SwiftOBD2 is a Swift package designed to simplify communication with vehicles using an ELM327 OBD2 adapter. It provides a straightforward and powerful interface for interacting with your vehicle's onboard diagnostics system, allowing you to retrieve real-time data and perform diagnostics. Sample App.
- iOS 14.0+ / macOS 11.0+
- Xcode 13.0+
- Swift 5.0+
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Connection Management:
- Establishes connections to the OBD2 adapter via Bluetooth or Wi-Fi.
- Handles the initialization of the adapter and the vehicle connection process.
- Manages connection states (disconnected, connectedToAdapter, connectedToVehicle).Command Interface: Send and receive OBD2 commands for powerful interaction with your vehicle.
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Data Retrieval:
- Supports requests for real-time vehicle data (RPM, speed, etc.) using standard OBD2 PIDs (Parameter IDs).
- Provides functions to continuously poll and retrieve updated measurements.
- Can get a list of supported PIDs from the vehicle.
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Diagnostics:
- Retrieves and clears diagnostic trouble codes (DTCs).
- Gets the overall status of the vehicle's onboard systems.Sensor Monitoring: Retrieve and view data from various vehicle sensors in real time.
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Adaptability and Configuration
- Can switch between Bluetooth and Wi-Fi communication seamlessly.
- Allows for testing and development with a demo mode.
- Connect to an OBD2 adapter via Bluetooth Low Energy (BLE)
- Retrieve error codes (DTCs) stored in the vehicle's OBD2 system
- Retrieve various OBD2 Parameter IDs (PIDs) for monitoring vehicle parameters
- Retrieve real-time vehicle data (RPM, speed, etc.) using standard OBD2 PIDs
- Get supported PIDs from the vehicle
- Clear error codes (DTCs) stored in the vehicle's OBD2 system
- Run tests on the OBD2 system
- Retrieve vehicle status since DTCs cleared
- Connect to an OBD2 adapter via WIFI
- Add support for custom PIDs
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Create a New Swift Project:
- Open Xcode and start a new iOS project (You can use a simple "App" template).
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Add the SwiftOBD2 Package:
- In Xcode, navigate to File > Add Packages...
- Enter this repository's URL: https://github.com/kkonteh97/SwiftOBD2/
- Select the desired dependency rule (version, branch, or commit).
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Permissions and Capabilities:
- If your app will use Bluetooth, you need to request the appropriate permissions and capabilities:
- Add NSBluetoothAlwaysUsageDescription to your Info.plist file with a brief description of why your app needs to use Bluetooth.
- Navigate to the Signing & Capabilities tab in your project settings and add the Background Modes capability. Enable the Uses Bluetooth LE Accessories option.
- If your app will use Bluetooth, you need to request the appropriate permissions and capabilities:
- SwiftUI & Combine: Your code leverages the SwiftUI framework for building the user interface and Combine for reactive handling of updates from the OBDService.
- OBDService: This is the core class within the SwiftOBD2 package. It handles communication with the OBD-II adapter and processes data from the vehicle.
- OBDServiceDelegate: This protocol is crucial for receiving updates about the connection state and other events from the OBDService.
- OBDCommand: These represent specific requests you can make to the vehicle's ECU (Engine Control Unit) for data.
- Import and Setup
- Begin by importing the necessary modules:
import SwiftUI
import SwiftOBD2
import Combine-
ViewModel
- Create a ViewModel class that conforms to the ObservableObject protocol. This allows your SwiftUI views to observe changes in the ViewModel.
- Inside the ViewModel:
- Define a @Published property measurements to store the collected data.
- Initialize an OBDService instance, setting the desired connection type (e.g., Bluetooth, Wi-Fi).
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Connection Handling
- Implement the connectionStateChanged method from the OBDServiceDelegate protocol. Update the UI based on connection state changes (disconnected, connected, etc.) or handle any necessary logic.
