An Android USB Serial Flutter Plugin
This plugin allows Flutter code to interact with USB serial devices connected to your Android device. For example an FTDI or CDC based USB device.
Add a dependency to your pubspec.yaml
dependencies:
usb_serial: ^0.2.4
include the usbserial package at the top of your dart file.
import 'package:usb_serial/usb_serial.dart'
Edit android\app\build.gradle and add
compileOptions {
sourceCompatibility 1.8
targetCompatibility 1.8
}
to the 'android' object, see build.grade from the example project for a template on how to do this. Without this you'll get a bunch or Java errors.
Add
<intent-filter>
<action android:name="android.hardware.usb.action.USB_DEVICE_ATTACHED" />
</intent-filter>
<meta-data android:name="android.hardware.usb.action.USB_DEVICE_ATTACHED"
android:resource="@xml/device_filter" />
to your AndroidManifest.xml
and place device_filter.xml
<?xml version="1.0" encoding="utf-8"?>
<resources>
<!-- 0x0403 / 0x6001: FTDI FT232R UART -->
<usb-device vendor-id="1027" product-id="24577" />
<!-- 0x0403 / 0x6015: FTDI FT231X -->
<usb-device vendor-id="1027" product-id="24597" />
<!-- 0x2341 / Arduino -->
<usb-device vendor-id="9025" />
<!-- 0x16C0 / 0x0483: Teensyduino -->
<usb-device vendor-id="5824" product-id="1155" />
<!-- 0x10C4 / 0xEA60: CP210x UART Bridge -->
<usb-device vendor-id="4292" product-id="60000" />
<!-- 0x067B / 0x2303: Prolific PL2303 -->
<usb-device vendor-id="1659" product-id="8963" />
<!-- 0x1366 / 0x0105: Segger JLink -->
<usb-device vendor-id="4966" product-id="261" />
<!-- 0x1366 / 0x0105: CH340 JLink -->
<usb-device vendor-id="1A86" product-id="7523" />
</resources>
in the res/xml directory. This will notify your app when one of the specified devices is plugged in.
...
onPressed: () async {
List<UsbDevice> devices = await UsbSerial.listDevices();
print(devices);
UsbPort port;
if (devices.length == 0) {
return;
}
port = await devices[0].create();
bool openResult = await _port.open();
if ( !openResult ) {
print("Failed to open");
return;
}
await port.setDTR(true);
await port.setRTS(true);
port.setPortParameters(115200, UsbPort.DATABITS_8,
UsbPort.STOPBITS_1, UsbPort.PARITY_NONE);
// print first result and close port.
port.inputStream.listen((Uint8List event) {
print(event);
port.close();
});
await port.write(Uint8List.fromList([0x10, 0x00]));
}
...
This API is a layer on top of the asynchronous part of the library. It provides two Stream Transformers and a Transaction helper based on the StreamQueue class.
- Terminated Transformer, this splits incoming data based on a configurable end of message bytes "terminator".
- Magic Header + Length byte, this splits incoming data based on a configurable header ( with wildcards! ) and a length byte directly following the header.
In case neither is a fit, you can use one of those Transformers to create you own that is specific to the binary format you are dealing with.
...
Transaction<String> transaction = Transaction.stringTerminated(port.inputStream, Uint8List.fromList([13,10]));
...
// While using transactions you can still listen to all
// incoming messages!
transaction.stream.listen( (String data) {
print(data);
});
// you can write asynchronous messages as before!
p.write(Uint8List.fromList([65,66,13,10]));
// BUT you can also write 'transactions'. This is a combination of a flush, write and wait for response
// with a timeout. If no response is received within the timeout a null value is returned.
// this sends "AB\r\n"
var response = await transaction.transaction(p, Uint8List.fromList([65,66,13,10]), Duration(seconds: 1) );
print("The response was $response");
This library depends on: