult? {
let fd = open(port.path, O_RDWR | O_NOCTTY | O_NONBLOCK)
guard fd != -1 else { return nil }
defer { close(fd) }
// Configure port
var options = termios()
tcgetattr(fd, &options)
let speed = getBaudRateConstant(baudRate)
cfsetispeed(&options, speed)
cfsetospeed(&options, speed)
options.c_cflag &= ~UInt(PARENB | CSTOPB | CSIZE)
options.c_cflag |= UInt(CS8 | CREAD | CLOCAL)
options.c_lflag &= ~UInt(ICANON | ECHO | ECHOE | ISIG)
options.c_oflag &= ~UInt(OPOST)
// Set read timeout
options.c_cc.16 = 0 // VMIN
options.c_cc.17 = 5 // VTIME (0.5 seconds)
tcsetattr(fd, TCSANOW, &options)
tcflush(fd, TCIOFLUSH)
// Send probe command
let probeData = protocol_.probeCommand
let startTime = Date()
let written = probeData.withUnsafeBytes { buffer -> Int in
guard let baseAddress = buffer.baseAddress else { return -1 }
return write(fd, baseAddress, probeData.count)
}
guard written > 0 else {
return ProbeResult(port: port, protocol_: protocol_, baudRate: baudRate,
success: false, response: nil, responseTime: 0)
}
// Wait for response
usleep(100_000) // 100ms
// Try to read response
var readBuffer = [UInt8](repeating: 0, count: 256)
let bytesRead = read(fd, &readBuffer, readBuffer.count)
let responseTime = Date().timeIntervalSince(startTime)
if bytesRead > 0 {
let response = String(bytes: readBuffer.prefix(bytesRead), encoding: .utf8)?
.trimmingCharacters(in: .whitespacesAndNewlines)
return ProbeResult(port: port, protocol_: protocol_, baudRate: baudRate,
success: true, response: response, responseTime: responseTime)
}
// No response, but connection succeeded - might still be valid
// (some devices don't respond to probes but accept data)
return ProbeResult(port: port, protocol_: protocol_, baudRate: baudRate,
success: written > 0, response: nil, responseTime: responseTime)
}
/// Quick probe - just check if port opens and accepts data
func quickProbe(port: SerialPort) -> Bool {
let fd = open(port.path, O_RDWR | O_NOCTTY | O_NONBLOCK)
guard fd != -1 else { return false }
defer { close(fd) }
// Try to write a simple test
var options = termios()
tcgetattr(fd, &options)
let speed = getBaudRateConstant(115200)
cfsetispeed(&options, speed)
cfsetospeed(&options, speed)
options.c_cflag &= ~UInt(PARENB | CSTOPB | CSIZE)
options.c_cflag |= UInt(CS8 | CREAD | CLOCAL)
tcsetattr(fd, TCSANOW, &options)
let testData = Data([0xAA, 0x00, 0x00, 0x00, 0x00, 0x55])
let written = testData.withUnsafeBytes { buffer -> Int in
guard let baseAddress = buffer.baseAddress else { return -1 }
return write(fd, baseAddress, testData.count)
}
return written > 0
}
// MARK: - Connection Management
/// Connect to selected serial port
func connect() { func connect() {
guard !selectedPortPath.isEmpty else { guard !selectedPortPath.isEmpty else {
lastError = "No port selected" lastError = "No port selected"
return return
} }
// Open serial port // Open port
fileDescriptor = open(selectedPortPath, O_RDWR | O_NOCTTY | O_NONBLOCK) fileDescriptor = open(selectedPortPath, O_RDWR | O_NOCTTY | O_NONBLOCK)
guard fileDescriptor != -1 else { guard fileDescriptor != -1 else {
lastError = "Failed to open port: \(String(cString: strerror(errno)))" lastError = "Failed to open: \(String(cString: strerror(errno)))"
return return
} }
// Configure serial port // Configure 115200 8N1
var options = termios() var options = termios()
tcgetattr(fileDescriptor, &options) tcgetattr(fileDescriptor, &options)
// Set baud rate cfsetispeed(&options, speed_t(B115200))
let speed = getBaudRateConstant(baudRate) cfsetospeed(&options, speed_t(B115200))
cfsetispeed(&options, speed)
cfsetospeed(&options, speed)
// Configure 8N1 // 8N1, no flow control
options.c_cflag &= ~UInt(PARENB) // No parity options.c_cflag &= ~UInt(PARENB | CSTOPB | CSIZE | CRTSCTS)
options.c_cflag &= ~UInt(CSTOPB) // 1 stop bit options.c_cflag |= UInt(CS8 | CREAD | CLOCAL)
options.c_cflag &= ~UInt(CSIZE)
options.c_cflag |= UInt(CS8) // 8 data bits
// Enable receiver, ignore modem control lines // Raw mode
options.c_cflag |= UInt(CREAD | CLOCAL)
// Raw input
options.c_lflag &= ~UInt(ICANON | ECHO | ECHOE | ISIG) options.c_lflag &= ~UInt(ICANON | ECHO | ECHOE | ISIG)
// Raw output
options.c_oflag &= ~UInt(OPOST) options.c_oflag &= ~UInt(OPOST)
options.c_iflag &= ~UInt(IXON | IXOFF | IXANY | ICRNL | INLCR | IGNBRK)
// Timeouts
options.c_cc.16 = 0 // VMIN
options.c_cc.17 = 10 // VTIME = 1 second
// Apply settings
tcsetattr(fileDescriptor, TCSANOW, &options) tcsetattr(fileDescriptor, TCSANOW, &options)
// Clear any pending data
tcflush(fileDescriptor, TCIOFLUSH) tcflush(fileDescriptor, TCIOFLUSH)
isConnected = true isConnected = true
lastError = nil lastError = nil
lastSentValues = [-1, -1, -1, -1]
print("Connected to \(selectedPortPath) at \(baudRate) baud") print("VU1 Hub connected: \(selectedPortPath)")
// Initialize: Rescan bus
sendCommand(cmd: VU1.CMD_RESCAN_BUS, dataType: VU1.DATA_NONE, data: [])
usleep(500_000) // Wait 500ms for rescan
// Set all dials to 0
for i in 0..<4 {
setDialValue(dialIndex: UInt8(i), value: 0)
usleep(20_000)
}
// Start update timer
startUpdateTimer() startUpdateTimer()
} }
/// Auto-connect: probe and connect to first found device
func autoConnect() {
refreshPorts()
// First, try already marked VU meters
if let vuMeter = availablePorts.first(where: { $0.isVUMeter }) {
selectedPortPath = vuMeter.path
connect()
if isConnected { return }
}
// Quick probe all ports
for port in availablePorts {
if quickProbe(port: port) {
selectedPortPath = port.path
connect()
if isConnected {
print("Auto-connected to \(port.name)")
return
}
}
}
lastError = "No VU meter found"
}
/// Disconnect from serial port
func disconnect() { func disconnect() {
stopUpdateTimer() stopUpdateTimer()
if fileDescriptor != -1 { if fileDescriptor != -1 {
// Reset dials to 0
for i in 0..<4 {
setDialValue(dialIndex: UInt8(i), value: 0)
usleep(10_000)
}
usleep(100_000)
close(fileDescriptor) close(fileDescriptor)
fileDescriptor = -1 fileDescriptor = -1
} }
isConnected = false isConnected = false
print("Disconnected from serial port") print("VU1 Hub disconnected")
} }
/// Toggle connection state
func toggleConnection() { func toggleConnection() {
if isConnected { if isConnected { disconnect() } else { connect() }
disconnect() }
} else {
func autoConnect() {
refreshPorts()
if let vu1 = availablePorts.first(where: { $0.isVUMeter }) {
selectedPortPath = vu1.path
connect() connect()
} else if let first = availablePorts.first {
selectedPortPath = first.path
connect()
} else {
lastError = "No serial ports found"
} }
} }
// MARK: - Data Transmission // MARK: - VU1 Protocol
/// Send VU1 command: >{CMD:02X}{TYPE:02X}{LEN:04X}{DATA}\r\n
private func sendCommand(cmd: UInt8, dataType: UInt8, data: [UInt8]) {
guard fileDescriptor != -1 else { return }
let dataLen = data.count
var cmdString = String(format: ">%02X%02X%04X", cmd, dataType, dataLen)
for byte in data {
cmdString += String(format: "%02X", byte)
}
cmdString += VU1.SUFFIX
guard let cmdData = cmdString.data(using: .ascii) else { return }
let written = cmdData.withUnsafeBytes { buffer -> Int in
guard let base = buffer.baseAddress else { return -1 }
return write(fileDescriptor, base, cmdData.count)
}
if written > 0 {
bytesSent += UInt64(written)
}
}
/// Set dial value (0-100%)
private func setDialValue(dialIndex: UInt8, value: Int) {
let clampedValue = UInt8(max(0, min(100, value)))
// CMD: 0x03 = SET_DIAL_PERC_SINGLE
// TYPE: 0x04 = KEY_VALUE_PAIR
// DATA: [dial_index, value]
sendCommand(
cmd: VU1.CMD_SET_DIAL_PERC_SINGLE,
dataType: VU1.DATA_KEY_VALUE_PAIR,
data: [dialIndex, clampedValue]
)
}
// MARK: - Value Updates
/// Update dial values from audio and system monitors
func updateValues(audioEngine: AudioEngine, systemMonitor: SystemMonitor) { func updateValues(audioEngine: AudioEngine, systemMonitor: SystemMonitor) {
for (index, config) in dialConfigs.enumerated() { for (index, config) in dialConfigs.enumerated() {
guard index < 4 else { break } guard index < 4 else { break }
var rawValue: Double = 0 var rawValue: Double = 0
// Get value based on channel assignment switch config.dialChannel {
switch DialChannel(rawValue: config.channel) ?? .audioLeft {
case .audioLeft: case .audioLeft:
rawValue = audioEngine.leftLevel * 100 rawValue = audioEngine.leftLevel * 100
case .audioRight: case .audioRight:
@@ -611,111 +400,34 @@ class SerialManager: ObservableObject {
rawValue = systemMonitor.networkActivity rawValue = systemMonitor.networkActivity
} }
// Apply smoothing // Smoothing
let smoothing = config.smoothing smoothedValues[index] = smoothedValues[index] * config.smoothing + rawValue * (1 - config.smoothing)
smoothedValues[index] = smoothedValues[index] * smoothing + rawValue * (1 - smoothing)
// Map to dial range var value = Int(smoothedValues[index])
var mappedValue = Int((smoothedValues[index] / 100.0) * Double(config.maxValue - config.minValue)) + config.minValue if config.inverted { value = 100 - value }
// Apply inversion if needed dialValues[index] = max(0, min(100, value))
if config.inverted {
mappedValue = config.maxValue - mappedValue + config.minValue
}
// Clamp to valid range
dialValues[index] = max(config.minValue, min(config.maxValue, mappedValue))
} }
} }
/// Send current values to hardware
func sendValues() { func sendValues() {
guard isConnected, fileDescriptor != -1 else { return } guard isConnected, fileDescriptor != -1 else { return }
writeQueue.async { [weak self] in writeQueue.async { [weak self] in
guard let self = self else { return } guard let self = self else { return }
let data: Data for (index, value) in self.dialValues.enumerated() {
// Only send if changed
switch self.selectedProtocol { if value != self.lastSentValues[index] {
case .rawBytes: self.setDialValue(dialIndex: UInt8(index), value: value)
data = self.formatRawBytes() self.lastSentValues[index] = value
case .textCommand: usleep(5_000) // 5ms between commands
data = self.formatTextCommand()
case .json:
data = self.formatJSON()
case .vuServer:
data = self.formatVUServer()
}
self.writeData(data)
}
}
// MARK: - Protocol Formatters
/// Format as raw bytes: [0xAA, ch1, ch2, ch3, ch4, 0x55]
private func formatRawBytes() -> Data {
var bytes: [UInt8] = [0xAA] // Start marker
for value in dialValues {
bytes.append(UInt8(clamping: value))
}
bytes.append(0x55) // End marker
return Data(bytes)
}
/// Format as text commands: "CH1:128;CH2:64;CH3:200;CH4:32\n"
private func formatTextCommand() -> Data {
let commands = dialValues.enumerated().map { "CH\($0 + 1):\($1)" }
let message = commands.joined(separator: ";") + "\n"
return message.data(using: .utf8) ?? Data()
}
/// Format as JSON: {"dials":[128,64,200,32]}
private func formatJSON() -> Data {
let json: [String: Any] = ["dials": dialValues]
if let data = try? JSONSerialization.data(withJSONObject: json, options: []) {
return data + "\n".data(using: .utf8)!
}
return Data()
}
/// Format for VU-Server compatible hardware
/// Protocol: #<dial_id>:<value>\n
private func formatVUServer() -> Data {
var message = ""
for (index, value) in dialValues.enumerated() {
// VU-Server uses percentage values 0-100
let percentage = (value * 100) / 255
message += "#\(index):\(percentage)\n"
}
return message.data(using: .utf8) ?? Data()
}
// MARK: - Low-level I/O
/// Write data to serial port
private func writeData(_ data: Data) {
guard !data.isEmpty else { return }
data.withUnsafeBytes { buffer in
guard let baseAddress = buffer.baseAddress else { return }
let written = write(fileDescriptor, baseAddress, data.count)
if written > 0 {
DispatchQueue.main.async {
self.bytesSent += UInt64(written)
}
} else if written < 0 {
let error = String(cString: strerror(errno))
DispatchQueue.main.async {
self.lastError = "Write error: \(error)"
} }
} }
} }
} }
// MARK: - Timer Management // MARK: - Timer
private func startUpdateTimer() { private func startUpdateTimer() {
stopUpdateTimer() stopUpdateTimer()
@@ -729,28 +441,45 @@ class SerialManager: ObservableObject {
updateTimer = nil updateTimer = nil
} }
// MARK: - Helpers // MARK: - Auto-Probe
private func getBaudRateConstant(_ rate: Int) -> speed_t { func startAutoProbe() {
switch rate { isProbing = true
case 9600: return speed_t(B9600) probeProgress = 0
case 19200: return speed_t(B19200) probeStatus = "Searching for VU1 Hub..."
case 38400: return speed_t(B38400)
case 57600: return speed_t(B57600) DispatchQueue.global().async { [weak self] in
case 115200: return speed_t(B115200) guard let self = self else { return }
case 230400: return speed_t(B230400)
default: return speed_t(B115200) for (index, port) in self.availablePorts.enumerated() {
DispatchQueue.main.async {
self.probeProgress = Double(index + 1) / Double(self.availablePorts.count)
self.probeStatus = "Checking: \(port.name)"
}
if port.isVUMeter || port.path.contains("usbserial") {
DispatchQueue.main.async {
self.detectedDevice = port
self.selectedPortPath = port.path
self.probeStatus = "Found: \(port.name)"
self.isProbing = false
}
return
}
}
DispatchQueue.main.async {
self.isProbing = false
self.probeStatus = "No VU1 Hub found"
}
} }
} }
/// Available baud rates func stopAutoProbe() {
isProbing = false
}
// MARK: - Static
static let availableBaudRates = [9600, 19200, 38400, 57600, 115200, 230400] static let availableBaudRates = [9600, 19200, 38400, 57600, 115200, 230400]
} }
// MARK: - Dial Config Channel Extension
extension DialConfig {
var dialChannel: DialChannel {
get { DialChannel(rawValue: channel) ?? .audioLeft }
set { channel = newValue.rawValue }
}
}
@@ -0,0 +1,524 @@
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COMBINE_HIDPI_IMAGES = YES;
CURRENT_PROJECT_VERSION = 1;
DEVELOPMENT_ASSET_PATHS = "";
ENABLE_HARDENED_RUNTIME = YES;
ENABLE_PREVIEWS = YES;
GENERATE_INFOPLIST_FILE = YES;
INFOPLIST_FILE = "FT991A-Remote/Info.plist";
INFOPLIST_KEY_CFBundleDisplayName = "FT-991A Remote";
INFOPLIST_KEY_LSApplicationCategoryType = "public.app-category.utilities";
INFOPLIST_KEY_NSHumanReadableCopyright = "Copyright 2024";
INFOPLIST_KEY_NSMicrophoneUsageDescription = "FT-991A Remote needs microphone access for audio monitoring and digital modes.";
LD_RUNPATH_SEARCH_PATHS = (
"$(inherited)",
"@executable_path/../Frameworks",
);
MARKETING_VERSION = 1.0;
PRODUCT_BUNDLE_IDENTIFIER = "com.hamradio.FT991A-Remote";
PRODUCT_NAME = "$(TARGET_NAME)";
SWIFT_EMIT_LOC_STRINGS = YES;
SWIFT_VERSION = 5.0;
};
name = Debug;
};
AE0000002 /* Release */ = {
isa = XCBuildConfiguration;
buildSettings = {
ASSETCATALOG_COMPILER_APPICON_NAME = AppIcon;
ASSETCATALOG_COMPILER_GLOBAL_ACCENT_COLOR_NAME = AccentColor;
CODE_SIGN_ENTITLEMENTS = "FT991A-Remote/FT991A_Remote.entitlements";
CODE_SIGN_STYLE = Automatic;
COMBINE_HIDPI_IMAGES = YES;
CURRENT_PROJECT_VERSION = 1;
DEVELOPMENT_ASSET_PATHS = "";
ENABLE_HARDENED_RUNTIME = YES;
ENABLE_PREVIEWS = YES;
GENERATE_INFOPLIST_FILE = YES;
INFOPLIST_FILE = "FT991A-Remote/Info.plist";
INFOPLIST_KEY_CFBundleDisplayName = "FT-991A Remote";
INFOPLIST_KEY_LSApplicationCategoryType = "public.app-category.utilities";
INFOPLIST_KEY_NSHumanReadableCopyright = "Copyright 2024";
INFOPLIST_KEY_NSMicrophoneUsageDescription = "FT-991A Remote needs microphone access for audio monitoring and digital modes.";
LD_RUNPATH_SEARCH_PATHS = (
"$(inherited)",
"@executable_path/../Frameworks",
);
MARKETING_VERSION = 1.0;
PRODUCT_BUNDLE_IDENTIFIER = "com.hamradio.FT991A-Remote";
PRODUCT_NAME = "$(TARGET_NAME)";
SWIFT_EMIT_LOC_STRINGS = YES;
SWIFT_VERSION = 5.0;
};
name = Release;
};
/* End XCBuildConfiguration section */
/* Begin XCConfigurationList section */
A70000001 /* Build configuration list for PBXNativeTarget "FT991A-Remote" */ = {
isa = XCConfigurationList;
buildConfigurations = (
AE0000001 /* Debug */,
AE0000002 /* Release */,
);
defaultConfigurationIsVisible = 0;
defaultConfigurationName = Release;
};
AC0000001 /* Build configuration list for PBXProject "FT991A-Remote" */ = {
isa = XCConfigurationList;
buildConfigurations = (
AD0000001 /* Debug */,
AD0000002 /* Release */,
);
defaultConfigurationIsVisible = 0;
defaultConfigurationName = Release;
};
/* End XCConfigurationList section */
};
rootObject = AB0000001 /* Project object */;
}
@@ -0,0 +1,38 @@
{
"colors" : [
{
"color" : {
"color-space" : "srgb",
"components" : {
"alpha" : "1.000",
"blue" : "0.984",
"green" : "0.584",
"red" : "0.000"
}
},
"idiom" : "universal"
},
{
"appearances" : [
{
"appearance" : "luminosity",
"value" : "dark"
}
],
"color" : {
"color-space" : "srgb",
"components" : {
"alpha" : "1.000",
"blue" : "1.000",
"green" : "0.678",
"red" : "0.251"
}
},
"idiom" : "universal"
}
],
"info" : {
"author" : "xcode",
"version" : 1
}
}
@@ -0,0 +1,58 @@
{
"images" : [
{
"idiom" : "mac",
"scale" : "1x",
"size" : "16x16"
},
{
"idiom" : "mac",
"scale" : "2x",
"size" : "16x16"
},
{
"idiom" : "mac",
"scale" : "1x",
"size" : "32x32"
},
{
"idiom" : "mac",
"scale" : "2x",
"size" : "32x32"
},
{
"idiom" : "mac",
"scale" : "1x",
"size" : "128x128"
},
{
"idiom" : "mac",
"scale" : "2x",
"size" : "128x128"
},
{
"idiom" : "mac",
"scale" : "1x",
"size" : "256x256"
},
{
"idiom" : "mac",
"scale" : "2x",
"size" : "256x256"
},
{
"idiom" : "mac",
"scale" : "1x",
"size" : "512x512"
},
{
"idiom" : "mac",
"scale" : "2x",
"size" : "512x512"
}
],
"info" : {
"author" : "xcode",
"version" : 1
}
}
@@ -0,0 +1,6 @@
{
"info" : {
"author" : "xcode",
"version" : 1
}
}
@@ -0,0 +1,16 @@
<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE plist PUBLIC "-//Apple//DTD PLIST 1.0//EN" "http://www.apple.com/DTDs/PropertyList-1.0.dtd">
<plist version="1.0">
<dict>
<key>com.apple.security.app-sandbox</key>
<false/>
<key>com.apple.security.device.serial</key>
<true/>
<key>com.apple.security.device.audio-input</key>
<true/>
<key>com.apple.security.files.user-selected.read-write</key>
<true/>
<key>com.apple.security.files.downloads.read-write</key>
<true/>
</dict>
</plist>
@@ -0,0 +1,109 @@
//
// FT991A_RemoteApp.swift
// FT991A-Remote
//
// Yaesu FT-991A Remote Control Application for macOS
// CAT Protocol via USB Serial (Silicon Labs CP210x)
//
import SwiftUI
@main
struct FT991A_RemoteApp: App {
@StateObject private var radioViewModel = RadioViewModel()
@StateObject private var settingsController = SettingsController()
@StateObject private var logViewModel = LogViewModel()
@Environment(\.scenePhase) private var scenePhase
var body: some Scene {
WindowGroup {
MainView()
.environmentObject(radioViewModel)
.environmentObject(settingsController)
.environmentObject(logViewModel)
.frame(minWidth: 800, minHeight: 600)
}
.windowStyle(.hiddenTitleBar)
.commands {
CommandGroup(replacing: .newItem) { }
CommandMenu("Radio") {
Button(radioViewModel.isConnected ? "Trennen" : "Verbinden") {
radioViewModel.toggleConnection()
}
.keyboardShortcut("k", modifiers: .command)
Divider()
Button("VFO A/B tauschen") {
radioViewModel.swapVFO()
}
.keyboardShortcut("s", modifiers: [.command, .shift])
.disabled(!radioViewModel.isConnected)
Button("A=B") {
radioViewModel.equalizeVFO()
}
.keyboardShortcut("e", modifiers: [.command, .shift])
.disabled(!radioViewModel.isConnected)
Divider()
Button("ATU Tune") {
radioViewModel.startATUTune()
}
.keyboardShortcut("t", modifiers: [.command, .shift])
.disabled(!radioViewModel.isConnected)
}
CommandMenu("Ansicht") {
Picker("UI-Stil", selection: $settingsController.uiStyle) {
Text("Modern").tag(UIStyle.modern)
Text("Frontpanel").tag(UIStyle.skeuomorph)
}
Divider()
Toggle("Debug-Panel anzeigen", isOn: $settingsController.showDebugPanel)
.keyboardShortcut("d", modifiers: [.command, .option])
Toggle("Log-Panel anzeigen", isOn: $settingsController.showLogPanel)
.keyboardShortcut("l", modifiers: [.command, .option])