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Starting the Connection
- Create a startConnection function (ideally using async/await) to initiate the connection process with the OBD-II adapter. The OBDService's startConnection method will return useful OBDInfo about the vehicle. Like the Supported PIDs, Protocol, etc.
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Stopping the Connection
- Create a stopConnection function to cleanly disconnect the service.
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Retrieving Information
- Use the OBDService's methods to retrieve data from the vehicle, such as getting the vehicle's status, scanning for trouble codes, or requesting specific PIDs.
- getTroubleCodes: Retrieve diagnostic trouble codes (DTCs) from the vehicle's OBD-II system.
- getStatus: Retrieves Status since DTCs cleared.
- Use the OBDService's methods to retrieve data from the vehicle, such as getting the vehicle's status, scanning for trouble codes, or requesting specific PIDs.
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Continuous Updates
- Use the startContinuousUpdates method to continuously poll and retrieve updated measurements from the vehicle. This method returns a Combine publisher that you can subscribe to for updates.
- Can also add PIDs to the continuous updates using the addPID method.
class ViewModel: ObservableObject {
@Published var measurements: [OBDCommand: MeasurementResult] = [:]
@Published var connectionState: ConnectionState = .disconnected
var cancellables = Set<AnyCancellable>()
var requestingPIDs: [OBDCommand] = [.mode1(.rpm)] {
didSet {
addPID(command: requestingPIDs[-1])
}
}
init() {
obdService.$connectionState
.assign(to: &$connectionState)
}
let obdService = OBDService(connectionType: .bluetooth)
func startContinousUpdates() {
obdService.startContinuousUpdates([.mode1(.rpm)]) // You can add more PIDs
.sink { completion in
print(completion)
} receiveValue: { measurements in
self.measurements = measurements
}
.store(in: &cancellables)
}
func addPID(command: OBDCommand) {
obdService.addPID(command)
}
func stopContinuousUpdates() {
cancellables.removeAll()
}
func startConnection() async throws {
let obd2info = try await obdService.startConnection(preferedProtocol: .protocol6)
print(obd2info)
}
func stopConnection() {
obdService.stopConnection()
}
func switchConnectionType() {
obdService.switchConnectionType(.wifi)
}
func getStatus() async {
let status = try? await obdService.getStatus()
print(status ?? "nil")
}
func getTroubleCodes() async {
let troubleCodes = try? await obdService.scanForTroubleCodes()
print(troubleCodes ?? "nil")
}
}
struct ContentView: View {
@ObservedObject var viewModel = ViewModel()
var body: some View {
VStack(spacing: 20) {
Text("Connection State: \(viewModel.connectionState.rawValue)")
ForEach(viewModel.requestingPIDs, id: \.self) { pid in
Text("\(pid.properties.description): \(viewModel.measurements[pid]?.value ?? 0) \(viewModel.measurements[pid]?.unit.symbol ?? "")")
}
Button("Connect") {
Task {
do {
try await viewModel.startConnection()
viewModel.startContinousUpdates()
} catch {
print(error)
}
}
}
.buttonStyle(.bordered)
Button("Stop") {
viewModel.stopContinuousUpdates()
}
.buttonStyle(.bordered)
Button("Add PID") {
viewModel.requestingPIDs.append(.mode1(.speed))
}
}
.padding()
}
}A comprehensive list of supported OBD2 commands will be available in the full documentation (coming soon).
- Ensure you have a compatible ELM327 OBD2 adapter.
- Permissions: If using Bluetooth, your app may need to request Bluetooth permissions from the user.
- Error Handling: Implement robust error handling mechanisms to gracefully handle potential communication issues.
- Background Updates (Optional): If your app needs background OBD2 data updates, explore iOS background fetch capabilities and fine-tune your library and app to work effectively in the background.
This project welcomes your contributions! Feel free to open issues for bug reports or feature requests. To contribute code:
- Fork the repository.
- Create your feature branch.
- Commit your changes with descriptive messages.
- Submit a pull request for review.
The Swift OBD package is distributed under the MIT license. See the LICENSE file for more details.