}
}
Settings {
SettingsView()
.environmentObject(radioViewModel)
.environmentObject(settingsController)
}
MenuBarExtra("FT-991A", systemImage: radioViewModel.isConnected ? "antenna.radiowaves.left.and.right" : "antenna.radiowaves.left.and.right.slash") {
MenuBarView()
.environmentObject(radioViewModel)
.environmentObject(settingsController)
}
}
}
// MARK: - UI Style Enum
enum UIStyle: String, Codable, CaseIterable {
case modern = "Modern"
case skeuomorph = "Frontpanel"
}
// MARK: - Language Enum
enum AppLanguage: String, Codable, CaseIterable {
case german = "de"
case english = "en"
var displayName: String {
switch self {
case .german: return "Deutsch"
case .english: return "English"
}
}
}
+53
View File
@@ -0,0 +1,53 @@
<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE plist PUBLIC "-//Apple//DTD PLIST 1.0//EN" "http://www.apple.com/DTDs/PropertyList-1.0.dtd">
<plist version="1.0">
<dict>
<key>CFBundleDevelopmentRegion</key>
<string>de</string>
<key>CFBundleExecutable</key>
<string>$(EXECUTABLE_NAME)</string>
<key>CFBundleIdentifier</key>
<string>$(PRODUCT_BUNDLE_IDENTIFIER)</string>
<key>CFBundleInfoDictionaryVersion</key>
<string>6.0</string>
<key>CFBundleName</key>
<string>$(PRODUCT_NAME)</string>
<key>CFBundlePackageType</key>
<string>APPL</string>
<key>CFBundleShortVersionString</key>
<string>1.0</string>
<key>CFBundleVersion</key>
<string>1</string>
<key>LSApplicationCategoryType</key>
<string>public.app-category.utilities</string>
<key>LSMinimumSystemVersion</key>
<string>$(MACOSX_DEPLOYMENT_TARGET)</string>
<key>NSHumanReadableCopyright</key>
<string>Copyright 2024</string>
<key>NSPrincipalClass</key>
<string>NSApplication</string>
<key>CFBundleDocumentTypes</key>
<array>
<dict>
<key>CFBundleTypeExtensions</key>
<array>
<string>csv</string>
</array>
<key>CFBundleTypeName</key>
<string>QSO Log File</string>
<key>CFBundleTypeRole</key>
<string>Editor</string>
<key>LSItemContentTypes</key>
<array>
<string>public.comma-separated-values-text</string>
</array>
</dict>
</array>
<key>LSUIElement</key>
<false/>
<key>NSAppleEventsUsageDescription</key>
<string>FT-991A Remote needs to control other applications for audio routing.</string>
<key>NSMicrophoneUsageDescription</key>
<string>FT-991A Remote needs microphone access for audio monitoring and digital modes.</string>
</dict>
</plist>
@@ -0,0 +1,266 @@
//
// CATCommand.swift
// FT991A-Remote
//
// CAT Command definitions for FT-991A
//
import Foundation
// MARK: - CAT Command
struct CATCommand {
let command: String
let description: String
let expectsResponse: Bool
init(_ command: String, description: String = "", expectsResponse: Bool = true) {
self.command = command
self.description = description
self.expectsResponse = expectsResponse
}
var data: Data {
(command + ";").data(using: .ascii) ?? Data()
}
}
// MARK: - CAT Commands Catalog
enum CAT {
// MARK: - Frequency Commands
/// Read VFO-A frequency
static let readVFOA = CATCommand("FA", description: "Read VFO-A frequency")
/// Set VFO-A frequency (9 digits in Hz)
static func setVFOA(_ frequency: Int) -> CATCommand {
CATCommand(String(format: "FA%09d", frequency), description: "Set VFO-A to \(frequency) Hz", expectsResponse: false)
}
/// Read VFO-B frequency
static let readVFOB = CATCommand("FB", description: "Read VFO-B frequency")
/// Set VFO-B frequency (9 digits in Hz)
static func setVFOB(_ frequency: Int) -> CATCommand {
CATCommand(String(format: "FB%09d", frequency), description: "Set VFO-B to \(frequency) Hz", expectsResponse: false)
}
/// Swap VFO A/B
static let swapVFO = CATCommand("SV", description: "Swap VFO A/B", expectsResponse: false)
/// Select VFO-A
static let selectVFOA = CATCommand("VS0", description: "Select VFO-A", expectsResponse: false)
/// Select VFO-B
static let selectVFOB = CATCommand("VS1", description: "Select VFO-B", expectsResponse: false)
/// Read active VFO
static let readActiveVFO = CATCommand("VS", description: "Read active VFO")
// MARK: - Mode Commands
/// Read operating mode
static let readMode = CATCommand("MD0", description: "Read operating mode")
/// Set operating mode
static func setMode(_ mode: OperatingMode) -> CATCommand {
CATCommand("MD0\(mode.catValue)", description: "Set mode to \(mode.rawValue)", expectsResponse: false)
}
// MARK: - Level Commands
/// Read AF gain
static let readAFGain = CATCommand("AG0", description: "Read AF gain")
/// Set AF gain (000-255)
static func setAFGain(_ value: Int) -> CATCommand {
CATCommand(String(format: "AG0%03d", min(255, max(0, value))), description: "Set AF gain", expectsResponse: false)
}
/// Read RF gain
static let readRFGain = CATCommand("RG0", description: "Read RF gain")
/// Set RF gain (000-255)
static func setRFGain(_ value: Int) -> CATCommand {
CATCommand(String(format: "RG0%03d", min(255, max(0, value))), description: "Set RF gain", expectsResponse: false)
}
/// Read squelch
static let readSquelch = CATCommand("SQ0", description: "Read squelch")
/// Set squelch (000-255)
static func setSquelch(_ value: Int) -> CATCommand {
CATCommand(String(format: "SQ0%03d", min(255, max(0, value))), description: "Set squelch", expectsResponse: false)
}
/// Read MIC gain
static let readMICGain = CATCommand("MG", description: "Read MIC gain")
/// Set MIC gain (000-100)
static func setMICGain(_ value: Int) -> CATCommand {
CATCommand(String(format: "MG%03d", min(100, max(0, value))), description: "Set MIC gain", expectsResponse: false)
}
/// Read power level
static let readPower = CATCommand("PC", description: "Read power level")
/// Set power level (005-100)
static func setPower(_ value: Int) -> CATCommand {
CATCommand(String(format: "PC%03d", min(100, max(5, value))), description: "Set power to \(value)W", expectsResponse: false)
}
// MARK: - Function Commands
/// Read Noise Blanker status
static let readNB = CATCommand("NB0", description: "Read NB status")
/// Set Noise Blanker on/off
static func setNB(_ enabled: Bool) -> CATCommand {
CATCommand("NB0\(enabled ? "1" : "0")", description: enabled ? "Enable NB" : "Disable NB", expectsResponse: false)
}
/// Read Noise Reduction status
static let readNR = CATCommand("NR0", description: "Read NR status")
/// Set Noise Reduction on/off
static func setNR(_ enabled: Bool) -> CATCommand {
CATCommand("NR0\(enabled ? "1" : "0")", description: enabled ? "Enable NR" : "Disable NR", expectsResponse: false)
}
/// Read DNF status
static let readDNF = CATCommand("BC0", description: "Read DNF status")
/// Set DNF on/off
static func setDNF(_ enabled: Bool) -> CATCommand {
CATCommand("BC0\(enabled ? "1" : "0")", description: enabled ? "Enable DNF" : "Disable DNF", expectsResponse: false)
}
/// Read Contour status
static let readContour = CATCommand("CO00", description: "Read Contour status")
/// Read ATU status
static let readATU = CATCommand("AC", description: "Read ATU status")
/// Start ATU tune
static let startATUTune = CATCommand("AC001", description: "Start ATU tune", expectsResponse: false)
/// Read Split status
static let readSplit = CATCommand("FT", description: "Read Split status")
/// Set Split on/off
static func setSplit(_ enabled: Bool) -> CATCommand {
CATCommand("FT\(enabled ? "1" : "0")", description: enabled ? "Enable Split" : "Disable Split", expectsResponse: false)
}
// MARK: - Metering Commands
/// Read S-Meter
static let readSMeter = CATCommand("SM0", description: "Read S-Meter")
/// Read Power meter
static let readPowerMeter = CATCommand("RM1", description: "Read Power meter")
/// Read SWR meter
static let readSWRMeter = CATCommand("RM6", description: "Read SWR meter")
// MARK: - PTT Commands
/// Start transmitting (MIC)
static let txOn = CATCommand("TX0", description: "TX on (MIC)", expectsResponse: false)
/// Start transmitting (DATA)
static let txOnData = CATCommand("TX1", description: "TX on (DATA)", expectsResponse: false)
/// Stop transmitting
static let txOff = CATCommand("RX", description: "TX off", expectsResponse: false)
/// Read TX status
static let readTXStatus = CATCommand("TX", description: "Read TX status")
// MARK: - Identification
/// Read radio ID
static let readID = CATCommand("ID", description: "Read radio ID")
// MARK: - Information
/// Read all status (IF command)
static let readInfo = CATCommand("IF", description: "Read info")
}
// MARK: - CAT Response
struct CATResponse {
let command: String
let value: String
let rawData: String
let timestamp: Date
init(rawData: String) {
self.rawData = rawData.trimmingCharacters(in: CharacterSet(charactersIn: ";\r\n"))
self.timestamp = Date()
// Parse command prefix (2 characters usually)
if rawData.count >= 2 {
let prefixEnd = rawData.index(rawData.startIndex, offsetBy: 2)
self.command = String(rawData[..<prefixEnd])
self.value = String(rawData[prefixEnd...]).trimmingCharacters(in: CharacterSet(charactersIn: ";\r\n"))
} else {
self.command = rawData
self.value = ""
}
}
// MARK: - Value Parsers
/// Parse frequency from FA/FB response (9 digits)
var frequency: Int? {
guard command == "FA" || command == "FB" else { return nil }
return Int(value)
}
/// Parse mode from MD0 response
var mode: OperatingMode? {
guard command == "MD" else { return nil }
let modeChar = value.dropFirst() // Remove "0" prefix
return OperatingMode.from(catValue: String(modeChar))
}
/// Parse level value (3 digits)
var levelValue: Int? {
// Handle commands like AG0XXX, RG0XXX, SQ0XXX
let numericPart = value.filter { $0.isNumber }
return Int(numericPart)
}
/// Parse S-Meter from SM0 response
var sMeter: Int? {
guard command == "SM" else { return nil }
// SM0XXX format - drop the "0" prefix
let numericPart = value.dropFirst()
return Int(numericPart)
}
/// Parse boolean status (0 or 1)
var boolValue: Bool? {
guard let last = value.last else { return nil }
return last == "1"
}
/// Parse VFO selection
var vfo: VFO? {
guard command == "VS" else { return nil }
switch value {
case "0": return .a
case "1": return .b
default: return nil
}
}
/// Check if this is the FT-991A ID
var isFT991A: Bool {
command == "ID" && value == "0670"
}
}
@@ -0,0 +1,163 @@
//
// QSOEntry.swift
// FT991A-Remote
//
// Model for QSO log entries
//
import Foundation
// MARK: - QSO Entry
struct QSOEntry: Identifiable, Codable, Hashable {
let id: UUID
var callsign: String
var date: Date
var frequency: Int // Hz
var mode: OperatingMode
var rstSent: String // e.g., "59", "599"
var rstReceived: String
var name: String
var qth: String
var locator: String // Maidenhead grid
var power: Int // Watts
var notes: String
init(
id: UUID = UUID(),
callsign: String = "",
date: Date = Date(),
frequency: Int = 14_250_000,
mode: OperatingMode = .usb,
rstSent: String = "59",
rstReceived: String = "59",
name: String = "",
qth: String = "",
locator: String = "",
power: Int = 100,
notes: String = ""
) {
self.id = id
self.callsign = callsign
self.date = date
self.frequency = frequency
self.mode = mode
self.rstSent = rstSent
self.rstReceived = rstReceived
self.name = name
self.qth = qth
self.locator = locator
self.power = power
self.notes = notes
}
// MARK: - CSV Export
static let csvHeader = "Call,Date,Time,Frequency,Mode,RST_TX,RST_RX,Name,QTH,Locator,Power,Notes"
var csvLine: String {
let dateFormatter = DateFormatter()
dateFormatter.dateFormat = "yyyy-MM-dd"
let timeFormatter = DateFormatter()
timeFormatter.dateFormat = "HH:mm:ss"
timeFormatter.timeZone = TimeZone(identifier: "UTC")
let freqMHz = String(format: "%.6f", Double(frequency) / 1_000_000.0)
// Escape fields with commas or quotes
let escapedNotes = notes.contains(",") || notes.contains("\"")
? "\"\(notes.replacingOccurrences(of: "\"", with: "\"\""))\""
: notes
let escapedName = name.contains(",") || name.contains("\"")
? "\"\(name.replacingOccurrences(of: "\"", with: "\"\""))\""
: name
return [
callsign,
dateFormatter.string(from: date),
timeFormatter.string(from: date),
freqMHz,
mode.rawValue,
rstSent,
rstReceived,
escapedName,
qth,
locator,
String(power),
escapedNotes
].joined(separator: ",")
}
// MARK: - CSV Import
static func from(csvLine: String) -> QSOEntry? {
var fields: [String] = []
var current = ""
var inQuotes = false
for char in csvLine {
if char == "\"" {
inQuotes.toggle()
} else if char == "," && !inQuotes {
fields.append(current)
current = ""
} else {
current.append(char)
}
}
fields.append(current)
guard fields.count >= 12 else { return nil }
let dateFormatter = DateFormatter()
dateFormatter.dateFormat = "yyyy-MM-dd HH:mm:ss"
dateFormatter.timeZone = TimeZone(identifier: "UTC")
guard let date = dateFormatter.date(from: "\(fields[1]) \(fields[2])") else { return nil }
guard let freqMHz = Double(fields[3]) else { return nil }
let frequency = Int(freqMHz * 1_000_000)
let mode = OperatingMode.allCases.first { $0.rawValue == fields[4] } ?? .usb
return QSOEntry(
callsign: fields[0],
date: date,
frequency: frequency,
mode: mode,
rstSent: fields[5],
rstReceived: fields[6],
name: fields[7],
qth: fields[8],
locator: fields[9],
power: Int(fields[10]) ?? 100,
notes: fields[11]
)
}
// MARK: - Display Helpers
var frequencyDisplay: String {
let mhz = frequency / 1_000_000
let khz = (frequency % 1_000_000) / 1_000
let hz = frequency % 1_000
return String(format: "%d.%03d.%03d", mhz, khz, hz)
}
var dateDisplay: String {
let formatter = DateFormatter()
formatter.dateFormat = "dd.MM.yyyy"
return formatter.string(from: date)
}
var timeDisplay: String {
let formatter = DateFormatter()
formatter.dateFormat = "HH:mm"
formatter.timeZone = TimeZone(identifier: "UTC")
return formatter.string(from: date) + " UTC"
}
var bandDisplay: String {
Band.from(frequency: frequency)?.rawValue ?? "?"
}
}
@@ -0,0 +1,238 @@
//
// RadioState.swift
// FT991A-Remote
//
// Model representing the current state of the FT-991A transceiver
//
import Foundation
// MARK: - Radio State
struct RadioState {
// VFO Frequencies
var vfoAFrequency: Int = 14_250_000 // Hz
var vfoBFrequency: Int = 14_255_000 // Hz
var activeVFO: VFO = .a
// Operating Mode
var mode: OperatingMode = .usb
var filterWidth: Int = 3000 // Hz
var filterShift: Int = 0 // Hz
// Levels (0-255)
var afGain: Int = 128
var rfGain: Int = 255
var squelch: Int = 0
var micGain: Int = 50
var power: Int = 100 // Watts (5-100)
// Functions
var noiseBlanker: Bool = false
var noiseReduction: Bool = false
var dnf: Bool = false
var contour: Bool = false
var atu: Bool = false
var split: Bool = false
var ipo: Bool = false
// Metering
var sMeter: Int = 0 // 0-255
var powerMeter: Int = 0 // 0-255
var swrMeter: Int = 0 // 0-255
// TX State
var isTransmitting: Bool = false
// Computed Properties
var activeFrequency: Int {
activeVFO == .a ? vfoAFrequency : vfoBFrequency
}
var sMeterDB: Double {
// S0-S9 = 0-54 dBμV, each S-unit = 6 dB
// Above S9: +10, +20, +40, +60 dB
let normalized = Double(sMeter) / 255.0
if normalized <= 0.6 {
return normalized / 0.6 * 54.0 // S0-S9
} else {
return 54.0 + (normalized - 0.6) / 0.4 * 60.0 // S9+60
}
}
var sMeterString: String {
let normalized = Double(sMeter) / 255.0
if normalized <= 0.6 {
let sUnit = Int(normalized / 0.6 * 9.0)
return "S\(sUnit)"
} else {
let db = Int((normalized - 0.6) / 0.4 * 60.0)
return "S9+\(db)"
}
}
var frequencyDisplay: String {
formatFrequency(activeFrequency)
}
func formatFrequency(_ freq: Int) -> String {
let mhz = freq / 1_000_000
let khz = (freq % 1_000_000) / 1_000
let hz = freq % 1_000
return String(format: "%d.%03d.%03d", mhz, khz, hz)
}
}
// MARK: - VFO
enum VFO: String, Codable {
case a = "A"
case b = "B"
}
// MARK: - Operating Mode
enum OperatingMode: String, CaseIterable, Codable {
case lsb = "LSB"
case usb = "USB"
case cw = "CW"
case fm = "FM"
case am = "AM"
case rttyLSB = "RTTY-L"
case cwReverse = "CW-R"
case dataLSB = "DATA-L"
case rttyUSB = "RTTY-U"
case dataFM = "DATA-FM"
case fmNarrow = "FM-N"
case dataUSB = "DATA-U"
case amNarrow = "AM-N"
case c4fm = "C4FM"
// CAT command value (MD0X)
var catValue: String {
switch self {
case .lsb: return "1"
case .usb: return "2"
case .cw: return "3"
case .fm: return "4"
case .am: return "5"
case .rttyLSB: return "6"
case .cwReverse: return "7"
case .dataLSB: return "8"
case .rttyUSB: return "9"
case .dataFM: return "A"
case .fmNarrow: return "B"
case .dataUSB: return "C"
case .amNarrow: return "D"
case .c4fm: return "E"
}
}
static func from(catValue: String) -> OperatingMode? {
allCases.first { $0.catValue == catValue }
}
var isDigital: Bool {
switch self {
case .dataLSB, .dataUSB, .dataFM, .rttyLSB, .rttyUSB, .c4fm:
return true
default:
return false
}
}
var defaultFilterWidth: Int {
switch self {
case .lsb, .usb, .dataLSB, .dataUSB: return 3000
case .cw, .cwReverse: return 500
case .am, .amNarrow: return 6000
case .fm, .fmNarrow, .dataFM, .c4fm: return 15000
case .rttyLSB, .rttyUSB: return 500
}
}
}
// MARK: - Frequency Step
enum FrequencyStep: Int, CaseIterable, Codable {
case hz1 = 1
case hz10 = 10
case hz100 = 100
case khz1 = 1000
case khz5 = 5000
case khz10 = 10000
case khz100 = 100000
case mhz1 = 1000000
var displayName: String {
switch self {
case .hz1: return "1 Hz"
case .hz10: return "10 Hz"
case .hz100: return "100 Hz"
case .khz1: return "1 kHz"
case .khz5: return "5 kHz"
case .khz10: return "10 kHz"
case .khz100: return "100 kHz"
case .mhz1: return "1 MHz"
}
}
}
// MARK: - Band
enum Band: String, CaseIterable {
case m160 = "160m"
case m80 = "80m"
case m60 = "60m"
case m40 = "40m"
case m30 = "30m"
case m20 = "20m"
case m17 = "17m"
case m15 = "15m"
case m12 = "12m"
case m10 = "10m"
case m6 = "6m"
case m2 = "2m"
case cm70 = "70cm"
var frequencyRange: ClosedRange<Int> {
switch self {
case .m160: return 1_800_000...2_000_000
case .m80: return 3_500_000...4_000_000
case .m60: return 5_351_500...5_366_500
case .m40: return 7_000_000...7_300_000
case .m30: return 10_100_000...10_150_000
case .m20: return 14_000_000...14_350_000
case .m17: return 18_068_000...18_168_000
case .m15: return 21_000_000...21_450_000
case .m12: return 24_890_000...24_990_000
case .m10: return 28_000_000...29_700_000
case .m6: return 50_000_000...54_000_000
case .m2: return 144_000_000...148_000_000
case .cm70: return 430_000_000...450_000_000
}
}
var defaultFrequency: Int {
switch self {
case .m160: return 1_840_000
case .m80: return 3_700_000
case .m60: return 5_357_000
case .m40: return 7_100_000
case .m30: return 10_120_000
case .m20: return 14_250_000
case .m17: return 18_110_000
case .m15: return 21_250_000
case .m12: return 24_930_000
case .m10: return 28_500_000
case .m6: return 50_150_000
case .m2: return 145_500_000
case .cm70: return 433_500_000
}
}
static func from(frequency: Int) -> Band? {
allCases.first { $0.frequencyRange.contains(frequency) }
}
}
@@ -0,0 +1,123 @@
//
// Settings.swift
// FT991A-Remote
//
// Application settings model
//
import Foundation
// MARK: - App Settings
struct AppSettings: Codable {
// Connection
var serialPort: String = ""
var baudRate: Int = 38400
var autoReconnect: Bool = true
var reconnectInterval: TimeInterval = 5.0
// UI
var uiStyle: UIStyle = .modern
var language: AppLanguage = .german
var showDebugPanel: Bool = false
var showLogPanel: Bool = false
var compactMode: Bool = true
// Frequency
var frequencyStep: FrequencyStep = .khz1
// Logging
var logDirectory: String = "~/Documents/FT991A-Logs/"
var autoSaveLog: Bool = true
// Audio
var audioInputDevice: String = ""
var audioOutputDevice: String = ""
var useBlackHole: Bool = false
// Keyboard
var pttShortcutEnabled: Bool = true
var arrowFrequencyEnabled: Bool = true
var tunerShortcutEnabled: Bool = true
// MARK: - Persistence
static let defaults = AppSettings()
static var settingsURL: URL {
let appSupport = FileManager.default.urls(for: .applicationSupportDirectory, in: .userDomainMask).first!
let appFolder = appSupport.appendingPathComponent("FT991A-Remote", isDirectory: true)
try? FileManager.default.createDirectory(at: appFolder, withIntermediateDirectories: true)
return appFolder.appendingPathComponent("settings.json")
}
static func load() -> AppSettings {
guard FileManager.default.fileExists(atPath: settingsURL.path) else {
return defaults
}
do {
let data = try Data(contentsOf: settingsURL)
return try JSONDecoder().decode(AppSettings.self, from: data)
} catch {
print("Failed to load settings: \(error)")
return defaults
}
}
func save() {
do {
let data = try JSONEncoder().encode(self)
try data.write(to: AppSettings.settingsURL)
} catch {
print("Failed to save settings: \(error)")
}
}
// MARK: - Log Directory
var expandedLogDirectory: String {
(logDirectory as NSString).expandingTildeInPath
}
mutating func ensureLogDirectoryExists() {
let path = expandedLogDirectory
if !FileManager.default.fileExists(atPath: path) {
try? FileManager.default.createDirectory(atPath: path, withIntermediateDirectories: true)
}
}
}
// MARK: - Serial Port Configuration
struct SerialConfig: Codable {
var baudRate: Int = 38400
var dataBits: Int = 8
var stopBits: Int = 1
var parity: Parity = .none
var flowControl: FlowControl = .none
enum Parity: String, Codable, CaseIterable {
case none = "None"
case odd = "Odd"
case even = "Even"
}
enum FlowControl: String, Codable, CaseIterable {
case none = "None"
case hardware = "RTS/CTS"
case software = "XON/XOFF"
}
static let ft991aDefault = SerialConfig(
baudRate: 38400,
dataBits: 8,
stopBits: 1,
parity: .none,
flowControl: .none
)
static let availableBaudRates = [4800, 9600, 19200, 38400, 57600, 115200]
}
@@ -0,0 +1,250 @@
//
// AudioRouter.swift
// FT991A-Remote
//
// BlackHole audio routing integration for digital modes
//
import Foundation
import AVFoundation
// MARK: - Audio Device
struct AudioDevice: Identifiable, Hashable {
let id: AudioDeviceID
let name: String
let uid: String
let isInput: Bool
let isOutput: Bool
let isBlackHole: Bool
var displayName: String {
if isBlackHole {
return "\(name) (Virtual)"
}
return name
}
}
// MARK: - Audio Router
class AudioRouter: ObservableObject {
// MARK: - Published Properties
@Published var inputDevices: [AudioDevice] = []
@Published var outputDevices: [AudioDevice] = []
@Published var selectedInputDevice: AudioDeviceID?
@Published var selectedOutputDevice: AudioDeviceID?
@Published var blackHoleDevice: AudioDevice?
@Published var ft991aDevice: AudioDevice?
@Published var isBlackHoleInstalled = false
@Published var lastError: String?
// MARK: - Initialization
init() {
refreshDevices()
}
// MARK: - Device Discovery
func refreshDevices() {
inputDevices = []
outputDevices = []
var propertyAddress = AudioObjectPropertyAddress(
mSelector: kAudioHardwarePropertyDevices,
mScope: kAudioObjectPropertyScopeGlobal,
mElement: kAudioObjectPropertyElementMain
)
var dataSize: UInt32 = 0
var status = AudioObjectGetPropertyDataSize(
AudioObjectID(kAudioObjectSystemObject),
&propertyAddress,
0, nil,
&dataSize
)
guard status == noErr else {
lastError = "Fehler beim Abrufen der Audio-Geräte"
return
}
let deviceCount = Int(dataSize) / MemoryLayout<AudioDeviceID>.size
var deviceIDs = [AudioDeviceID](repeating: 0, count: deviceCount)
status = AudioObjectGetPropertyData(
AudioObjectID(kAudioObjectSystemObject),
&propertyAddress,
0, nil,
&dataSize,
&deviceIDs
)
guard status == noErr else {
lastError = "Fehler beim Laden der Audio-Geräte"
return
}
for deviceID in deviceIDs {
if let device = createAudioDevice(from: deviceID) {
if device.isInput {
inputDevices.append(device)
}
if device.isOutput {
outputDevices.append(device)
}
// Detect BlackHole
if device.isBlackHole && blackHoleDevice == nil {
blackHoleDevice = device
isBlackHoleInstalled = true
}
// Detect FT-991A (usually shows as "USB Audio CODEC")
if device.name.contains("USB Audio") || device.name.contains("FT-991") {
ft991aDevice = device
}
}
}
Logger.shared.log("Found \(inputDevices.count) input and \(outputDevices.count) output devices", level: .debug)
if isBlackHoleInstalled {
Logger.shared.log("BlackHole detected: \(blackHoleDevice?.name ?? "Unknown")", level: .info)
}
}
private func createAudioDevice(from deviceID: AudioDeviceID) -> AudioDevice? {
// Get device name
var name: CFString = "" as CFString
var nameSize = UInt32(MemoryLayout<CFString>.size)
var propertyAddress = AudioObjectPropertyAddress(
mSelector: kAudioDevicePropertyDeviceNameCFString,
mScope: kAudioObjectPropertyScopeGlobal,
mElement: kAudioObjectPropertyElementMain
)
var status = AudioObjectGetPropertyData(deviceID, &propertyAddress, 0, nil, &nameSize, &name)
guard status == noErr else { return nil }
// Get device UID
var uid: CFString = "" as CFString
var uidSize = UInt32(MemoryLayout<CFString>.size)
propertyAddress.mSelector = kAudioDevicePropertyDeviceUID
status = AudioObjectGetPropertyData(deviceID, &propertyAddress, 0, nil, &uidSize, &uid)
let deviceUID = status == noErr ? uid as String : ""
// Check for input channels
var inputSize: UInt32 = 0
propertyAddress.mSelector = kAudioDevicePropertyStreamConfiguration
propertyAddress.mScope = kAudioDevicePropertyScopeInput
_ = AudioObjectGetPropertyDataSize(deviceID, &propertyAddress, 0, nil, &inputSize)
let hasInput = inputSize > 0
// Check for output channels
var outputSize: UInt32 = 0
propertyAddress.mScope = kAudioDevicePropertyScopeOutput
_ = AudioObjectGetPropertyDataSize(deviceID, &propertyAddress, 0, nil, &outputSize)
let hasOutput = outputSize > 0
let deviceName = name as String
let isBlackHole = deviceName.lowercased().contains("blackhole")
return AudioDevice(
id: deviceID,
name: deviceName,
uid: deviceUID,
isInput: hasInput,
isOutput: hasOutput,
isBlackHole: isBlackHole
)
}
// MARK: - Device Selection
func selectInputDevice(_ device: AudioDevice) {
selectedInputDevice = device.id
Logger.shared.log("Selected input device: \(device.name)", level: .info)
}
func selectOutputDevice(_ device: AudioDevice) {
selectedOutputDevice = device.id
Logger.shared.log("Selected output device: \(device.name)", level: .info)
}
// MARK: - BlackHole Setup
func configureForDigitalModes() -> Bool {
guard isBlackHoleInstalled, let blackHole = blackHoleDevice else {
lastError = "BlackHole ist nicht installiert"
return false
}
// Route: FT-991A USB Audio BlackHole Digital Mode App
// Route back: Digital Mode App BlackHole FT-991A USB Audio
if let ft991a = ft991aDevice {
selectedInputDevice = ft991a.id // FT-991A as input (RX audio)
selectedOutputDevice = blackHole.id // BlackHole as output (to digital mode app)
Logger.shared.log("Configured for digital modes: \(ft991a.name)\(blackHole.name)", level: .info)
return true
} else {
lastError = "FT-991A Audio-Gerät nicht gefunden"
return false
}
}
// MARK: - System Audio
func setSystemDefaultInput(_ deviceID: AudioDeviceID) {
var propertyAddress = AudioObjectPropertyAddress(
mSelector: kAudioHardwarePropertyDefaultInputDevice,
mScope: kAudioObjectPropertyScopeGlobal,
mElement: kAudioObjectPropertyElementMain
)
var deviceIDVar = deviceID
let status = AudioObjectSetPropertyData(
AudioObjectID(kAudioObjectSystemObject),
&propertyAddress,
0, nil,
UInt32(MemoryLayout<AudioDeviceID>.size),
&deviceIDVar
)
if status != noErr {
lastError = "Fehler beim Setzen des Standard-Eingangs"
}
}
func setSystemDefaultOutput(_ deviceID: AudioDeviceID) {
var propertyAddress = AudioObjectPropertyAddress(
mSelector: kAudioHardwarePropertyDefaultOutputDevice,
mScope: kAudioObjectPropertyScopeGlobal,
mElement: kAudioObjectPropertyElementMain
)
var deviceIDVar = deviceID
let status = AudioObjectSetPropertyData(
AudioObjectID(kAudioObjectSystemObject),
&propertyAddress,
0, nil,
UInt32(MemoryLayout<AudioDeviceID>.size),
&deviceIDVar
)
if status != noErr {
lastError = "Fehler beim Setzen des Standard-Ausgangs"
}
}
}
@@ -0,0 +1,442 @@
//
// CATProtocol.swift
// FT991A-Remote
//
// CAT Protocol handler for FT-991A communication
//
import Foundation
import Combine
// MARK: - CAT Protocol
class CATProtocol: ObservableObject {
// MARK: - Published Properties
@Published var radioState = RadioState()
@Published var isPolling = false
@Published var lastCommandTime: Date?
@Published var pendingCommands: Int = 0
// Debug console
@Published var commandHistory: [CommandLogEntry] = []
// MARK: - Private Properties
private let serialManager: SerialPortManager
private var responseQueue: [CATResponse] = []
private var pollingTimer: Timer?
private var cancellables = Set<AnyCancellable>()
private let commandQueue = DispatchQueue(label: "cat.command", qos: .userInitiated)
private var commandSemaphore = DispatchSemaphore(value: 1)
// Polling intervals
private let fastPollInterval: TimeInterval = 0.1 // 100ms for meters
private let slowPollInterval: TimeInterval = 0.5 // 500ms for frequency/mode
// MARK: - Initialization
init(serialManager: SerialPortManager) {
self.serialManager = serialManager
serialManager.onDataReceived = { [weak self] data in
self?.handleReceivedData(data)
}
serialManager.onConnectionChanged = { [weak self] connected in
if connected {
self?.startPolling()
self?.requestInitialState()
} else {
self?.stopPolling()
}
}
}
// MARK: - Command Sending
func send(_ command: CATCommand) {
serialManager.send(command)
lastCommandTime = Date()
// Log command
let entry = CommandLogEntry(
timestamp: Date(),
direction: .sent,
command: command.command,
description: command.description
)
DispatchQueue.main.async {
self.commandHistory.append(entry)
if self.commandHistory.count > 500 {
self.commandHistory.removeFirst(100)
}
}
}
func sendRaw(_ command: String) {
let catCommand = CATCommand(command, description: "Manual: \(command)")
send(catCommand)
}
// MARK: - Response Handling
private func handleReceivedData(_ data: Data) {
guard let responseString = String(data: data, encoding: .ascii) else { return }
let response = CATResponse(rawData: responseString)
// Log response
let entry = CommandLogEntry(
timestamp: Date(),
direction: .received,
command: response.rawData,
description: parseResponseDescription(response)
)
DispatchQueue.main.async {
self.commandHistory.append(entry)
}
// Update radio state
updateState(from: response)
}
private func updateState(from response: CATResponse) {
DispatchQueue.main.async {
switch response.command {
case "FA":
if let freq = response.frequency {
self.radioState.vfoAFrequency = freq
}
case "FB":
if let freq = response.frequency {
self.radioState.vfoBFrequency = freq
}
case "VS":
if let vfo = response.vfo {
self.radioState.activeVFO = vfo
}
case "MD":
if let mode = response.mode {
self.radioState.mode = mode
}
case "AG":
if let level = response.levelValue {
self.radioState.afGain = level
}
case "RG":
if let level = response.levelValue {
self.radioState.rfGain = level
}
case "SQ":
if let level = response.levelValue {
self.radioState.squelch = level
}
case "MG":
if let level = response.levelValue {
self.radioState.micGain = level
}
case "PC":
if let power = response.levelValue {
self.radioState.power = power
}
case "SM":
if let meter = response.sMeter {
self.radioState.sMeter = meter
}
case "RM":
// RM1 = power, RM6 = SWR
if let level = response.levelValue {
if response.value.hasPrefix("1") {
self.radioState.powerMeter = level
} else if response.value.hasPrefix("6") {
self.radioState.swrMeter = level
}
}
case "NB":
if let enabled = response.boolValue {
self.radioState.noiseBlanker = enabled
}
case "NR":
if let enabled = response.boolValue {
self.radioState.noiseReduction = enabled
}
case "BC":
if let enabled = response.boolValue {
self.radioState.dnf = enabled
}
case "FT":
if let enabled = response.boolValue {
self.radioState.split = enabled
}
case "TX":
if response.value == "0" {
self.radioState.isTransmitting = false
} else if response.value == "1" || response.value == "2" {
self.radioState.isTransmitting = true
}
default:
break
}
}
}
private func parseResponseDescription(_ response: CATResponse) -> String {
switch response.command {
case "FA":
if let freq = response.frequency {
return "VFO-A: \(radioState.formatFrequency(freq)) Hz"
}
case "FB":
if let freq = response.frequency {
return "VFO-B: \(radioState.formatFrequency(freq)) Hz"
}
case "MD":
if let mode = response.mode {
return "Mode: \(mode.rawValue)"
}
case "SM":
if let meter = response.sMeter {
return "S-Meter: \(meter)"
}
case "ID":
if response.isFT991A {
return "FT-991A identified"
}
default:
break
}
return response.value
}
// MARK: - Polling
func startPolling() {
guard !isPolling else { return }
isPolling = true
// Fast polling for meters
pollingTimer = Timer.scheduledTimer(withTimeInterval: fastPollInterval, repeats: true) { [weak self] _ in
self?.pollMeters()
}
// Start slow polling for frequency/mode
Timer.scheduledTimer(withTimeInterval: slowPollInterval, repeats: true) { [weak self] _ in
self?.pollStatus()
}
}
func stopPolling() {
pollingTimer?.invalidate()
pollingTimer = nil
isPolling = false
}
private func pollMeters() {
send(CAT.readSMeter)
if radioState.isTransmitting {
send(CAT.readPowerMeter)
send(CAT.readSWRMeter)
}
}
private func pollStatus() {
send(CAT.readVFOA)
send(CAT.readVFOB)
send(CAT.readActiveVFO)
send(CAT.readMode)
}
// MARK: - Initial State
private func requestInitialState() {
// Verify radio identity
send(CAT.readID)
// Request all current values
send(CAT.readVFOA)
send(CAT.readVFOB)
send(CAT.readActiveVFO)
send(CAT.readMode)
send(CAT.readAFGain)
send(CAT.readRFGain)
send(CAT.readSquelch)
send(CAT.readMICGain)
send(CAT.readPower)
send(CAT.readNB)
send(CAT.readNR)
send(CAT.readDNF)
send(CAT.readSplit)
send(CAT.readSMeter)
}
// MARK: - Radio Control
func setFrequency(_ frequency: Int, vfo: VFO = .a) {
if vfo == .a {
send(CAT.setVFOA(frequency))
radioState.vfoAFrequency = frequency
} else {
send(CAT.setVFOB(frequency))
radioState.vfoBFrequency = frequency
}
}
func changeFrequency(by step: Int) {
let newFreq = radioState.activeFrequency + step
setFrequency(newFreq, vfo: radioState.activeVFO)
}
func setMode(_ mode: OperatingMode) {
send(CAT.setMode(mode))
radioState.mode = mode
}
func setAFGain(_ value: Int) {
send(CAT.setAFGain(value))
radioState.afGain = value
}
func setRFGain(_ value: Int) {
send(CAT.setRFGain(value))
radioState.rfGain = value
}
func setSquelch(_ value: Int) {
send(CAT.setSquelch(value))
radioState.squelch = value
}
func setMICGain(_ value: Int) {
send(CAT.setMICGain(value))
radioState.micGain = value
}
func setPower(_ value: Int) {
send(CAT.setPower(value))
radioState.power = value
}
func toggleNB() {
let newValue = !radioState.noiseBlanker
send(CAT.setNB(newValue))
radioState.noiseBlanker = newValue
}
func toggleNR() {
let newValue = !radioState.noiseReduction
send(CAT.setNR(newValue))
radioState.noiseReduction = newValue
}
func toggleDNF() {
let newValue = !radioState.dnf
send(CAT.setDNF(newValue))
radioState.dnf = newValue
}
func toggleSplit() {
let newValue = !radioState.split
send(CAT.setSplit(newValue))
radioState.split = newValue
}
func selectVFO(_ vfo: VFO) {
if vfo == .a {
send(CAT.selectVFOA)
} else {
send(CAT.selectVFOB)
}
radioState.activeVFO = vfo
}
func swapVFO() {
send(CAT.swapVFO)
let temp = radioState.vfoAFrequency
radioState.vfoAFrequency = radioState.vfoBFrequency
radioState.vfoBFrequency = temp
}
func equalizeVFO() {
// Set VFO-B to VFO-A frequency
send(CAT.setVFOB(radioState.vfoAFrequency))
radioState.vfoBFrequency = radioState.vfoAFrequency
}
func startATUTune() {
send(CAT.startATUTune)
}
// MARK: - PTT Control
func startTransmit(dataMode: Bool = false) {
if dataMode {
send(CAT.txOnData)
} else {
send(CAT.txOn)
}
radioState.isTransmitting = true
}
func stopTransmit() {
send(CAT.txOff)
radioState.isTransmitting = false
}
func toggleTransmit(dataMode: Bool = false) {
if radioState.isTransmitting {
stopTransmit()
} else {
startTransmit(dataMode: dataMode)
}
}
// MARK: - Band Selection
func selectBand(_ band: Band) {
setFrequency(band.defaultFrequency, vfo: radioState.activeVFO)
}
// MARK: - Debug
func clearCommandHistory() {
commandHistory.removeAll()
}
}
// MARK: - Command Log Entry
struct CommandLogEntry: Identifiable {
let id = UUID()
let timestamp: Date
let direction: Direction
let command: String
let description: String
enum Direction {
case sent
case received
var symbol: String {
switch self {
case .sent: return ""
case .received: return ""
}
}
var color: String {
switch self {
case .sent: return "blue"
case .received: return "green"
}
}
}
var timeString: String {
let formatter = DateFormatter()
formatter.dateFormat = "HH:mm:ss.SSS"
return formatter.string(from: timestamp)
}
}
@@ -0,0 +1,240 @@
//
// CSVManager.swift
// FT991A-Remote
//
// CSV Log file management
//
import Foundation
// MARK: - CSV Manager
class CSVManager: ObservableObject {
// MARK: - Published Properties
@Published var logEntries: [QSOEntry] = []
@Published var currentLogFile: URL?
@Published var lastError: String?
@Published var isSaving = false
// MARK: - Properties
private let fileManager = FileManager.default
private var logDirectory: URL
// MARK: - Initialization
init(logDirectory: String = "~/Documents/FT991A-Logs/") {
let expandedPath = (logDirectory as NSString).expandingTildeInPath
self.logDirectory = URL(fileURLWithPath: expandedPath, isDirectory: true)
ensureDirectoryExists()
}
// MARK: - Directory Management
private func ensureDirectoryExists() {
if !fileManager.fileExists(atPath: logDirectory.path) {
do {
try fileManager.createDirectory(at: logDirectory, withIntermediateDirectories: true)
Logger.shared.log("Created log directory: \(logDirectory.path)", level: .info)
} catch {
lastError = "Konnte Log-Verzeichnis nicht erstellen: \(error.localizedDescription)"
Logger.shared.log(lastError!, level: .error)
}
}
}
func setLogDirectory(_ path: String) {
let expandedPath = (path as NSString).expandingTildeInPath
logDirectory = URL(fileURLWithPath: expandedPath, isDirectory: true)
ensureDirectoryExists()
}
// MARK: - File Operations
func createNewLogFile(name: String? = nil) -> URL {
let fileName = name ?? generateLogFileName()
let fileURL = logDirectory.appendingPathComponent(fileName)
// Write header
do {
try QSOEntry.csvHeader.appending("\n").write(to: fileURL, atomically: true, encoding: .utf8)
currentLogFile = fileURL
Logger.shared.log("Created new log file: \(fileURL.lastPathComponent)", level: .info)
} catch {
lastError = "Konnte Log-Datei nicht erstellen: \(error.localizedDescription)"
Logger.shared.log(lastError!, level: .error)
}
return fileURL
}
private func generateLogFileName() -> String {
let formatter = DateFormatter()
formatter.dateFormat = "yyyy-MM-dd_HHmmss"
return "QSO_Log_\(formatter.string(from: Date())).csv"
}
func openLogFile(_ url: URL) -> Bool {
guard fileManager.fileExists(atPath: url.path) else {
lastError = "Datei existiert nicht: \(url.lastPathComponent)"
return false
}
do {
let content = try String(contentsOf: url, encoding: .utf8)
logEntries = parseCSV(content)
currentLogFile = url
Logger.shared.log("Opened log file: \(url.lastPathComponent) with \(logEntries.count) entries", level: .info)
return true
} catch {
lastError = "Konnte Datei nicht lesen: \(error.localizedDescription)"
Logger.shared.log(lastError!, level: .error)
return false
}
}
// MARK: - Parsing
private func parseCSV(_ content: String) -> [QSOEntry] {
var entries: [QSOEntry] = []
let lines = content.components(separatedBy: .newlines)
for (index, line) in lines.enumerated() {
// Skip header and empty lines
guard index > 0, !line.trimmingCharacters(in: .whitespaces).isEmpty else { continue }
if let entry = QSOEntry.from(csvLine: line) {
entries.append(entry)
}
}
return entries
}
// MARK: - Entry Management
func addEntry(_ entry: QSOEntry) {
logEntries.append(entry)
saveCurrentLog()
}
func updateEntry(_ entry: QSOEntry) {
if let index = logEntries.firstIndex(where: { $0.id == entry.id }) {
logEntries[index] = entry
saveCurrentLog()
}
}
func deleteEntry(_ entry: QSOEntry) {
logEntries.removeAll { $0.id == entry.id }
saveCurrentLog()
}
func deleteEntries(at offsets: IndexSet) {
logEntries.remove(atOffsets: offsets)
saveCurrentLog()
}
// MARK: - Saving
func saveCurrentLog() {
guard let fileURL = currentLogFile else {
// Create new file if none exists
_ = createNewLogFile()
guard let newURL = currentLogFile else { return }
saveToFile(newURL)
return
}
saveToFile(fileURL)
}
private func saveToFile(_ url: URL) {
isSaving = true
var content = QSOEntry.csvHeader + "\n"
for entry in logEntries {
content += entry.csvLine + "\n"
}
do {
try content.write(to: url, atomically: true, encoding: .utf8)
Logger.shared.log("Saved \(logEntries.count) entries to \(url.lastPathComponent)", level: .debug)
} catch {
lastError = "Fehler beim Speichern: \(error.localizedDescription)"
Logger.shared.log(lastError!, level: .error)
}
isSaving = false
}
func exportToFile(_ url: URL) -> Bool {
var content = QSOEntry.csvHeader + "\n"
for entry in logEntries {
content += entry.csvLine + "\n"
}
do {
try content.write(to: url, atomically: true, encoding: .utf8)
Logger.shared.log("Exported \(logEntries.count) entries to \(url.path)", level: .info)
return true
} catch {
lastError = "Export fehlgeschlagen: \(error.localizedDescription)"
Logger.shared.log(lastError!, level: .error)
return false
}
}
// MARK: - File Listing
func listLogFiles() -> [URL] {
do {
let files = try fileManager.contentsOfDirectory(
at: logDirectory,
includingPropertiesForKeys: [.creationDateKey],
options: [.skipsHiddenFiles]
)
return files
.filter { $0.pathExtension.lowercased() == "csv" }
.sorted { url1, url2 in
let date1 = (try? url1.resourceValues(forKeys: [.creationDateKey]).creationDate) ?? Date.distantPast
let date2 = (try? url2.resourceValues(forKeys: [.creationDateKey]).creationDate) ?? Date.distantPast
return date1 > date2
}
} catch {
Logger.shared.log("Error listing log files: \(error)", level: .error)
return []
}
}
// MARK: - Statistics
var totalQSOs: Int {
logEntries.count
}
var uniqueCallsigns: Int {
Set(logEntries.map { $0.callsign.uppercased() }).count
}
var bandStatistics: [String: Int] {
var stats: [String: Int] = [:]
for entry in logEntries {
let band = entry.bandDisplay
stats[band, default: 0] += 1
}
return stats
}
var modeStatistics: [String: Int] {
var stats: [String: Int] = [:]
for entry in logEntries {
let mode = entry.mode.rawValue
stats[mode, default: 0] += 1
}
return stats
}
}
@@ -0,0 +1,475 @@
//
// SerialPortManager.swift
// FT991A-Remote
//
// USB Serial communication for FT-991A (Silicon Labs CP210x)
//
import Foundation
import IOKit
import IOKit.serial
// MARK: - Serial Port
struct SerialPort: Identifiable, Hashable {
let id: String
let path: String
let name: String
let vendorID: Int?
let productID: Int?
let isFT991A: Bool
init(path: String, name: String, vendorID: Int? = nil, productID: Int? = nil, isFT991A: Bool = false) {
self.id = path
self.path = path
self.name = name
self.vendorID = vendorID
self.productID = productID
self.isFT991A = isFT991A
}
}
// MARK: - Connection State
enum ConnectionState: Equatable {
case disconnected
case connecting
case connected
case error(String)
var isConnected: Bool {
if case .connected = self { return true }
return false
}
var displayString: String {
switch self {
case .disconnected: return "Getrennt"
case .connecting: return "Verbinde..."
case .connected: return "Verbunden"
case .error(let msg): return "Fehler: \(msg)"
}
}
}
// MARK: - Serial Port Manager
class SerialPortManager: ObservableObject {
// MARK: - Published Properties
@Published var connectionState: ConnectionState = .disconnected
@Published var availablePorts: [SerialPort] = []
@Published var selectedPortPath: String = ""
@Published var baudRate: Int = 38400
@Published var lastError: String?
@Published var bytesSent: UInt64 = 0
@Published var bytesReceived: UInt64 = 0
// MARK: - Callbacks
var onDataReceived: ((Data) -> Void)?
var onConnectionChanged: ((Bool) -> Void)?
// MARK: - Private Properties
private var fileDescriptor: Int32 = -1
private let writeQueue = DispatchQueue(label: "ft991a.serial.write", qos: .userInteractive)
private let readQueue = DispatchQueue(label: "ft991a.serial.read", qos: .userInteractive)
private var readBuffer = Data()
private var isReading = false
private var readSource: DispatchSourceRead?
// Auto-reconnect
private var reconnectTimer: Timer?
private var shouldReconnect = false
// MARK: - Constants
private static let CP210X_VENDOR_ID = 0x10C4 // Silicon Labs
private static let CP210X_PRODUCT_ID = 0xEA60 // CP210x
// MARK: - Initialization
init() {
refreshPorts()
}
deinit {
disconnect()
}
// MARK: - Port Discovery
func refreshPorts() {
availablePorts = findSerialPorts()
// Auto-select FT-991A port (CP210x / SLAB)
if let ft991a = availablePorts.first(where: { $0.isFT991A }) {
selectedPortPath = ft991a.path
} else if selectedPortPath.isEmpty, let first = availablePorts.first {
selectedPortPath = first.path
}
}
private func findSerialPorts() -> [SerialPort] {
var ports: [SerialPort] = []
var iterator: io_iterator_t = 0
let matching = IOServiceMatching(kIOSerialBSDServiceValue)
guard IOServiceGetMatchingServices(kIOMainPortDefault, matching, &iterator) == KERN_SUCCESS else {
return ports
}
var service = IOIteratorNext(iterator)
while service != 0 {
defer {
IOObjectRelease(service)
service = IOIteratorNext(iterator)
}
guard let path = IORegistryEntryCreateCFProperty(
service, kIOCalloutDeviceKey as CFString, kCFAllocatorDefault, 0
)?.takeRetainedValue() as? String else { continue }
// Only callout devices (cu.*)
guard path.contains("cu.") else { continue }
var name = path.components(separatedBy: "/").last ?? "Unknown"
var vendorID: Int?
var productID: Int?
var isFT991A = false
// Check for Silicon Labs CP210x (FT-991A uses this)
if path.contains("SLAB_USBtoUART") || path.contains("CP210") {
isFT991A = true
name = "FT-991A (CP210x)"
}
// Walk USB registry for device info
var parent: io_object_t = 0
var current = service
IOObjectRetain(current)
for _ in 0..<10 {
if IORegistryEntryGetParentEntry(current, kIOServicePlane, &parent) != KERN_SUCCESS { break }
IOObjectRelease(current)
current = parent
if let vid = IORegistryEntryCreateCFProperty(current, "idVendor" as CFString, kCFAllocatorDefault, 0)?.takeRetainedValue() as? Int {
vendorID = vid
}
if let pid = IORegistryEntryCreateCFProperty(current, "idProduct" as CFString, kCFAllocatorDefault, 0)?.takeRetainedValue() as? Int {
productID = pid
}
if let usbName = IORegistryEntryCreateCFProperty(current, "USB Product Name" as CFString, kCFAllocatorDefault, 0)?.takeRetainedValue() as? String {
if usbName.contains("CP210") || usbName.contains("UART") {
name = usbName
}
}
// Silicon Labs CP210x = likely FT-991A
if vendorID == Self.CP210X_VENDOR_ID && productID == Self.CP210X_PRODUCT_ID {
isFT991A = true
name = "FT-991A (CP210x)"
}
if vendorID != nil && productID != nil { break }
}
IOObjectRelease(current)
ports.append(SerialPort(
path: path,
name: name,
vendorID: vendorID,
productID: productID,
isFT991A: isFT991A
))
}
IOObjectRelease(iterator)
// Sort: FT-991A first, then alphabetically
return ports.sorted { ($0.isFT991A ? 0 : 1, $0.name) < ($1.isFT991A ? 0 : 1, $1.name) }
}
// MARK: - Connection
func connect() {
guard !selectedPortPath.isEmpty else {
connectionState = .error("Kein Port ausgewählt")
return
}
connectionState = .connecting
// Open port
fileDescriptor = open(selectedPortPath, O_RDWR | O_NOCTTY | O_NONBLOCK)
guard fileDescriptor != -1 else {
let error = String(cString: strerror(errno))
connectionState = .error(error)
lastError = error
return
}
// Configure serial port
if !configurePort() {
close(fileDescriptor)
fileDescriptor = -1
return
}
// Clear buffers
tcflush(fileDescriptor, TCIOFLUSH)
readBuffer.removeAll()
// Start reading
startReading()
connectionState = .connected
lastError = nil
onConnectionChanged?(true)
Logger.shared.log("Connected to \(selectedPortPath) at \(baudRate) baud", level: .info)
}
private func configurePort() -> Bool {
var options = termios()
if tcgetattr(fileDescriptor, &options) != 0 {
connectionState = .error("Fehler beim Lesen der Port-Einstellungen")
return false
}
// Set baud rate
let speed = baudRateToSpeed(baudRate)
cfsetispeed(&options, speed)
cfsetospeed(&options, speed)
// 8N1 configuration
options.c_cflag &= ~UInt(PARENB) // No parity
options.c_cflag &= ~UInt(CSTOPB) // 1 stop bit
options.c_cflag &= ~UInt(CSIZE) // Clear size bits
options.c_cflag |= UInt(CS8) // 8 data bits
// Enable receiver, ignore modem control
options.c_cflag |= UInt(CREAD | CLOCAL)
// No hardware flow control
options.c_cflag &= ~UInt(CRTSCTS)
// Raw mode (no processing)
options.c_lflag &= ~UInt(ICANON | ECHO | ECHOE | ISIG)
options.c_oflag &= ~UInt(OPOST)
options.c_iflag &= ~UInt(IXON | IXOFF | IXANY | ICRNL | INLCR | IGNBRK)
// Timeouts
options.c_cc.16 = 0 // VMIN - minimum characters
options.c_cc.17 = 10 // VTIME - timeout in 0.1s
if tcsetattr(fileDescriptor, TCSANOW, &options) != 0 {
connectionState = .error("Fehler beim Setzen der Port-Einstellungen")
return false
}
return true
}
private func baudRateToSpeed(_ rate: Int) -> speed_t {
switch rate {
case 4800: return speed_t(B4800)
case 9600: return speed_t(B9600)
case 19200: return speed_t(B19200)
case 38400: return speed_t(B38400)
case 57600: return speed_t(B57600)
case 115200: return speed_t(B115200)
default: return speed_t(B38400)
}
}
func disconnect() {
stopReading()
stopReconnectTimer()
if fileDescriptor != -1 {
close(fileDescriptor)
fileDescriptor = -1
}
connectionState = .disconnected
onConnectionChanged?(false)
Logger.shared.log("Disconnected", level: .info)
}
func toggleConnection() {
if connectionState.isConnected {
disconnect()
} else {
connect()
}
}
// MARK: - Reading
private func startReading() {
guard fileDescriptor != -1 else { return }
isReading = true
readSource = DispatchSource.makeReadSource(fileDescriptor: fileDescriptor, queue: readQueue)
readSource?.setEventHandler { [weak self] in
self?.readAvailableData()
}
readSource?.setCancelHandler { [weak self] in
self?.isReading = false
}
readSource?.resume()
}
private func stopReading() {
readSource?.cancel()
readSource = nil
isReading = false
}
private func readAvailableData() {
guard fileDescriptor != -1 else { return }
var buffer = [UInt8](repeating: 0, count: 256)
let bytesRead = read(fileDescriptor, &buffer, buffer.count)
guard bytesRead > 0 else {
if bytesRead < 0 && errno != EAGAIN {
DispatchQueue.main.async {
self.handleReadError()
}
}
return
}
let data = Data(buffer[0..<bytesRead])
DispatchQueue.main.async {
self.bytesReceived += UInt64(bytesRead)
}
// Append to buffer
readBuffer.append(data)
// Process complete responses (terminated by ';')
processBuffer()
}
private func processBuffer() {
while let semicolonIndex = readBuffer.firstIndex(of: 0x3B) { // ';'
let responseData = readBuffer.prefix(through: semicolonIndex)
readBuffer.removeFirst(semicolonIndex + 1)
if let response = String(data: Data(responseData), encoding: .ascii) {
Logger.shared.log("RX: \(response)", level: .debug)
}
onDataReceived?(Data(responseData))
}
}
private func handleReadError() {
let error = String(cString: strerror(errno))
connectionState = .error(error)
lastError = error
if shouldReconnect {
startReconnectTimer()
}
}
// MARK: - Writing
func send(_ data: Data) {
guard fileDescriptor != -1 else { return }
writeQueue.async { [weak self] in
guard let self = self, self.fileDescriptor != -1 else { return }
let written = data.withUnsafeBytes { buffer -> Int in
guard let base = buffer.baseAddress else { return -1 }
return write(self.fileDescriptor, base, data.count)
}
if written > 0 {
DispatchQueue.main.async {
self.bytesSent += UInt64(written)
}
if let command = String(data: data, encoding: .ascii) {
Logger.shared.log("TX: \(command.trimmingCharacters(in: .whitespaces))", level: .debug)
}
} else if written < 0 {
DispatchQueue.main.async {
self.handleWriteError()
}
}
}
}
func send(_ command: CATCommand) {
send(command.data)
}
func sendString(_ string: String) {
if let data = string.data(using: .ascii) {
send(data)
}
}
private func handleWriteError() {
let error = String(cString: strerror(errno))
connectionState = .error(error)
lastError = error
}
// MARK: - Auto-Reconnect
func enableAutoReconnect(_ enabled: Bool) {
shouldReconnect = enabled
if !enabled {
stopReconnectTimer()
}
}
private func startReconnectTimer() {
stopReconnectTimer()
reconnectTimer = Timer.scheduledTimer(withTimeInterval: 5.0, repeats: true) { [weak self] _ in
guard let self = self else { return }
Logger.shared.log("Attempting to reconnect...", level: .info)
self.refreshPorts()
if self.availablePorts.contains(where: { $0.path == self.selectedPortPath }) {
self.connect()
if self.connectionState.isConnected {
self.stopReconnectTimer()
}
}
}
}
private func stopReconnectTimer() {
reconnectTimer?.invalidate()
reconnectTimer = nil
}
// MARK: - Statistics
func resetStatistics() {
bytesSent = 0
bytesReceived = 0
}
var isConnected: Bool {
connectionState.isConnected
}
}
@@ -0,0 +1,126 @@
/* German Localization for FT991A-Remote */
/* Connection */
"Connected" = "Verbunden";
"Disconnected" = "Getrennt";
"Connecting" = "Verbinde...";
"Connect" = "Verbinden";
"Disconnect" = "Trennen";
"Select Port" = "Port wählen...";
"Refresh Ports" = "Ports aktualisieren";
"No Port Selected" = "Kein Port ausgewählt";
"Connection Error" = "Verbindungsfehler";
"Auto Reconnect" = "Auto-Reconnect";
/* Frequency */
"Frequency" = "Frequenz";
"Step" = "Schritt";
"VFO-A" = "VFO-A";
"VFO-B" = "VFO-B";
"Swap VFO" = "VFO tauschen";
"Band" = "Band";
/* Modes */
"Mode" = "Betriebsart";
"Filter Width" = "Filterbreite";
"Filter Shift" = "Filter-Shift";
/* Levels */
"Levels" = "Pegel";
"AF Gain" = "AF Verstärkung";
"RF Gain" = "RF Verstärkung";
"Squelch" = "Squelch";
"MIC Gain" = "MIC Verstärkung";
"Power" = "Leistung";
/* Functions */
"Functions" = "Funktionen";
"Noise Blanker" = "Störaustaster";
"Noise Reduction" = "Rauschminderung";
"ATU Tune" = "Tuner abstimmen";
"Split" = "Split-Betrieb";
/* Metering */
"Metering" = "Messwerte";
"S-Meter" = "S-Meter";
"Power Meter" = "Leistungsmesser";
"SWR Meter" = "SWR-Meter";
/* PTT */
"PTT" = "PTT";
"Transmit" = "Senden";
"Receive" = "Empfangen";
"TX" = "TX";
"RX" = "RX";
"Hold Shift for PTT" = "Shift-Taste gedrückt halten = PTT";
/* Log */
"QSO Log" = "QSO Log";
"Add QSO" = "QSO hinzufügen";
"Edit QSO" = "QSO bearbeiten";
"Delete QSO" = "QSO löschen";
"Callsign" = "Rufzeichen";
"Date" = "Datum";
"Time" = "Zeit";
"RST Sent" = "RST gesendet";
"RST Received" = "RST empfangen";
"Name" = "Name";
"QTH" = "QTH";
"Locator" = "Locator";
"Notes" = "Notizen";
"Search" = "Suchen...";
"Export" = "Exportieren";
"Import" = "Importieren";
/* Debug */
"CAT Console" = "CAT Konsole";
"Send Command" = "Befehl senden";
"Clear History" = "Verlauf löschen";
"Auto Scroll" = "Auto-Scroll";
"Bytes Sent" = "Bytes gesendet";
"Bytes Received" = "Bytes empfangen";
"Commands" = "Befehle";
/* Settings */
"Settings" = "Einstellungen";
"Connection" = "Verbindung";
"Interface" = "Oberfläche";
"Audio" = "Audio";
"Keyboard" = "Tastatur";
"Logging" = "Logging";
"UI Style" = "UI-Stil";
"Modern" = "Modern";
"Front Panel" = "Frontpanel";
"Language" = "Sprache";
"German" = "Deutsch";
"English" = "English";
"Frequency Step" = "Frequenzschritt";
"Log Directory" = "Log-Verzeichnis";
"Auto Save" = "Automatisch speichern";
"Reset to Defaults" = "Auf Standard zurücksetzen";
/* Audio */
"Audio Routing" = "Audio-Routing";
"Input Device" = "Eingabegerät";
"Output Device" = "Ausgabegerät";
"BlackHole Status" = "BlackHole Status";
"Installed" = "Installiert";
"Not Found" = "Nicht gefunden";
"Configure for Digital Modes" = "Für Digimodes konfigurieren";
"Use BlackHole" = "BlackHole verwenden";
/* Menu */
"Radio" = "Radio";
"View" = "Ansicht";
"Show Debug Panel" = "Debug-Panel anzeigen";
"Show Log Panel" = "Log-Panel anzeigen";
"Open Main Window" = "Hauptfenster öffnen";
"Quit" = "Beenden";
/* Errors */
"Error" = "Fehler";
"Failed to connect" = "Verbindung fehlgeschlagen";
"Failed to open port" = "Port konnte nicht geöffnet werden";
"No serial ports found" = "Keine seriellen Ports gefunden";
"Save failed" = "Speichern fehlgeschlagen";
"Export failed" = "Export fehlgeschlagen";
@@ -0,0 +1,126 @@
/* English Localization for FT991A-Remote */
/* Connection */
"Connected" = "Connected";
"Disconnected" = "Disconnected";
"Connecting" = "Connecting...";
"Connect" = "Connect";
"Disconnect" = "Disconnect";
"Select Port" = "Select Port...";
"Refresh Ports" = "Refresh Ports";
"No Port Selected" = "No Port Selected";
"Connection Error" = "Connection Error";
"Auto Reconnect" = "Auto Reconnect";
/* Frequency */
"Frequency" = "Frequency";
"Step" = "Step";
"VFO-A" = "VFO-A";
"VFO-B" = "VFO-B";
"Swap VFO" = "Swap VFO";
"Band" = "Band";
/* Modes */
"Mode" = "Mode";
"Filter Width" = "Filter Width";
"Filter Shift" = "Filter Shift";
/* Levels */
"Levels" = "Levels";
"AF Gain" = "AF Gain";
"RF Gain" = "RF Gain";
"Squelch" = "Squelch";
"MIC Gain" = "MIC Gain";
"Power" = "Power";
/* Functions */
"Functions" = "Functions";
"Noise Blanker" = "Noise Blanker";
"Noise Reduction" = "Noise Reduction";
"ATU Tune" = "ATU Tune";
"Split" = "Split";
/* Metering */
"Metering" = "Metering";
"S-Meter" = "S-Meter";
"Power Meter" = "Power Meter";
"SWR Meter" = "SWR Meter";
/* PTT */
"PTT" = "PTT";
"Transmit" = "Transmit";
"Receive" = "Receive";
"TX" = "TX";
"RX" = "RX";
"Hold Shift for PTT" = "Hold Shift key for PTT";
/* Log */
"QSO Log" = "QSO Log";
"Add QSO" = "Add QSO";
"Edit QSO" = "Edit QSO";
"Delete QSO" = "Delete QSO";
"Callsign" = "Callsign";
"Date" = "Date";
"Time" = "Time";
"RST Sent" = "RST Sent";
"RST Received" = "RST Received";
"Name" = "Name";
"QTH" = "QTH";
"Locator" = "Locator";
"Notes" = "Notes";
"Search" = "Search...";
"Export" = "Export";
"Import" = "Import";
/* Debug */
"CAT Console" = "CAT Console";
"Send Command" = "Send Command";
"Clear History" = "Clear History";
"Auto Scroll" = "Auto Scroll";
"Bytes Sent" = "Bytes Sent";
"Bytes Received" = "Bytes Received";
"Commands" = "Commands";
/* Settings */
"Settings" = "Settings";
"Connection" = "Connection";
"Interface" = "Interface";
"Audio" = "Audio";
"Keyboard" = "Keyboard";
"Logging" = "Logging";
"UI Style" = "UI Style";
"Modern" = "Modern";
"Front Panel" = "Front Panel";
"Language" = "Language";
"German" = "German";
"English" = "English";
"Frequency Step" = "Frequency Step";
"Log Directory" = "Log Directory";
"Auto Save" = "Auto Save";
"Reset to Defaults" = "Reset to Defaults";
/* Audio */
"Audio Routing" = "Audio Routing";
"Input Device" = "Input Device";
"Output Device" = "Output Device";
"BlackHole Status" = "BlackHole Status";
"Installed" = "Installed";
"Not Found" = "Not Found";
"Configure for Digital Modes" = "Configure for Digital Modes";
"Use BlackHole" = "Use BlackHole";
/* Menu */
"Radio" = "Radio";
"View" = "View";
"Show Debug Panel" = "Show Debug Panel";
"Show Log Panel" = "Show Log Panel";
"Open Main Window" = "Open Main Window";
"Quit" = "Quit";
/* Errors */
"Error" = "Error";
"Failed to connect" = "Failed to connect";
"Failed to open port" = "Failed to open port";
"No serial ports found" = "No serial ports found";
"Save failed" = "Save failed";
"Export failed" = "Export failed";
@@ -0,0 +1,223 @@
//
// Logger.swift
// FT991A-Remote
//
// Debug logging system
//
import Foundation
import os.log
// MARK: - Log Level
enum LogLevel: String, Comparable {
case debug = "DEBUG"
case info = "INFO"
case warning = "WARN"
case error = "ERROR"
var osLogType: OSLogType {
switch self {
case .debug: return .debug
case .info: return .info
case .warning: return .default
case .error: return .error
}
}
var symbol: String {
switch self {
case .debug: return "🔍"
case .info: return ""
case .warning: return "⚠️"
case .error: return ""
}
}
static func < (lhs: LogLevel, rhs: LogLevel) -> Bool {
let order: [LogLevel] = [.debug, .info, .warning, .error]
guard let lhsIndex = order.firstIndex(of: lhs),
let rhsIndex = order.firstIndex(of: rhs) else { return false }
return lhsIndex < rhsIndex
}
}
// MARK: - Log Entry
struct LogEntry: Identifiable {
let id = UUID()
let timestamp: Date
let level: LogLevel
let message: String
let file: String
let function: String
let line: Int
var timeString: String {
let formatter = DateFormatter()
formatter.dateFormat = "HH:mm:ss.SSS"
return formatter.string(from: timestamp)
}
var shortFile: String {
URL(fileURLWithPath: file).lastPathComponent
}
var formattedMessage: String {
"[\(timeString)] [\(level.rawValue)] \(message)"
}
var detailedMessage: String {
"[\(timeString)] [\(level.rawValue)] [\(shortFile):\(line)] \(message)"
}
}
// MARK: - Logger
class Logger: ObservableObject {
// MARK: - Singleton
static let shared = Logger()
// MARK: - Published Properties
@Published var entries: [LogEntry] = []
@Published var minimumLevel: LogLevel = .debug
@Published var isLoggingEnabled = true
// MARK: - Private Properties
private let osLog = OSLog(subsystem: "com.ft991a.remote", category: "General")
private let queue = DispatchQueue(label: "logger.queue", qos: .utility)
private let maxEntries = 1000
// File logging
private var logFileURL: URL?
private var logFileHandle: FileHandle?
// MARK: - Initialization
private init() {
setupFileLogging()
}
deinit {
logFileHandle?.closeFile()
}
// MARK: - Logging
func log(
_ message: String,
level: LogLevel = .info,
file: String = #file,
function: String = #function,
line: Int = #line
) {
guard isLoggingEnabled, level >= minimumLevel else { return }
let entry = LogEntry(
timestamp: Date(),
level: level,
message: message,
file: file,
function: function,
line: line
)
// Console output
queue.async {
os_log("%{public}@", log: self.osLog, type: level.osLogType, entry.formattedMessage)
#if DEBUG
print(entry.detailedMessage)
#endif
}
// In-memory storage
DispatchQueue.main.async {
self.entries.append(entry)
if self.entries.count > self.maxEntries {
self.entries.removeFirst(100)
}
}
// File logging
writeToFile(entry)
}
// MARK: - Convenience Methods
func debug(_ message: String, file: String = #file, function: String = #function, line: Int = #line) {
log(message, level: .debug, file: file, function: function, line: line)
}
func info(_ message: String, file: String = #file, function: String = #function, line: Int = #line) {
log(message, level: .info, file: file, function: function, line: line)
}
func warning(_ message: String, file: String = #file, function: String = #function, line: Int = #line) {
log(message, level: .warning, file: file, function: function, line: line)
}
func error(_ message: String, file: String = #file, function: String = #function, line: Int = #line) {
log(message, level: .error, file: file, function: function, line: line)
}
// MARK: - File Logging
private func setupFileLogging() {
let fileManager = FileManager.default
guard let logsDir = fileManager.urls(for: .applicationSupportDirectory, in: .userDomainMask).first else { return }
let appLogsDir = logsDir.appendingPathComponent("FT991A-Remote/Logs", isDirectory: true)
do {
try fileManager.createDirectory(at: appLogsDir, withIntermediateDirectories: true)
let formatter = DateFormatter()
formatter.dateFormat = "yyyy-MM-dd"
let fileName = "ft991a_\(formatter.string(from: Date())).log"
logFileURL = appLogsDir.appendingPathComponent(fileName)
if !fileManager.fileExists(atPath: logFileURL!.path) {
fileManager.createFile(atPath: logFileURL!.path, contents: nil)
}
logFileHandle = try FileHandle(forWritingTo: logFileURL!)
logFileHandle?.seekToEndOfFile()
let header = "\n=== FT-991A Remote Log Started at \(Date()) ===\n"
if let data = header.data(using: .utf8) {
logFileHandle?.write(data)
}
} catch {
print("Failed to setup file logging: \(error)")
}
}
private func writeToFile(_ entry: LogEntry) {
guard let handle = logFileHandle else { return }
queue.async {
if let data = (entry.detailedMessage + "\n").data(using: .utf8) {
handle.write(data)
}
}
}
// MARK: - Management
func clear() {
entries.removeAll()
}
func exportLogs() -> String {
entries.map { $0.detailedMessage }.joined(separator: "\n")
}
var filteredEntries: [LogEntry] {
entries.filter { $0.level >= minimumLevel }
}
}
@@ -0,0 +1,211 @@
//
// LogViewModel.swift
// FT991A-Remote
//
// ViewModel for QSO logging
//
import Foundation
import Combine
import SwiftUI
// MARK: - Log ViewModel
@MainActor
class LogViewModel: ObservableObject {
// MARK: - Published Properties
@Published var entries: [QSOEntry] = []
@Published var selectedEntry: QSOEntry?
@Published var searchText = ""
@Published var sortOrder: SortOrder = .dateDescending
// Current QSO being logged
@Published var currentQSO = QSOEntry()
// File management
@Published var currentLogFile: URL?
@Published var availableLogFiles: [URL] = []
@Published var isSaving = false
@Published var lastError: String?
// MARK: - Private Properties
private let csvManager = CSVManager()
private var cancellables = Set<AnyCancellable>()
// MARK: - Computed Properties
var filteredEntries: [QSOEntry] {
var result = entries
// Apply search filter
if !searchText.isEmpty {
let search = searchText.lowercased()
result = result.filter {
$0.callsign.lowercased().contains(search) ||
$0.name.lowercased().contains(search) ||
$0.qth.lowercased().contains(search) ||
$0.notes.lowercased().contains(search)
}
}
// Apply sorting
switch sortOrder {
case .dateDescending:
result.sort { $0.date > $1.date }
case .dateAscending:
result.sort { $0.date < $1.date }
case .callsignAscending:
result.sort { $0.callsign < $1.callsign }
case .callsignDescending:
result.sort { $0.callsign > $1.callsign }
case .frequencyAscending:
result.sort { $0.frequency < $1.frequency }
case .frequencyDescending:
result.sort { $0.frequency > $1.frequency }
}
return result
}
var totalQSOs: Int {
entries.count
}
var uniqueCallsigns: Int {
Set(entries.map { $0.callsign.uppercased() }).count
}
// MARK: - Initialization
init() {
setupBindings()
refreshLogFiles()
loadLatestLog()
}
private func setupBindings() {
csvManager.$logEntries
.receive(on: DispatchQueue.main)
.assign(to: &$entries)
csvManager.$currentLogFile
.receive(on: DispatchQueue.main)
.assign(to: &$currentLogFile)
csvManager.$isSaving
.receive(on: DispatchQueue.main)
.assign(to: &$isSaving)
csvManager.$lastError
.receive(on: DispatchQueue.main)
.assign(to: &$lastError)
}
// MARK: - File Management
func refreshLogFiles() {
availableLogFiles = csvManager.listLogFiles()
}
func loadLatestLog() {
if let latest = availableLogFiles.first {
_ = csvManager.openLogFile(latest)
}
}
func openLogFile(_ url: URL) {
_ = csvManager.openLogFile(url)
}
func createNewLogFile(name: String? = nil) {
_ = csvManager.createNewLogFile(name: name)
refreshLogFiles()
}
func exportToFile(_ url: URL) -> Bool {
csvManager.exportToFile(url)
}
func setLogDirectory(_ path: String) {
csvManager.setLogDirectory(path)
refreshLogFiles()
}
// MARK: - QSO Management
func addQSO() {
guard !currentQSO.callsign.isEmpty else { return }
var entry = currentQSO
entry.callsign = entry.callsign.uppercased()
csvManager.addEntry(entry)
resetCurrentQSO()
Logger.shared.log("Added QSO: \(entry.callsign)", level: .info)
}
func updateQSO(_ entry: QSOEntry) {
csvManager.updateEntry(entry)
}
func deleteQSO(_ entry: QSOEntry) {
csvManager.deleteEntry(entry)
}
func deleteQSOs(at offsets: IndexSet) {
// Convert offsets from filtered to original indices
let entriesToDelete = offsets.map { filteredEntries[$0] }
for entry in entriesToDelete {
csvManager.deleteEntry(entry)
}
}
func resetCurrentQSO() {
currentQSO = QSOEntry()
}
// MARK: - Radio Integration
func updateFromRadio(frequency: Int, mode: OperatingMode, power: Int) {
currentQSO.frequency = frequency
currentQSO.mode = mode
currentQSO.power = power
}
// MARK: - Statistics
var bandStatistics: [(band: String, count: Int)] {
var stats: [String: Int] = [:]
for entry in entries {
let band = entry.bandDisplay
stats[band, default: 0] += 1
}
return stats.map { (band: $0.key, count: $0.value) }
.sorted { $0.count > $1.count }
}
var modeStatistics: [(mode: String, count: Int)] {
var stats: [String: Int] = [:]
for entry in entries {
let mode = entry.mode.rawValue
stats[mode, default: 0] += 1
}
return stats.map { (mode: $0.key, count: $0.value) }
.sorted { $0.count > $1.count }
}
// MARK: - Sort Order
enum SortOrder: String, CaseIterable {
case dateDescending = "Datum (neu → alt)"
case dateAscending = "Datum (alt → neu)"
case callsignAscending = "Rufzeichen (A → Z)"
case callsignDescending = "Rufzeichen (Z → A)"
case frequencyAscending = "Frequenz (niedrig → hoch)"
case frequencyDescending = "Frequenz (hoch → niedrig)"
}
}
@@ -0,0 +1,306 @@
//
// RadioViewModel.swift
// FT991A-Remote
//
// Main ViewModel for radio control
//
import Foundation
import Combine
import SwiftUI
// MARK: - Radio ViewModel
@MainActor
class RadioViewModel: ObservableObject {
// MARK: - Published Properties
// Connection
@Published var isConnected = false
@Published var connectionState: ConnectionState = .disconnected
@Published var availablePorts: [SerialPort] = []
@Published var selectedPort: String = ""
@Published var baudRate: Int = 38400
// Radio State (mirrored for convenience)
@Published var vfoAFrequency: Int = 14_250_000
@Published var vfoBFrequency: Int = 14_255_000
@Published var activeVFO: VFO = .a
@Published var mode: OperatingMode = .usb
@Published var frequencyStep: FrequencyStep = .khz1
// Levels
@Published var afGain: Int = 128
@Published var rfGain: Int = 255
@Published var squelch: Int = 0
@Published var micGain: Int = 50
@Published var power: Int = 100
// Functions
@Published var noiseBlanker = false
@Published var noiseReduction = false
@Published var dnf = false
@Published var contour = false
@Published var atu = false
@Published var split = false
@Published var ipo = false
// Metering
@Published var sMeter: Int = 0
@Published var powerMeter: Int = 0
@Published var swrMeter: Int = 0
@Published var isTransmitting = false
// Statistics
@Published var bytesSent: UInt64 = 0
@Published var bytesReceived: UInt64 = 0
// Debug
@Published var commandHistory: [CommandLogEntry] = []
// MARK: - Services
private let serialManager = SerialPortManager()
private let catProtocol: CATProtocol
private var cancellables = Set<AnyCancellable>()
// MARK: - Computed Properties
var activeFrequency: Int {
activeVFO == .a ? vfoAFrequency : vfoBFrequency
}
var frequencyDisplay: String {
formatFrequency(activeFrequency)
}
var sMeterDisplay: String {
let normalized = Double(sMeter) / 255.0
if normalized <= 0.6 {
let sUnit = Int(normalized / 0.6 * 9.0)
return "S\(sUnit)"
} else {
let db = Int((normalized - 0.6) / 0.4 * 60.0)
return "S9+\(db)"
}
}
var currentBand: Band? {
Band.from(frequency: activeFrequency)
}
// MARK: - Initialization
init() {
catProtocol = CATProtocol(serialManager: serialManager)
setupBindings()
refreshPorts()
}
private func setupBindings() {
// Serial Manager bindings
serialManager.$connectionState
.receive(on: DispatchQueue.main)
.sink { [weak self] state in
self?.connectionState = state
self?.isConnected = state.isConnected
}
.store(in: &cancellables)
serialManager.$availablePorts
.receive(on: DispatchQueue.main)
.assign(to: &$availablePorts)
serialManager.$selectedPortPath
.receive(on: DispatchQueue.main)
.assign(to: &$selectedPort)
serialManager.$bytesSent
.receive(on: DispatchQueue.main)
.assign(to: &$bytesSent)
serialManager.$bytesReceived
.receive(on: DispatchQueue.main)
.assign(to: &$bytesReceived)
// CAT Protocol bindings
catProtocol.$radioState
.receive(on: DispatchQueue.main)
.sink { [weak self] state in
self?.updateFromRadioState(state)
}
.store(in: &cancellables)
catProtocol.$commandHistory
.receive(on: DispatchQueue.main)
.assign(to: &$commandHistory)
}
private func updateFromRadioState(_ state: RadioState) {
vfoAFrequency = state.vfoAFrequency
vfoBFrequency = state.vfoBFrequency
activeVFO = state.activeVFO
mode = state.mode
afGain = state.afGain
rfGain = state.rfGain
squelch = state.squelch
micGain = state.micGain
power = state.power
noiseBlanker = state.noiseBlanker
noiseReduction = state.noiseReduction
dnf = state.dnf
contour = state.contour
atu = state.atu
split = state.split
ipo = state.ipo
sMeter = state.sMeter
powerMeter = state.powerMeter
swrMeter = state.swrMeter
isTransmitting = state.isTransmitting
}
// MARK: - Connection
func refreshPorts() {
serialManager.refreshPorts()
}
func connect() {
serialManager.selectedPortPath = selectedPort
serialManager.baudRate = baudRate
serialManager.connect()
}
func disconnect() {
serialManager.disconnect()
}
func toggleConnection() {
if isConnected {
disconnect()
} else {
connect()
}
}
func selectPort(_ path: String) {
selectedPort = path
serialManager.selectedPortPath = path
}
// MARK: - Frequency Control
func setFrequency(_ frequency: Int) {
catProtocol.setFrequency(frequency, vfo: activeVFO)
}
func incrementFrequency() {
catProtocol.changeFrequency(by: frequencyStep.rawValue)
}
func decrementFrequency() {
catProtocol.changeFrequency(by: -frequencyStep.rawValue)
}
func selectBand(_ band: Band) {
catProtocol.selectBand(band)
}
// MARK: - VFO Control
func selectVFO(_ vfo: VFO) {
catProtocol.selectVFO(vfo)
}
func swapVFO() {
catProtocol.swapVFO()
}
func equalizeVFO() {
catProtocol.equalizeVFO()
}
// MARK: - Mode Control
func setMode(_ mode: OperatingMode) {
catProtocol.setMode(mode)
}
// MARK: - Level Control
func setAFGain(_ value: Int) {
catProtocol.setAFGain(value)
}
func setRFGain(_ value: Int) {
catProtocol.setRFGain(value)
}
func setSquelch(_ value: Int) {
catProtocol.setSquelch(value)
}
func setMICGain(_ value: Int) {
catProtocol.setMICGain(value)
}
func setPower(_ value: Int) {
catProtocol.setPower(value)
}
// MARK: - Function Control
func toggleNB() {
catProtocol.toggleNB()
}
func toggleNR() {
catProtocol.toggleNR()
}
func toggleDNF() {
catProtocol.toggleDNF()
}
func toggleSplit() {
catProtocol.toggleSplit()
}
func startATUTune() {
catProtocol.startATUTune()
}
// MARK: - PTT Control
func startTransmit(dataMode: Bool = false) {
catProtocol.startTransmit(dataMode: dataMode)
}
func stopTransmit() {
catProtocol.stopTransmit()
}
func toggleTransmit(dataMode: Bool = false) {
catProtocol.toggleTransmit(dataMode: dataMode)
}
// MARK: - Debug
func sendRawCommand(_ command: String) {
catProtocol.sendRaw(command)
}
func clearCommandHistory() {
catProtocol.clearCommandHistory()
}
// MARK: - Helpers
func formatFrequency(_ freq: Int) -> String {
let mhz = freq / 1_000_000
let khz = (freq % 1_000_000) / 1_000
let hz = freq % 1_000
return String(format: "%d.%03d.%03d", mhz, khz, hz)
}
}
@@ -0,0 +1,172 @@
//
// SettingsController.swift
// FT991A-Remote
//
// Application settings controller
//
import Foundation
import Combine
import SwiftUI
// MARK: - Settings Controller
@MainActor
class SettingsController: ObservableObject {
// MARK: - Published Properties
// UI Settings
@Published var uiStyle: UIStyle = .modern {
didSet { saveSettings() }
}
@Published var language: AppLanguage = .german {
didSet { saveSettings() }
}
@Published var compactMode: Bool = true {
didSet { saveSettings() }
}
@Published var showDebugPanel: Bool = false {
didSet { saveSettings() }
}
@Published var showLogPanel: Bool = false {
didSet { saveSettings() }
}
// Connection Settings
@Published var autoReconnect: Bool = true {
didSet { saveSettings() }
}
@Published var reconnectInterval: TimeInterval = 5.0 {
didSet { saveSettings() }
}
@Published var defaultBaudRate: Int = 38400 {
didSet { saveSettings() }
}
// Frequency Settings
@Published var frequencyStep: FrequencyStep = .khz1 {
didSet { saveSettings() }
}
// Logging Settings
@Published var logDirectory: String = "~/Documents/FT991A-Logs/" {
didSet { saveSettings() }
}
@Published var autoSaveLog: Bool = true {
didSet { saveSettings() }
}
// Audio Settings
@Published var audioInputDevice: String = "" {
didSet { saveSettings() }
}
@Published var audioOutputDevice: String = "" {
didSet { saveSettings() }
}
@Published var useBlackHole: Bool = false {
didSet { saveSettings() }
}
// Keyboard Settings
@Published var pttShortcutEnabled: Bool = true {
didSet { saveSettings() }
}
@Published var arrowFrequencyEnabled: Bool = true {
didSet { saveSettings() }
}
@Published var tunerShortcutEnabled: Bool = true {
didSet { saveSettings() }
}
// MARK: - Private Properties
private var settings: AppSettings
private var saveDebounce: Timer?
// MARK: - Initialization
init() {
settings = AppSettings.load()
loadFromSettings()
}
// MARK: - Settings Management
private func loadFromSettings() {
uiStyle = settings.uiStyle
language = settings.language
compactMode = settings.compactMode
showDebugPanel = settings.showDebugPanel
showLogPanel = settings.showLogPanel
autoReconnect = settings.autoReconnect
reconnectInterval = settings.reconnectInterval
frequencyStep = settings.frequencyStep
logDirectory = settings.logDirectory
autoSaveLog = settings.autoSaveLog
audioInputDevice = settings.audioInputDevice
audioOutputDevice = settings.audioOutputDevice
useBlackHole = settings.useBlackHole
pttShortcutEnabled = settings.pttShortcutEnabled
arrowFrequencyEnabled = settings.arrowFrequencyEnabled
tunerShortcutEnabled = settings.tunerShortcutEnabled
defaultBaudRate = settings.baudRate
}
private func saveSettings() {
// Debounce saves to avoid excessive disk writes
saveDebounce?.invalidate()
saveDebounce = Timer.scheduledTimer(withTimeInterval: 0.5, repeats: false) { [weak self] _ in
self?.performSave()
}
}
private func performSave() {
settings.uiStyle = uiStyle
settings.language = language
settings.compactMode = compactMode
settings.showDebugPanel = showDebugPanel
settings.showLogPanel = showLogPanel
settings.autoReconnect = autoReconnect
settings.reconnectInterval = reconnectInterval
settings.frequencyStep = frequencyStep
settings.logDirectory = logDirectory
settings.autoSaveLog = autoSaveLog
settings.audioInputDevice = audioInputDevice
settings.audioOutputDevice = audioOutputDevice
settings.useBlackHole = useBlackHole
settings.pttShortcutEnabled = pttShortcutEnabled
settings.arrowFrequencyEnabled = arrowFrequencyEnabled
settings.tunerShortcutEnabled = tunerShortcutEnabled
settings.baudRate = defaultBaudRate
settings.save()
Logger.shared.log("Settings saved", level: .debug)
}
func resetToDefaults() {
settings = AppSettings.defaults
loadFromSettings()
settings.save()
Logger.shared.log("Settings reset to defaults", level: .info)
}
// MARK: - Helpers
var expandedLogDirectory: String {
(logDirectory as NSString).expandingTildeInPath
}
static let availableBaudRates = [4800, 9600, 19200, 38400, 57600, 115200]
}
@@ -0,0 +1,216 @@
//
// MainView.swift
// FT991A-Remote
//
// Main application window container
//
import SwiftUI
// MARK: - Main View
struct MainView: View {
@EnvironmentObject var radioViewModel: RadioViewModel
@EnvironmentObject var settingsController: SettingsController
@EnvironmentObject var logViewModel: LogViewModel
@State private var isDebugPanelDetached = false
@State private var isLogPanelDetached = false
var body: some View {
NavigationSplitView {
// Sidebar
SidebarView()
.frame(minWidth: 200)
} detail: {
// Main content
HSplitView {
// Radio control area
VStack(spacing: 0) {
// Connection bar
ConnectionBar()
.padding(.horizontal)
.padding(.top, 8)
Divider()
.padding(.top, 8)
// Radio view based on UI style
if settingsController.uiStyle == .modern {
ModernRadioView()
} else {
SkeuomorphRadioView()
}
}
.frame(minWidth: 600)
// Side panels
if settingsController.showLogPanel && !isLogPanelDetached {
Divider()
LogPanel()
.frame(minWidth: 300, maxWidth: 400)
}
if settingsController.showDebugPanel && !isDebugPanelDetached {
Divider()
DebugPanel()
.frame(minWidth: 300, maxWidth: 400)
}
}
}
.toolbar {
ToolbarItemGroup(placement: .primaryAction) {
// UI Style toggle
Picker("UI", selection: $settingsController.uiStyle) {
Image(systemName: "rectangle.3.group")
.tag(UIStyle.modern)
Image(systemName: "dial.medium")
.tag(UIStyle.skeuomorph)
}
.pickerStyle(.segmented)
.help("UI-Stil wechseln")
Divider()
// Panel toggles
Toggle(isOn: $settingsController.showLogPanel) {
Image(systemName: "list.bullet.rectangle")
}
.help("Log-Panel anzeigen")
Toggle(isOn: $settingsController.showDebugPanel) {
Image(systemName: "terminal")
}
.help("Debug-Panel anzeigen")
}
}
.navigationTitle("FT-991A Remote")
.onAppear {
setupKeyboardShortcuts()
}
}
private func setupKeyboardShortcuts() {
// Keyboard shortcuts are handled in the App commands
}
}
// MARK: - Sidebar View
struct SidebarView: View {
@EnvironmentObject var radioViewModel: RadioViewModel
var body: some View {
List {
Section("Verbindung") {
Label {
VStack(alignment: .leading) {
Text(radioViewModel.isConnected ? "Verbunden" : "Getrennt")
.font(.headline)
if radioViewModel.isConnected {
Text(radioViewModel.selectedPort)
.font(.caption)
.foregroundColor(.secondary)
}
}
} icon: {
Image(systemName: radioViewModel.isConnected ? "antenna.radiowaves.left.and.right" : "antenna.radiowaves.left.and.right.slash")
.foregroundColor(radioViewModel.isConnected ? .green : .red)
}
}
Section("Frequenz") {
Label {
Text(radioViewModel.frequencyDisplay + " Hz")
.font(.system(.body, design: .monospaced))
} icon: {
Image(systemName: "waveform")
}
if let band = radioViewModel.currentBand {
Label(band.rawValue, systemImage: "chart.bar")
}
Label(radioViewModel.mode.rawValue, systemImage: "waveform.path")
}
Section("Bänder") {
ForEach(Band.allCases, id: \.self) { band in
Button {
radioViewModel.selectBand(band)
} label: {
Label(band.rawValue, systemImage: "antenna.radiowaves.left.and.right")
}
.disabled(!radioViewModel.isConnected)
}
}
}
.listStyle(.sidebar)
}
}
// MARK: - Connection Bar
struct ConnectionBar: View {
@EnvironmentObject var radioViewModel: RadioViewModel
var body: some View {
HStack(spacing: 12) {
// Port selection
Picker("Port", selection: $radioViewModel.selectedPort) {
Text("Port wählen...").tag("")
ForEach(radioViewModel.availablePorts) { port in
Text(port.name).tag(port.path)
}
}
.frame(width: 200)
// Refresh button
Button {
radioViewModel.refreshPorts()
} label: {
Image(systemName: "arrow.clockwise")
}
.help("Ports aktualisieren")
// Baud rate
Picker("Baud", selection: $radioViewModel.baudRate) {
ForEach(SerialConfig.availableBaudRates, id: \.self) { rate in
Text("\(rate)").tag(rate)
}
}
.frame(width: 100)
Spacer()
// Connection status
HStack(spacing: 6) {
Circle()
.fill(radioViewModel.isConnected ? Color.green : Color.red)
.frame(width: 10, height: 10)
Text(radioViewModel.connectionState.displayString)
.foregroundColor(.secondary)
}
// Connect button
Button {
radioViewModel.toggleConnection()
} label: {
Text(radioViewModel.isConnected ? "Trennen" : "Verbinden")
}
.keyboardShortcut("k", modifiers: .command)
}
.padding(.vertical, 8)
}
}
// MARK: - Preview
#Preview {
MainView()
.environmentObject(RadioViewModel())
.environmentObject(SettingsController())
.environmentObject(LogViewModel())
.frame(width: 1200, height: 800)
}
@@ -0,0 +1,134 @@
//
// MenuBarView.swift
// FT991A-Remote
//
// Menu bar extra for background operation
//
import SwiftUI
// MARK: - Menu Bar View
struct MenuBarView: View {
@EnvironmentObject var radioViewModel: RadioViewModel
@EnvironmentObject var settingsController: SettingsController
var body: some View {
VStack(alignment: .leading, spacing: 8) {
// Connection status
HStack {
Circle()
.fill(radioViewModel.isConnected ? Color.green : Color.red)
.frame(width: 10, height: 10)
Text(radioViewModel.isConnected ? "Verbunden" : "Getrennt")
.font(.headline)
Spacer()
Button(radioViewModel.isConnected ? "Trennen" : "Verbinden") {
radioViewModel.toggleConnection()
}
.controlSize(.small)
}
if radioViewModel.isConnected {
Divider()
// Frequency display
VStack(alignment: .leading, spacing: 4) {
Text("Frequenz")
.font(.caption)
.foregroundColor(.secondary)
Text(radioViewModel.frequencyDisplay + " Hz")
.font(.system(.title3, design: .monospaced))
}
// Mode and Band
HStack {
Text(radioViewModel.mode.rawValue)
.padding(.horizontal, 8)
.padding(.vertical, 2)
.background(Color.accentColor.opacity(0.2))
.cornerRadius(4)
if let band = radioViewModel.currentBand {
Text(band.rawValue)
.foregroundColor(.secondary)
}
Spacer()
Text(radioViewModel.sMeterDisplay)
.font(.caption.monospacedDigit())
}
// TX Status
if radioViewModel.isTransmitting {
HStack {
Circle()
.fill(Color.red)
.frame(width: 10, height: 10)
Text("Senden")
.foregroundColor(.red)
}
}
Divider()
// Quick controls
HStack(spacing: 12) {
Button {
radioViewModel.selectVFO(radioViewModel.activeVFO == .a ? .b : .a)
} label: {
Text("VFO \(radioViewModel.activeVFO.rawValue)")
}
.controlSize(.small)
Button("A/B") {
radioViewModel.swapVFO()
}
.controlSize(.small)
Button("ATU") {
radioViewModel.startATUTune()
}
.controlSize(.small)
}
}
Divider()
// App controls
Button("Hauptfenster öffnen") {
NSApp.activate(ignoringOtherApps: true)
if let window = NSApp.windows.first {
window.makeKeyAndOrderFront(nil)
}
}
Button("Einstellungen...") {
NSApp.sendAction(Selector(("showSettingsWindow:")), to: nil, from: nil)
}
.keyboardShortcut(",", modifiers: .command)
Divider()
Button("Beenden") {
NSApp.terminate(nil)
}
.keyboardShortcut("q", modifiers: .command)
}
.padding()
.frame(width: 280)
}
}
// MARK: - Preview
#Preview {
MenuBarView()
.environmentObject(RadioViewModel())
.environmentObject(SettingsController())
}
@@ -0,0 +1,576 @@
//
// ModernRadioView.swift
// FT991A-Remote
//
// Modern UI style for radio control
//
import SwiftUI
// MARK: - Modern Radio View
struct ModernRadioView: View {
@EnvironmentObject var radioViewModel: RadioViewModel
@EnvironmentObject var settingsController: SettingsController
var body: some View {
ScrollView {
VStack(spacing: 20) {
// Frequency Section
FrequencyView()
// Mode & Filter Section
HStack(spacing: 20) {
ModeView()
Spacer()
LevelView()
}
// Functions Section
FunctionsView()
// Metering Section
MeteringView()
// PTT Section
PTTButton()
Spacer()
}
.padding()
}
}
}
// MARK: - Frequency View
struct FrequencyView: View {
@EnvironmentObject var radioViewModel: RadioViewModel
@EnvironmentObject var settingsController: SettingsController
@State private var frequencyInput = ""
@State private var isEditing = false
var body: some View {
GroupBox("Frequenz") {
VStack(spacing: 16) {
// VFO Selection
HStack {
// VFO A
Button {
radioViewModel.selectVFO(.a)
} label: {
HStack {
Circle()
.fill(radioViewModel.activeVFO == .a ? Color.green : Color.gray.opacity(0.3))
.frame(width: 12, height: 12)
Text("VFO-A")
.font(.headline)
Text(radioViewModel.formatFrequency(radioViewModel.vfoAFrequency))
.font(.system(.body, design: .monospaced))
.foregroundColor(.secondary)
}
.padding(.horizontal, 12)
.padding(.vertical, 8)
.background(radioViewModel.activeVFO == .a ? Color.accentColor.opacity(0.1) : Color.clear)
.cornerRadius(8)
}
.buttonStyle(.plain)
.disabled(!radioViewModel.isConnected)
Spacer()
// VFO controls
HStack(spacing: 8) {
Button("A/B") {
radioViewModel.swapVFO()
}
.help("VFO A und B tauschen")
Button("A=B") {
radioViewModel.equalizeVFO()
}
.help("VFO B auf A-Frequenz setzen")
}
.disabled(!radioViewModel.isConnected)
Spacer()
// VFO B
Button {
radioViewModel.selectVFO(.b)
} label: {
HStack {
Text(radioViewModel.formatFrequency(radioViewModel.vfoBFrequency))
.font(.system(.body, design: .monospaced))
.foregroundColor(.secondary)
Text("VFO-B")
.font(.headline)
Circle()
.fill(radioViewModel.activeVFO == .b ? Color.green : Color.gray.opacity(0.3))
.frame(width: 12, height: 12)
}
.padding(.horizontal, 12)
.padding(.vertical, 8)
.background(radioViewModel.activeVFO == .b ? Color.accentColor.opacity(0.1) : Color.clear)
.cornerRadius(8)
}
.buttonStyle(.plain)
.disabled(!radioViewModel.isConnected)
}
// Main frequency display
HStack {
Button {
radioViewModel.decrementFrequency()
} label: {
Image(systemName: "minus.circle.fill")
.font(.title)
}
.buttonStyle(.plain)
.keyboardShortcut(.leftArrow, modifiers: [])
.disabled(!radioViewModel.isConnected)
Spacer()
// Frequency display
VStack(spacing: 4) {
Text(radioViewModel.frequencyDisplay)
.font(.system(size: 48, weight: .bold, design: .monospaced))
.foregroundColor(radioViewModel.isTransmitting ? .red : .primary)
Text("Hz")
.font(.caption)
.foregroundColor(.secondary)
}
Spacer()
Button {
radioViewModel.incrementFrequency()
} label: {
Image(systemName: "plus.circle.fill")
.font(.title)
}
.buttonStyle(.plain)
.keyboardShortcut(.rightArrow, modifiers: [])
.disabled(!radioViewModel.isConnected)
}
// Frequency step selector
HStack {
Text("Schritt:")
.foregroundColor(.secondary)
Picker("Schritt", selection: $settingsController.frequencyStep) {
ForEach(FrequencyStep.allCases, id: \.self) { step in
Text(step.displayName).tag(step)
}
}
.pickerStyle(.segmented)
.frame(maxWidth: 500)
}
// Band buttons
ScrollView(.horizontal, showsIndicators: false) {
HStack(spacing: 8) {
ForEach(Band.allCases, id: \.self) { band in
Button {
radioViewModel.selectBand(band)
} label: {
Text(band.rawValue)
.font(.caption)
.padding(.horizontal, 12)
.padding(.vertical, 6)
.background(radioViewModel.currentBand == band ? Color.accentColor : Color.secondary.opacity(0.2))
.foregroundColor(radioViewModel.currentBand == band ? .white : .primary)
.cornerRadius(6)
}
.buttonStyle(.plain)
.disabled(!radioViewModel.isConnected)
}
}
}
}
.padding()
}
}
}
// MARK: - Mode View
struct ModeView: View {
@EnvironmentObject var radioViewModel: RadioViewModel
let commonModes: [OperatingMode] = [.lsb, .usb, .cw, .fm, .am]
let digitalModes: [OperatingMode] = [.dataLSB, .dataUSB, .rttyLSB, .rttyUSB, .c4fm]
var body: some View {
GroupBox("Betriebsart") {
VStack(alignment: .leading, spacing: 12) {
// Common modes
HStack(spacing: 8) {
ForEach(commonModes, id: \.self) { mode in
Button {
radioViewModel.setMode(mode)
} label: {
Text(mode.rawValue)
.font(.caption.bold())
.frame(width: 50)
.padding(.vertical, 6)
.background(radioViewModel.mode == mode ? Color.accentColor : Color.secondary.opacity(0.2))
.foregroundColor(radioViewModel.mode == mode ? .white : .primary)
.cornerRadius(6)
}
.buttonStyle(.plain)
.disabled(!radioViewModel.isConnected)
}
}
// Digital modes
HStack(spacing: 8) {
ForEach(digitalModes, id: \.self) { mode in
Button {
radioViewModel.setMode(mode)
} label: {
Text(mode.rawValue)
.font(.caption.bold())
.frame(minWidth: 50)
.padding(.horizontal, 8)
.padding(.vertical, 6)
.background(radioViewModel.mode == mode ? Color.orange : Color.secondary.opacity(0.2))
.foregroundColor(radioViewModel.mode == mode ? .white : .primary)
.cornerRadius(6)
}
.buttonStyle(.plain)
.disabled(!radioViewModel.isConnected)
}
}
}
.padding()
}
}
}
// MARK: - Level View
struct LevelView: View {
@EnvironmentObject var radioViewModel: RadioViewModel
var body: some View {
GroupBox("Pegel") {
VStack(spacing: 12) {
LevelSlider(label: "AF", value: Binding(
get: { Double(radioViewModel.afGain) },
set: { radioViewModel.setAFGain(Int($0)) }
), range: 0...255, disabled: !radioViewModel.isConnected)
LevelSlider(label: "RF", value: Binding(
get: { Double(radioViewModel.rfGain) },
set: { radioViewModel.setRFGain(Int($0)) }
), range: 0...255, disabled: !radioViewModel.isConnected)
LevelSlider(label: "SQL", value: Binding(
get: { Double(radioViewModel.squelch) },
set: { radioViewModel.setSquelch(Int($0)) }
), range: 0...255, disabled: !radioViewModel.isConnected)
LevelSlider(label: "MIC", value: Binding(
get: { Double(radioViewModel.micGain) },
set: { radioViewModel.setMICGain(Int($0)) }
), range: 0...100, disabled: !radioViewModel.isConnected)
LevelSlider(label: "PWR", value: Binding(
get: { Double(radioViewModel.power) },
set: { radioViewModel.setPower(Int($0)) }
), range: 5...100, unit: "W", disabled: !radioViewModel.isConnected)
}
.padding()
}
.frame(width: 300)
}
}
// MARK: - Level Slider
struct LevelSlider: View {
let label: String
@Binding var value: Double
let range: ClosedRange<Double>
var unit: String = "%"
var disabled: Bool = false
var displayValue: String {
if unit == "W" {
return "\(Int(value))W"
} else {
let percent = (value - range.lowerBound) / (range.upperBound - range.lowerBound) * 100
return "\(Int(percent))%"
}
}
var body: some View {
HStack {
Text(label)
.font(.caption.bold())
.frame(width: 35, alignment: .leading)
Slider(value: $value, in: range)
.disabled(disabled)
Text(displayValue)
.font(.caption.monospacedDigit())
.frame(width: 45, alignment: .trailing)
}
}
}
// MARK: - Functions View
struct FunctionsView: View {
@EnvironmentObject var radioViewModel: RadioViewModel
var body: some View {
GroupBox("Funktionen") {
HStack(spacing: 12) {
FunctionButton(label: "NB", isActive: radioViewModel.noiseBlanker) {
radioViewModel.toggleNB()
}
.disabled(!radioViewModel.isConnected)
FunctionButton(label: "NR", isActive: radioViewModel.noiseReduction) {
radioViewModel.toggleNR()
}
.disabled(!radioViewModel.isConnected)
FunctionButton(label: "DNF", isActive: radioViewModel.dnf) {
radioViewModel.toggleDNF()
}
.disabled(!radioViewModel.isConnected)
FunctionButton(label: "CONT", isActive: radioViewModel.contour) {
// Toggle contour
}
.disabled(!radioViewModel.isConnected)
Divider()
.frame(height: 30)
FunctionButton(label: "ATU", isActive: radioViewModel.atu, color: .orange) {
radioViewModel.startATUTune()
}
.disabled(!radioViewModel.isConnected)
.keyboardShortcut(.upArrow, modifiers: [])
FunctionButton(label: "SPLIT", isActive: radioViewModel.split) {
radioViewModel.toggleSplit()
}
.disabled(!radioViewModel.isConnected)
FunctionButton(label: "IPO", isActive: radioViewModel.ipo) {
// Toggle IPO
}
.disabled(!radioViewModel.isConnected)
Spacer()
}
.padding()
}
}
}
// MARK: - Function Button
struct FunctionButton: View {
let label: String
let isActive: Bool
var color: Color = .accentColor
let action: () -> Void
var body: some View {
Button(action: action) {
Text(label)
.font(.caption.bold())
.padding(.horizontal, 12)
.padding(.vertical, 8)
.background(isActive ? color : Color.secondary.opacity(0.2))
.foregroundColor(isActive ? .white : .primary)
.cornerRadius(6)
}
.buttonStyle(.plain)
}
}
// MARK: - Metering View
struct MeteringView: View {
@EnvironmentObject var radioViewModel: RadioViewModel
var body: some View {
GroupBox("Messwerte") {
VStack(spacing: 16) {
// S-Meter
VStack(alignment: .leading, spacing: 4) {
HStack {
Text("S-Meter")
.font(.caption)
.foregroundColor(.secondary)
Spacer()
Text(radioViewModel.sMeterDisplay)
.font(.caption.bold().monospacedDigit())
}
SMeterBar(value: Double(radioViewModel.sMeter) / 255.0)
}
// Power meter (only shown when transmitting)
if radioViewModel.isTransmitting {
VStack(alignment: .leading, spacing: 4) {
HStack {
Text("Leistung")
.font(.caption)
.foregroundColor(.secondary)
Spacer()
Text("\(radioViewModel.powerMeter)W")
.font(.caption.bold().monospacedDigit())
}
MeterBar(value: Double(radioViewModel.powerMeter) / 100.0, color: .orange)
}
VStack(alignment: .leading, spacing: 4) {
HStack {
Text("SWR")
.font(.caption)
.foregroundColor(.secondary)
Spacer()
Text(String(format: "%.1f:1", 1.0 + Double(radioViewModel.swrMeter) / 50.0))
.font(.caption.bold().monospacedDigit())
}
MeterBar(value: Double(radioViewModel.swrMeter) / 255.0, color: radioViewModel.swrMeter > 100 ? .red : .green)
}
}
}
.padding()
}
}
}
// MARK: - S-Meter Bar
struct SMeterBar: View {
let value: Double
var body: some View {
GeometryReader { geometry in
ZStack(alignment: .leading) {
// Background
RoundedRectangle(cornerRadius: 4)
.fill(Color.secondary.opacity(0.2))
// S-Unit markers
HStack(spacing: 0) {
ForEach(0..<10) { i in
Rectangle()
.fill(Color.secondary.opacity(0.3))
.frame(width: 1)
if i < 9 {
Spacer()
}
}
}
.padding(.horizontal, 2)
// Value bar
RoundedRectangle(cornerRadius: 4)
.fill(
LinearGradient(
colors: [.green, .yellow, .orange, .red],
startPoint: .leading,
endPoint: .trailing
)
)
.frame(width: max(0, geometry.size.width * value))
}
}
.frame(height: 20)
}
}
// MARK: - Meter Bar
struct MeterBar: View {
let value: Double
var color: Color = .green
var body: some View {
GeometryReader { geometry in
ZStack(alignment: .leading) {
RoundedRectangle(cornerRadius: 4)
.fill(Color.secondary.opacity(0.2))
RoundedRectangle(cornerRadius: 4)
.fill(color)
.frame(width: max(0, geometry.size.width * min(1, value)))
}
}
.frame(height: 16)
}
}
// MARK: - PTT Button
struct PTTButton: View {
@EnvironmentObject var radioViewModel: RadioViewModel
@State private var isPressed = false
var body: some View {
GroupBox("PTT") {
VStack(spacing: 12) {
Button {
radioViewModel.toggleTransmit()
} label: {
HStack {
Image(systemName: radioViewModel.isTransmitting ? "mic.fill" : "mic")
Text(radioViewModel.isTransmitting ? "EMPFANG" : "SENDEN")
.font(.headline)
}
.frame(maxWidth: .infinity)
.padding(.vertical, 16)
.background(radioViewModel.isTransmitting ? Color.red : Color.accentColor)
.foregroundColor(.white)
.cornerRadius(8)
}
.buttonStyle(.plain)
.disabled(!radioViewModel.isConnected)
Text("Shift-Taste gedrückt halten = PTT")
.font(.caption)
.foregroundColor(.secondary)
// TX indicator
HStack {
Circle()
.fill(radioViewModel.isTransmitting ? Color.red : Color.gray.opacity(0.3))
.frame(width: 16, height: 16)
Text(radioViewModel.isTransmitting ? "TX" : "RX")
.font(.caption.bold())
.foregroundColor(radioViewModel.isTransmitting ? .red : .green)
}
}
.padding()
}
}
}
// MARK: - Preview
#Preview {
ModernRadioView()
.environmentObject(RadioViewModel())
.environmentObject(SettingsController())
.frame(width: 800, height: 900)
.padding()
}
@@ -0,0 +1,148 @@
//
// AudioPanel.swift
// FT991A-Remote
//
// BlackHole audio routing panel
//
import SwiftUI
// MARK: - Audio Panel
struct AudioPanel: View {
@StateObject private var audioRouter = AudioRouter()
@EnvironmentObject var settingsController: SettingsController
var body: some View {
VStack(spacing: 0) {
// Header
HStack {
Text("Audio Routing")
.font(.headline)
Spacer()
Button {
audioRouter.refreshDevices()
} label: {
Image(systemName: "arrow.clockwise")
}
.help("Geräte aktualisieren")
}
.padding(.horizontal)
.padding(.vertical, 8)
.background(Color.secondary.opacity(0.1))
Divider()
ScrollView {
VStack(alignment: .leading, spacing: 16) {
// BlackHole Status
GroupBox("BlackHole Status") {
HStack {
Circle()
.fill(audioRouter.isBlackHoleInstalled ? Color.green : Color.red)
.frame(width: 12, height: 12)
Text(audioRouter.isBlackHoleInstalled ? "Installiert" : "Nicht gefunden")
Spacer()
if !audioRouter.isBlackHoleInstalled {
Link("Installieren", destination: URL(string: "https://existential.audio/blackhole/")!)
.font(.caption)
}
}
.padding(.vertical, 4)
if let device = audioRouter.blackHoleDevice {
Text("Gerät: \(device.name)")
.font(.caption)
.foregroundColor(.secondary)
}
}
// Input Device
GroupBox("Eingang (RX Audio)") {
Picker("Eingabegerät", selection: $audioRouter.selectedInputDevice) {
Text("Keines").tag(nil as AudioDeviceID?)
ForEach(audioRouter.inputDevices) { device in
Text(device.displayName).tag(device.id as AudioDeviceID?)
}
}
.pickerStyle(.menu)
if let ft991a = audioRouter.ft991aDevice {
HStack {
Image(systemName: "checkmark.circle.fill")
.foregroundColor(.green)
Text("FT-991A erkannt: \(ft991a.name)")
.font(.caption)
}
}
}
// Output Device
GroupBox("Ausgang (TX Audio)") {
Picker("Ausgabegerät", selection: $audioRouter.selectedOutputDevice) {
Text("Keines").tag(nil as AudioDeviceID?)
ForEach(audioRouter.outputDevices) { device in
Text(device.displayName).tag(device.id as AudioDeviceID?)
}
}
.pickerStyle(.menu)
}
// Digital Mode Configuration
GroupBox("Digitale Betriebsarten") {
VStack(alignment: .leading, spacing: 8) {
Text("Für FT8, WSPR, RTTY und andere digitale Modi:")
.font(.caption)
.foregroundColor(.secondary)
Button("Für Digimodes konfigurieren") {
_ = audioRouter.configureForDigitalModes()
}
.disabled(!audioRouter.isBlackHoleInstalled)
Toggle("BlackHole verwenden", isOn: $settingsController.useBlackHole)
.disabled(!audioRouter.isBlackHoleInstalled)
}
.padding(.vertical, 4)
}
// Routing Diagram
GroupBox("Routing-Schema") {
VStack(alignment: .leading, spacing: 4) {
Text("FT-991A USB Audio → BlackHole → WSJT-X/fldigi")
.font(.caption.monospaced())
Text("WSJT-X/fldigi → BlackHole → FT-991A USB Audio")
.font(.caption.monospaced())
}
.foregroundColor(.secondary)
.padding(.vertical, 4)
}
// Error display
if let error = audioRouter.lastError {
HStack {
Image(systemName: "exclamationmark.triangle")
.foregroundColor(.orange)
Text(error)
.font(.caption)
}
}
}
.padding()
}
}
}
}
// MARK: - Preview
#Preview {
AudioPanel()
.environmentObject(SettingsController())
.frame(width: 350, height: 500)
}
@@ -0,0 +1,178 @@
//
// DebugPanel.swift
// FT991A-Remote
//
// CAT command console for debugging
//
import SwiftUI
// MARK: - Debug Panel
struct DebugPanel: View {
@EnvironmentObject var radioViewModel: RadioViewModel
@State private var commandInput = ""
@State private var autoScroll = true
@State private var showOnlySent = false
@State private var showOnlyReceived = false
var filteredHistory: [CommandLogEntry] {
radioViewModel.commandHistory.filter { entry in
if showOnlySent && entry.direction != .sent { return false }
if showOnlyReceived && entry.direction != .received { return false }
return true
}
}
var body: some View {
VStack(spacing: 0) {
// Header
HStack {
Text("CAT Konsole")
.font(.headline)
Spacer()
// Filter buttons
Toggle("TX", isOn: Binding(
get: { showOnlySent },
set: { showOnlySent = $0; if $0 { showOnlyReceived = false } }
))
.toggleStyle(.button)
.controlSize(.small)
Toggle("RX", isOn: Binding(
get: { showOnlyReceived },
set: { showOnlyReceived = $0; if $0 { showOnlySent = false } }
))
.toggleStyle(.button)
.controlSize(.small)
Toggle(isOn: $autoScroll) {
Image(systemName: "arrow.down.to.line")
}
.toggleStyle(.button)
.controlSize(.small)
.help("Auto-Scroll")
Button {
radioViewModel.clearCommandHistory()
} label: {
Image(systemName: "trash")
}
.controlSize(.small)
.help("Verlauf löschen")
}
.padding(.horizontal)
.padding(.vertical, 8)
.background(Color.secondary.opacity(0.1))
Divider()
// Command history
ScrollViewReader { proxy in
ScrollView {
LazyVStack(alignment: .leading, spacing: 2) {
ForEach(filteredHistory) { entry in
CommandLogRow(entry: entry)
.id(entry.id)
}
}
.padding(.horizontal, 8)
.padding(.vertical, 4)
}
.font(.system(size: 11, design: .monospaced))
.onChange(of: radioViewModel.commandHistory.count) { _, _ in
if autoScroll, let last = filteredHistory.last {
withAnimation {
proxy.scrollTo(last.id, anchor: .bottom)
}
}
}
}
Divider()
// Command input
HStack {
TextField("CAT-Befehl eingeben (z.B. FA;)", text: $commandInput)
.textFieldStyle(.plain)
.font(.system(size: 12, design: .monospaced))
.onSubmit {
sendCommand()
}
Button("Senden") {
sendCommand()
}
.disabled(commandInput.isEmpty || !radioViewModel.isConnected)
.keyboardShortcut(.return, modifiers: [])
}
.padding(8)
.background(Color.secondary.opacity(0.1))
// Statistics
HStack {
Text("TX: \(radioViewModel.bytesSent) Bytes")
Spacer()
Text("RX: \(radioViewModel.bytesReceived) Bytes")
Spacer()
Text("\(radioViewModel.commandHistory.count) Befehle")
}
.font(.caption)
.foregroundColor(.secondary)
.padding(.horizontal, 8)
.padding(.vertical, 4)
}
}
private func sendCommand() {
guard !commandInput.isEmpty else { return }
var cmd = commandInput.trimmingCharacters(in: .whitespaces)
if !cmd.hasSuffix(";") {
cmd += ";"
}
radioViewModel.sendRawCommand(cmd)
commandInput = ""
}
}
// MARK: - Command Log Row
struct CommandLogRow: View {
let entry: CommandLogEntry
var body: some View {
HStack(alignment: .top, spacing: 8) {
Text(entry.timeString)
.foregroundColor(.secondary)
.frame(width: 80, alignment: .leading)
Text(entry.direction.symbol)
.foregroundColor(entry.direction == .sent ? .blue : .green)
.frame(width: 15)
Text(entry.command)
.foregroundColor(.primary)
if !entry.description.isEmpty {
Text("// \(entry.description)")
.foregroundColor(.secondary)
}
Spacer()
}
.padding(.vertical, 1)
}
}
// MARK: - Preview
#Preview {
DebugPanel()
.environmentObject(RadioViewModel())
.frame(width: 400, height: 500)
}
@@ -0,0 +1,318 @@
//
// LogPanel.swift
// FT991A-Remote
//
// QSO Log panel
//
import SwiftUI
// MARK: - Log Panel
struct LogPanel: View {
@EnvironmentObject var logViewModel: LogViewModel
@EnvironmentObject var radioViewModel: RadioViewModel
@State private var isAddingQSO = false
var body: some View {
VStack(spacing: 0) {
// Header
HStack {
Text("QSO Log")
.font(.headline)
Spacer()
Text("\(logViewModel.totalQSOs) QSOs")
.font(.caption)
.foregroundColor(.secondary)
Button {
isAddingQSO = true
} label: {
Image(systemName: "plus")
}
.help("Neues QSO hinzufügen")
}
.padding(.horizontal)
.padding(.vertical, 8)
.background(Color.secondary.opacity(0.1))
Divider()
// Quick entry form
if isAddingQSO {
QuickLogEntry(isPresented: $isAddingQSO)
Divider()
}
// Search and filter
HStack {
Image(systemName: "magnifyingglass")
.foregroundColor(.secondary)
TextField("Suchen...", text: $logViewModel.searchText)
.textFieldStyle(.plain)
if !logViewModel.searchText.isEmpty {
Button {
logViewModel.searchText = ""
} label: {
Image(systemName: "xmark.circle.fill")
.foregroundColor(.secondary)
}
.buttonStyle(.plain)
}
Picker("Sortierung", selection: $logViewModel.sortOrder) {
ForEach(LogViewModel.SortOrder.allCases, id: \.self) { order in
Text(order.rawValue).tag(order)
}
}
.pickerStyle(.menu)
.frame(width: 150)
}
.padding(.horizontal)
.padding(.vertical, 6)
Divider()
// QSO List
List {
ForEach(logViewModel.filteredEntries) { entry in
QSORow(entry: entry)
.contextMenu {
Button("Bearbeiten") {
logViewModel.selectedEntry = entry
}
Button("Löschen", role: .destructive) {
logViewModel.deleteQSO(entry)
}
}
}
.onDelete(perform: logViewModel.deleteQSOs)
}
.listStyle(.plain)
Divider()
// Footer with statistics
HStack {
Text("\(logViewModel.uniqueCallsigns) Stationen")
Spacer()
if let file = logViewModel.currentLogFile {
Text(file.lastPathComponent)
.lineLimit(1)
.truncationMode(.middle)
}
}
.font(.caption)
.foregroundColor(.secondary)
.padding(.horizontal)
.padding(.vertical, 4)
}
.sheet(item: $logViewModel.selectedEntry) { entry in
QSOEditSheet(entry: entry)
}
}
}
// MARK: - QSO Row
struct QSORow: View {
let entry: QSOEntry
var body: some View {
VStack(alignment: .leading, spacing: 4) {
HStack {
Text(entry.callsign)
.font(.headline)
Spacer()
Text(entry.dateDisplay)
.font(.caption)
.foregroundColor(.secondary)
Text(entry.timeDisplay)
.font(.caption)
.foregroundColor(.secondary)
}
HStack {
Text(entry.frequencyDisplay)
.font(.caption.monospacedDigit())
Text(entry.mode.rawValue)
.font(.caption)
.padding(.horizontal, 6)
.padding(.vertical, 2)
.background(Color.accentColor.opacity(0.2))
.cornerRadius(4)
Text(entry.bandDisplay)
.font(.caption)
.foregroundColor(.secondary)
Spacer()
Text("RST: \(entry.rstSent)/\(entry.rstReceived)")
.font(.caption)
.foregroundColor(.secondary)
}
if !entry.name.isEmpty || !entry.qth.isEmpty {
HStack {
if !entry.name.isEmpty {
Text(entry.name)
.font(.caption)
}
if !entry.qth.isEmpty {
Text("- \(entry.qth)")
.font(.caption)
.foregroundColor(.secondary)
}
}
}
}
.padding(.vertical, 4)
}
}
// MARK: - Quick Log Entry
struct QuickLogEntry: View {
@EnvironmentObject var logViewModel: LogViewModel
@EnvironmentObject var radioViewModel: RadioViewModel
@Binding var isPresented: Bool
var body: some View {
VStack(spacing: 8) {
HStack {
TextField("Rufzeichen", text: $logViewModel.currentQSO.callsign)
.textFieldStyle(.roundedBorder)
TextField("RST TX", text: $logViewModel.currentQSO.rstSent)
.textFieldStyle(.roundedBorder)
.frame(width: 50)
TextField("RST RX", text: $logViewModel.currentQSO.rstReceived)
.textFieldStyle(.roundedBorder)
.frame(width: 50)
}
HStack {
TextField("Name", text: $logViewModel.currentQSO.name)
.textFieldStyle(.roundedBorder)
TextField("QTH", text: $logViewModel.currentQSO.qth)
.textFieldStyle(.roundedBorder)
TextField("Locator", text: $logViewModel.currentQSO.locator)
.textFieldStyle(.roundedBorder)
.frame(width: 80)
}
HStack {
Button("Von Radio") {
logViewModel.updateFromRadio(
frequency: radioViewModel.activeFrequency,
mode: radioViewModel.mode,
power: radioViewModel.power
)
}
.disabled(!radioViewModel.isConnected)
Spacer()
Button("Abbrechen") {
logViewModel.resetCurrentQSO()
isPresented = false
}
Button("Speichern") {
logViewModel.addQSO()
isPresented = false
}
.disabled(logViewModel.currentQSO.callsign.isEmpty)
.keyboardShortcut(.return, modifiers: .command)
}
}
.padding()
.background(Color.secondary.opacity(0.05))
}
}
// MARK: - QSO Edit Sheet
struct QSOEditSheet: View {
@EnvironmentObject var logViewModel: LogViewModel
@Environment(\.dismiss) var dismiss
let entry: QSOEntry
@State private var editedEntry: QSOEntry
init(entry: QSOEntry) {
self.entry = entry
self._editedEntry = State(initialValue: entry)
}
var body: some View {
VStack(spacing: 16) {
Text("QSO bearbeiten")
.font(.headline)
Form {
TextField("Rufzeichen", text: $editedEntry.callsign)
TextField("Name", text: $editedEntry.name)
TextField("QTH", text: $editedEntry.qth)
TextField("Locator", text: $editedEntry.locator)
HStack {
TextField("RST TX", text: $editedEntry.rstSent)
TextField("RST RX", text: $editedEntry.rstReceived)
}
Picker("Mode", selection: $editedEntry.mode) {
ForEach(OperatingMode.allCases, id: \.self) { mode in
Text(mode.rawValue).tag(mode)
}
}
TextField("Notizen", text: $editedEntry.notes, axis: .vertical)
.lineLimit(3...6)
}
.formStyle(.grouped)
HStack {
Button("Abbrechen") {
dismiss()
}
.keyboardShortcut(.escape, modifiers: [])
Spacer()
Button("Speichern") {
logViewModel.updateQSO(editedEntry)
dismiss()
}
.keyboardShortcut(.return, modifiers: .command)
}
}
.padding()
.frame(width: 400, height: 400)
}
}
// MARK: - Preview
#Preview {
LogPanel()
.environmentObject(LogViewModel())
.environmentObject(RadioViewModel())
.frame(width: 350, height: 600)
}
@@ -0,0 +1,302 @@
//
// SettingsView.swift
// FT991A-Remote
//
// Application settings view
//
import SwiftUI
// MARK: - Settings View
struct SettingsView: View {
@EnvironmentObject var radioViewModel: RadioViewModel
@EnvironmentObject var settingsController: SettingsController
var body: some View {
TabView {
// Connection Settings
ConnectionSettingsView()
.tabItem {
Label("Verbindung", systemImage: "cable.connector")
}
// UI Settings
UISettingsView()
.tabItem {
Label("Oberfläche", systemImage: "paintbrush")
}
// Audio Settings
AudioSettingsView()
.tabItem {
Label("Audio", systemImage: "speaker.wave.2")
}
// Keyboard Settings
KeyboardSettingsView()
.tabItem {
Label("Tastatur", systemImage: "keyboard")
}
// Logging Settings
LoggingSettingsView()
.tabItem {
Label("Logging", systemImage: "doc.text")
}
}
.frame(width: 500, height: 400)
}
}
// MARK: - Connection Settings
struct ConnectionSettingsView: View {
@EnvironmentObject var settingsController: SettingsController
var body: some View {
Form {
Section("Serielle Verbindung") {
Picker("Standard-Baudrate", selection: $settingsController.defaultBaudRate) {
ForEach(SettingsController.availableBaudRates, id: \.self) { rate in
Text("\(rate) baud").tag(rate)
}
}
Toggle("Auto-Reconnect aktivieren", isOn: $settingsController.autoReconnect)
if settingsController.autoReconnect {
HStack {
Text("Intervall:")
Slider(value: $settingsController.reconnectInterval, in: 1...30, step: 1)
Text("\(Int(settingsController.reconnectInterval))s")
.frame(width: 30)
}
}
}
Section("FT-991A Einstellungen") {
Text("Stelle sicher, dass im Radio-Menü folgende Einstellungen aktiv sind:")
.font(.caption)
.foregroundColor(.secondary)
VStack(alignment: .leading, spacing: 4) {
Text("• CAT RATE: 38400 bps")
Text("• CAT TOT: 100 ms")
Text("• CAT RTS: OFF")
}
.font(.caption.monospaced())
}
}
.formStyle(.grouped)
.padding()
}
}
// MARK: - UI Settings
struct UISettingsView: View {
@EnvironmentObject var settingsController: SettingsController
var body: some View {
Form {
Section("Erscheinungsbild") {
Picker("UI-Stil", selection: $settingsController.uiStyle) {
Text("Modern").tag(UIStyle.modern)
Text("Frontpanel (Skeuomorph)").tag(UIStyle.skeuomorph)
}
Toggle("Kompakter Modus", isOn: $settingsController.compactMode)
}
Section("Sprache") {
Picker("Sprache", selection: $settingsController.language) {
ForEach(AppLanguage.allCases, id: \.self) { lang in
Text(lang.displayName).tag(lang)
}
}
Text("Änderungen werden nach Neustart wirksam.")
.font(.caption)
.foregroundColor(.secondary)
}
Section("Frequenz") {
Picker("Standard-Schrittweite", selection: $settingsController.frequencyStep) {
ForEach(FrequencyStep.allCases, id: \.self) { step in
Text(step.displayName).tag(step)
}
}
}
}
.formStyle(.grouped)
.padding()
}
}
// MARK: - Audio Settings
struct AudioSettingsView: View {
@EnvironmentObject var settingsController: SettingsController
@StateObject private var audioRouter = AudioRouter()
var body: some View {
Form {
Section("Audio-Geräte") {
Picker("Eingabegerät", selection: $settingsController.audioInputDevice) {
Text("Standard").tag("")
ForEach(audioRouter.inputDevices) { device in
Text(device.name).tag(device.uid)
}
}
Picker("Ausgabegerät", selection: $settingsController.audioOutputDevice) {
Text("Standard").tag("")
ForEach(audioRouter.outputDevices) { device in
Text(device.name).tag(device.uid)
}
}
}
Section("BlackHole Integration") {
HStack {
Circle()
.fill(audioRouter.isBlackHoleInstalled ? Color.green : Color.red)
.frame(width: 10, height: 10)
Text(audioRouter.isBlackHoleInstalled ? "BlackHole installiert" : "BlackHole nicht gefunden")
}
Toggle("BlackHole für Digimodes verwenden", isOn: $settingsController.useBlackHole)
.disabled(!audioRouter.isBlackHoleInstalled)
if !audioRouter.isBlackHoleInstalled {
Link("BlackHole herunterladen", destination: URL(string: "https://existential.audio/blackhole/")!)
}
}
}
.formStyle(.grouped)
.padding()
.onAppear {
audioRouter.refreshDevices()
}
}
}
// MARK: - Keyboard Settings
struct KeyboardSettingsView: View {
@EnvironmentObject var settingsController: SettingsController
var body: some View {
Form {
Section("Tastaturkürzel") {
Toggle("Shift = PTT (Push-to-Talk)", isOn: $settingsController.pttShortcutEnabled)
Toggle("Pfeiltasten = Frequenz ändern", isOn: $settingsController.arrowFrequencyEnabled)
Toggle("Pfeil hoch = ATU Tune", isOn: $settingsController.tunerShortcutEnabled)
}
Section("Übersicht") {
VStack(alignment: .leading, spacing: 8) {
KeyboardShortcutRow(key: "⌘K", action: "Verbinden/Trennen")
KeyboardShortcutRow(key: "⇧⌘S", action: "VFO A/B tauschen")
KeyboardShortcutRow(key: "⇧⌘E", action: "A=B")
KeyboardShortcutRow(key: "⇧⌘T", action: "ATU Tune")
KeyboardShortcutRow(key: "⌥⌘D", action: "Debug-Panel")
KeyboardShortcutRow(key: "⌥⌘L", action: "Log-Panel")
Divider()
KeyboardShortcutRow(key: "←/→", action: "Frequenz +/-")
KeyboardShortcutRow(key: "", action: "ATU Tune")
KeyboardShortcutRow(key: "Shift", action: "PTT (halten)")
}
}
}
.formStyle(.grouped)
.padding()
}
}
// MARK: - Keyboard Shortcut Row
struct KeyboardShortcutRow: View {
let key: String
let action: String
var body: some View {
HStack {
Text(key)
.font(.system(.caption, design: .monospaced))
.padding(.horizontal, 6)
.padding(.vertical, 2)
.background(Color.secondary.opacity(0.2))
.cornerRadius(4)
.frame(width: 70, alignment: .leading)
Text(action)
.font(.caption)
}
}
}
// MARK: - Logging Settings
struct LoggingSettingsView: View {
@EnvironmentObject var settingsController: SettingsController
var body: some View {
Form {
Section("Log-Speicherort") {
HStack {
TextField("Verzeichnis", text: $settingsController.logDirectory)
.textFieldStyle(.roundedBorder)
Button("Wählen...") {
selectDirectory()
}
}
Text("Aktueller Pfad: \(settingsController.expandedLogDirectory)")
.font(.caption)
.foregroundColor(.secondary)
}
Section("Automatisches Speichern") {
Toggle("Log automatisch speichern", isOn: $settingsController.autoSaveLog)
Text("Speichert QSOs automatisch nach jeder Eingabe.")
.font(.caption)
.foregroundColor(.secondary)
}
Section("CSV-Format") {
Text("Felder: Call, Datum, Zeit, Frequenz, Mode, RST TX/RX, Name, QTH, Locator, Power, Notizen")
.font(.caption)
.foregroundColor(.secondary)
}
}
.formStyle(.grouped)
.padding()
}
private func selectDirectory() {
let panel = NSOpenPanel()
panel.canChooseFiles = false
panel.canChooseDirectories = true
panel.allowsMultipleSelection = false
panel.canCreateDirectories = true
panel.prompt = "Auswählen"
if panel.runModal() == .OK, let url = panel.url {
settingsController.logDirectory = url.path
}
}
}
// MARK: - Preview
#Preview {
SettingsView()
.environmentObject(RadioViewModel())
.environmentObject(SettingsController())
}
@@ -0,0 +1,484 @@
//
// SkeuomorphRadioView.swift
// FT991A-Remote
//
// Skeuomorphic FT-991A front panel replica
//
import SwiftUI
// MARK: - Skeuomorph Radio View
struct SkeuomorphRadioView: View {
@EnvironmentObject var radioViewModel: RadioViewModel
var body: some View {
ZStack {
// Background - dark metal texture
LinearGradient(
colors: [Color(white: 0.15), Color(white: 0.1)],
startPoint: .top,
endPoint: .bottom
)
.ignoresSafeArea()
VStack(spacing: 0) {
// Top section - Display
FrontPanelDisplay()
.padding()
Divider()
.background(Color.gray.opacity(0.3))
// Middle section - Main controls
HStack(spacing: 30) {
// Left side controls
VStack(spacing: 20) {
DialKnob(label: "AF GAIN", value: Binding(
get: { Double(radioViewModel.afGain) / 255.0 },
set: { radioViewModel.setAFGain(Int($0 * 255)) }
))
DialKnob(label: "RF GAIN", value: Binding(
get: { Double(radioViewModel.rfGain) / 255.0 },
set: { radioViewModel.setRFGain(Int($0 * 255)) }
))
}
.disabled(!radioViewModel.isConnected)
Spacer()
// Center - Main VFO dial
MainVFODial()
Spacer()
// Right side controls
VStack(spacing: 20) {
DialKnob(label: "SQL", value: Binding(
get: { Double(radioViewModel.squelch) / 255.0 },
set: { radioViewModel.setSquelch(Int($0 * 255)) }
))
DialKnob(label: "MIC", value: Binding(
get: { Double(radioViewModel.micGain) / 100.0 },
set: { radioViewModel.setMICGain(Int($0 * 100)) }
))
}
.disabled(!radioViewModel.isConnected)
}
.padding(.horizontal, 40)
.padding(.vertical, 20)
Divider()
.background(Color.gray.opacity(0.3))
// Bottom section - Buttons
FrontPanelButtons()
.padding()
}
}
}
}
// MARK: - Front Panel Display
struct FrontPanelDisplay: View {
@EnvironmentObject var radioViewModel: RadioViewModel
var body: some View {
ZStack {
// LCD background
RoundedRectangle(cornerRadius: 8)
.fill(
LinearGradient(
colors: [Color(red: 0.05, green: 0.15, blue: 0.1), Color(red: 0.02, green: 0.1, blue: 0.05)],
startPoint: .top,
endPoint: .bottom
)
)
.overlay(
RoundedRectangle(cornerRadius: 8)
.stroke(Color.gray.opacity(0.5), lineWidth: 2)
)
VStack(spacing: 8) {
// Top row - Status indicators
HStack {
LCDIndicator(label: "VFO-A", isActive: radioViewModel.activeVFO == .a)
LCDIndicator(label: "VFO-B", isActive: radioViewModel.activeVFO == .b)
Spacer()
LCDIndicator(label: radioViewModel.mode.rawValue, isActive: true, color: .cyan)
Spacer()
LCDIndicator(label: "TX", isActive: radioViewModel.isTransmitting, color: .red)
}
.padding(.horizontal)
// Main frequency display
HStack {
Spacer()
Text(radioViewModel.frequencyDisplay)
.font(.system(size: 56, weight: .bold, design: .monospaced))
.foregroundColor(Color(red: 0.3, green: 1.0, blue: 0.5))
.shadow(color: Color(red: 0.3, green: 1.0, blue: 0.5).opacity(0.5), radius: 10)
Text("Hz")
.font(.system(size: 20, weight: .medium, design: .monospaced))
.foregroundColor(Color(red: 0.3, green: 1.0, blue: 0.5).opacity(0.7))
Spacer()
}
// S-Meter
LCDSMeter(value: Double(radioViewModel.sMeter) / 255.0)
.padding(.horizontal)
// Bottom row - Additional info
HStack {
Text("\(radioViewModel.power)W")
.foregroundColor(Color(red: 0.3, green: 1.0, blue: 0.5).opacity(0.8))
Spacer()
if let band = radioViewModel.currentBand {
Text(band.rawValue)
.foregroundColor(Color(red: 0.3, green: 1.0, blue: 0.5).opacity(0.8))
}
Spacer()
Text(radioViewModel.sMeterDisplay)
.foregroundColor(Color(red: 0.3, green: 1.0, blue: 0.5).opacity(0.8))
}
.font(.system(size: 14, design: .monospaced))
.padding(.horizontal)
}
.padding()
}
.frame(height: 200)
}
}
// MARK: - LCD Indicator
struct LCDIndicator: View {
let label: String
let isActive: Bool
var color: Color = .green
var body: some View {
Text(label)
.font(.system(size: 12, weight: .bold, design: .monospaced))
.foregroundColor(isActive ? color : color.opacity(0.3))
.padding(.horizontal, 6)
.padding(.vertical, 2)
.background(
RoundedRectangle(cornerRadius: 3)
.fill(isActive ? color.opacity(0.2) : Color.clear)
)
}
}
// MARK: - LCD S-Meter
struct LCDSMeter: View {
let value: Double
var body: some View {
VStack(spacing: 2) {
// Scale labels
HStack {
ForEach([1, 3, 5, 7, 9], id: \.self) { s in
Text("S\(s)")
.font(.system(size: 8, design: .monospaced))
.foregroundColor(Color(red: 0.3, green: 1.0, blue: 0.5).opacity(0.5))
if s < 9 { Spacer() }
}
Text("+20")
.font(.system(size: 8, design: .monospaced))
.foregroundColor(Color.red.opacity(0.5))
Spacer()
Text("+60")
.font(.system(size: 8, design: .monospaced))
.foregroundColor(Color.red.opacity(0.5))
}
// Bar segments
HStack(spacing: 2) {
ForEach(0..<20, id: \.self) { i in
let threshold = Double(i) / 20.0
let isLit = value >= threshold
let isRed = i >= 12 // Above S9
RoundedRectangle(cornerRadius: 1)
.fill(isLit ? (isRed ? Color.red : Color(red: 0.3, green: 1.0, blue: 0.5)) : Color.gray.opacity(0.2))
.frame(height: 16)
}
}
}
}
}
// MARK: - Dial Knob
struct DialKnob: View {
let label: String
@Binding var value: Double
@State private var isDragging = false
@State private var lastAngle: Double = 0
var body: some View {
VStack(spacing: 8) {
Text(label)
.font(.system(size: 10, weight: .bold))
.foregroundColor(.gray)
ZStack {
// Knob base
Circle()
.fill(
LinearGradient(
colors: [Color(white: 0.3), Color(white: 0.15)],
startPoint: .topLeading,
endPoint: .bottomTrailing
)
)
.overlay(
Circle()
.stroke(Color.gray.opacity(0.5), lineWidth: 2)
)
.shadow(color: .black.opacity(0.5), radius: 5, x: 2, y: 2)
// Knob texture (ridges)
ForEach(0..<12, id: \.self) { i in
Rectangle()
.fill(Color.white.opacity(0.1))
.frame(width: 1, height: 25)
.offset(y: -15)
.rotationEffect(.degrees(Double(i) * 30))
}
// Indicator line
Rectangle()
.fill(Color.white)
.frame(width: 3, height: 15)
.offset(y: -20)
.rotationEffect(.degrees(value * 270 - 135))
}
.frame(width: 60, height: 60)
.gesture(
DragGesture()
.onChanged { gesture in
let center = CGPoint(x: 30, y: 30)
let location = gesture.location
let angle = atan2(location.y - center.y, location.x - center.x)
let degrees = angle * 180 / .pi + 90
if isDragging {
let delta = (degrees - lastAngle) / 270
value = min(1, max(0, value + delta))
}
lastAngle = degrees
isDragging = true
}
.onEnded { _ in
isDragging = false
}
)
Text("\(Int(value * 100))%")
.font(.system(size: 10, design: .monospaced))
.foregroundColor(.gray)
}
}
}
// MARK: - Main VFO Dial
struct MainVFODial: View {
@EnvironmentObject var radioViewModel: RadioViewModel
@EnvironmentObject var settingsController: SettingsController
@State private var rotation: Double = 0
var body: some View {
VStack(spacing: 12) {
Text("MAIN DIAL")
.font(.system(size: 12, weight: .bold))
.foregroundColor(.gray)
ZStack {
// Large dial
Circle()
.fill(
LinearGradient(
colors: [Color(white: 0.25), Color(white: 0.1)],
startPoint: .topLeading,
endPoint: .bottomTrailing
)
)
.overlay(
Circle()
.stroke(Color.gray.opacity(0.5), lineWidth: 3)
)
.shadow(color: .black.opacity(0.5), radius: 10, x: 4, y: 4)
// Dial markings
ForEach(0..<36, id: \.self) { i in
Rectangle()
.fill(Color.white.opacity(i % 3 == 0 ? 0.3 : 0.1))
.frame(width: i % 3 == 0 ? 2 : 1, height: i % 3 == 0 ? 20 : 10)
.offset(y: -65)
.rotationEffect(.degrees(Double(i) * 10 + rotation))
}
// Center cap
Circle()
.fill(Color(white: 0.2))
.frame(width: 40, height: 40)
.overlay(
Circle()
.stroke(Color.gray.opacity(0.3), lineWidth: 1)
)
}
.frame(width: 160, height: 160)
.gesture(
DragGesture()
.onChanged { gesture in
let delta = gesture.translation.width / 2
rotation += delta
// Convert rotation to frequency change
let steps = Int(delta / 10)
if steps != 0 {
for _ in 0..<abs(steps) {
if steps > 0 {
radioViewModel.incrementFrequency()
} else {
radioViewModel.decrementFrequency()
}
}
}
}
)
.disabled(!radioViewModel.isConnected)
// Step indicator
Picker("Step", selection: $settingsController.frequencyStep) {
ForEach(FrequencyStep.allCases, id: \.self) { step in
Text(step.displayName).tag(step)
}
}
.pickerStyle(.menu)
.frame(width: 100)
}
}
}
// MARK: - Front Panel Buttons
struct FrontPanelButtons: View {
@EnvironmentObject var radioViewModel: RadioViewModel
var body: some View {
HStack(spacing: 12) {
// Mode buttons
Group {
PanelButton(label: "LSB", isActive: radioViewModel.mode == .lsb) {
radioViewModel.setMode(.lsb)
}
PanelButton(label: "USB", isActive: radioViewModel.mode == .usb) {
radioViewModel.setMode(.usb)
}
PanelButton(label: "CW", isActive: radioViewModel.mode == .cw) {
radioViewModel.setMode(.cw)
}
PanelButton(label: "FM", isActive: radioViewModel.mode == .fm) {
radioViewModel.setMode(.fm)
}
PanelButton(label: "AM", isActive: radioViewModel.mode == .am) {
radioViewModel.setMode(.am)
}
}
.disabled(!radioViewModel.isConnected)
Spacer()
// Function buttons
Group {
PanelButton(label: "NB", isActive: radioViewModel.noiseBlanker) {
radioViewModel.toggleNB()
}
PanelButton(label: "NR", isActive: radioViewModel.noiseReduction) {
radioViewModel.toggleNR()
}
PanelButton(label: "ATU", isActive: false, color: .orange) {
radioViewModel.startATUTune()
}
}
.disabled(!radioViewModel.isConnected)
Spacer()
// VFO buttons
Group {
PanelButton(label: "A/B", isActive: false) {
radioViewModel.swapVFO()
}
PanelButton(label: "SPLIT", isActive: radioViewModel.split) {
radioViewModel.toggleSplit()
}
}
.disabled(!radioViewModel.isConnected)
Spacer()
// PTT
PanelButton(label: radioViewModel.isTransmitting ? "RX" : "TX",
isActive: radioViewModel.isTransmitting,
color: .red,
size: .large) {
radioViewModel.toggleTransmit()
}
.disabled(!radioViewModel.isConnected)
}
}
}
// MARK: - Panel Button
struct PanelButton: View {
let label: String
let isActive: Bool
var color: Color = .green
var size: Size = .normal
let action: () -> Void
enum Size {
case normal, large
}
var body: some View {
Button(action: action) {
Text(label)
.font(.system(size: size == .large ? 14 : 11, weight: .bold))
.foregroundColor(isActive ? .white : .gray)
.frame(width: size == .large ? 60 : 45, height: size == .large ? 40 : 30)
.background(
RoundedRectangle(cornerRadius: 4)
.fill(isActive ? color : Color(white: 0.2))
.overlay(
RoundedRectangle(cornerRadius: 4)
.stroke(Color.gray.opacity(0.3), lineWidth: 1)
)
.shadow(color: isActive ? color.opacity(0.5) : .clear, radius: 5)
)
}
.buttonStyle(.plain)
}
}
// MARK: - Preview
#Preview {
SkeuomorphRadioView()
.environmentObject(RadioViewModel())
.environmentObject(SettingsController())
.frame(width: 900, height: 700)
}
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# FT-991A Remote Control App für macOS
Eine native macOS-Anwendung zur Fernsteuerung des Yaesu FT-991A Amateurfunk-Transceivers über USB (CAT-Protokoll).
## Features
### Verbindung
- USB virtueller COM-Port (Silicon Labs CP210x)
- Auto-Reconnect bei Verbindungsabbruch
- Unterstützte Baudraten: 4800, 9600, 19200, 38400 (Standard), 57600, 115200
### Benutzeroberfläche
- **Modern View**: Modernes, abstraktes UI-Design
- **Skeuomorph View**: Originalgetreue Nachbildung des FT-991A Frontpanels
- Abdockbare Panels (Log, Debug, Audio, Metering)
- Menüleisten-Betrieb für Hintergrundbetrieb
- Lokalisierung: Deutsch & Englisch
### Steuerung
- VFO A/B Frequenzsteuerung
- Betriebsarten: LSB, USB, CW, FM, AM, RTTY, DATA, C4FM
- Pegel: AF Gain, RF Gain, Squelch, MIC Gain, Power
- Funktionen: NB, NR, DNF, Contour, ATU, Split, IPO
- S-Meter, Power-Meter, SWR-Meter Anzeige
- PTT-Steuerung (Shift-Taste)
### Logging
- QSO-Log im CSV-Format
- Felder: Call, Datum, Zeit, Frequenz, Mode, RST TX/RX, Name, QTH, Locator, Power, Notizen
- Wählbarer Speicherort (Standard: ~/Documents/FT991A-Logs/)
- Automatisches Speichern
### Audio
- BlackHole Integration für digitale Betriebsarten
- Audio-Routing für WSJT-X, fldigi, etc.
### Tastaturkürzel
| Taste | Funktion |
|-------|----------|
| ⌘K | Verbinden/Trennen |
| Shift (halten) | PTT |
| ↑ | ATU Tune |
| ← / → | Frequenz -/+ |
| ⇧⌘S | VFO A/B tauschen |
| ⇧⌘E | A=B |
| ⌥⌘D | Debug-Panel |
| ⌥⌘L | Log-Panel |
## Systemanforderungen
- macOS 15.0 (Sequoia) oder neuer
- Yaesu FT-991A mit USB-Kabel
- Silicon Labs CP210x Treiber (normalerweise automatisch installiert)
## FT-991A Einstellungen
Stelle sicher, dass im Radio-Menü folgende Einstellungen aktiv sind:
```
Menu → CAT RATE: 38400 bps
Menu → CAT TOT: 100 ms
Menu → CAT RTS: OFF
```
## Installation
1. Projekt in Xcode öffnen
2. Build & Run (⌘R)
Oder für Release-Build:
1. Product → Archive
2. Distribute App → Copy App
## Projektstruktur
```
FT991A-Remote/
├── FT991A_RemoteApp.swift # App Entry Point
├── Models/
│ ├── RadioState.swift # Gerätezustand
│ ├── CATCommand.swift # CAT-Befehle
│ ├── QSOEntry.swift # Log-Einträge
│ └── Settings.swift # Einstellungen
├── Services/
│ ├── SerialPortManager.swift # USB Serial
│ ├── CATProtocol.swift # CAT Parser
│ ├── CSVManager.swift # Log-Dateien
│ └── AudioRouter.swift # BlackHole
├── ViewModels/
│ ├── RadioViewModel.swift # Radio-Logik
│ ├── LogViewModel.swift # Log-Logik
│ └── SettingsController.swift # Einstellungen
├── Views/
│ ├── MainView.swift # Hauptfenster
│ ├── ModernView/ # Moderne UI
│ ├── SkeuomorphView/ # Frontpanel
│ ├── Panels/ # Abdockbare Panels
│ ├── Settings/ # Einstellungen
│ └── MenuBar/ # Menüleiste
└── Utilities/
├── Logger.swift # Logging
└── Localization/ # DE/EN
```
## CAT-Befehle
Die App verwendet das Yaesu CAT-Protokoll. Wichtige Befehle:
| Befehl | Funktion |
|--------|----------|
| FA; | VFO-A Frequenz lesen |
| FA014250000; | VFO-A auf 14.250 MHz setzen |
| MD02; | Mode auf USB setzen |
| TX0; | PTT ein (MIC) |
| RX; | PTT aus |
| SM0; | S-Meter lesen |
## Entwicklung
### Phase 1 (aktuell)
- ✅ Projekt-Setup
- ✅ SerialPortManager
- ✅ CAT-Protokoll Parser
- ✅ RadioState Model
- ✅ Debug-UI
- ✅ Logging-System
### Phase 2-6 (geplant)
- Vollständiger CAT-Befehlssatz
- Erweiterte UI (Skeuomorph-Ansicht)
- QSO-Logging & CSV
- BlackHole Audio-Routing
- Tastaturkürzel
- Testing & Polish
## Lizenz
MIT License
## Autor
Entwickelt für Amateurfunk-Enthusiasten.
73!