High performance JAVA native gateway passthrough between multi usb serial port and multi socket without JS bridge, or just use multi usb serial port or socket alone.
The time socket -> serial port -> socket:
- JAVA native gateway takes 8ms
- JS bridge gateway takes 300ms
The usb serial port part include .aar library from felHR85/UsbSerial
The socket part copy and modify code from [email protected]
Remove executorService usage in writeSocketBytes, thus JAVA native gateway can have more smoother socket response rate.
High performance JAVA native gateway passthrough between socket and serialport without JS bridge
USB device access pop-up suppression
Add multi usb serial port connections support
const {DeviceEventEmitter, Platform} = require('react-native');
import {RNSerialport, actions} from 'react-native-usb-serialport';
const TcpSocketCreateServer = require('react-native-usb-serialport/src/index.js')
.createServer;
import _ from 'lodash';
class SerialportGateway {
static tcpSocketPort = 7700;
static tcpSocketServer = undefined;
// JAVA native gateway need these
static isNativeGateway = true;
static isNativeGatewayJsEventEmitOnSerialportData = true; // won't reduce native gateway performance
// JS bridge gateway need these and isNativeGateway should be false
static jsAppBus2DeviceName = {};
static jsDeviceName2Socket = {};
static emitter =
Platform.OS === 'ios'
? {
addListener: () => {},
removeListener: () => {},
emit: () => {},
}
: DeviceEventEmitter;
static doInit() {
this.emitter.addListener(
actions.ON_SERVICE_STARTED,
this.onServiceStarted,
this,
);
this.emitter.addListener(
actions.ON_SERVICE_STOPPED,
this.onServiceStopped,
this,
);
this.emitter.addListener(
actions.ON_DEVICE_ATTACHED,
this.onDeviceAttached,
this,
);
this.emitter.addListener(
actions.ON_DEVICE_DETACHED,
this.onDeviceDetached,
this,
);
this.emitter.addListener(actions.ON_ERROR, this.onError, this);
this.emitter.addListener(actions.ON_CONNECTED, this.onConnected, this);
this.emitter.addListener(
actions.ON_DISCONNECTED,
this.onDisconnected,
this,
);
this.emitter.addListener(actions.ON_READ_DATA, this.onReadData, this);
// RNSerialport.setReturnedDataType(definitions.RETURNED_DATA_TYPES.HEXSTRING);
Platform.OS === 'android' && RNSerialport.startUsbService();
if (Platform.OS === 'android') {
// who would build IoT project with ios :P
this.tcpSocketServer = TcpSocketCreateServer((socket) => {
console.warn(
'connected client ' + socket.remoteAddress + ':' + socket.remotePort,
);
if (!this.isNativeGateway) {
// setEncoding is meaningless when not isNativeGateway
socket.setEncoding('binary');
}
socket.on('data', (rawData) => {
if (this.isNativeGateway) {
console.warn('should not be here ');
return;
}
let data;
try {
data = JSON.parse(rawData);
} catch (err) {
data = [];
[].map.call(rawData, (value, index, str) => {
data.push(str.charCodeAt(index));
});
}
if (__DEV__) {
console.warn('from client ' + this.byteArray2HexArray(data));
}
let appBus = 0; // this example passthrough assume only one serial port, so 0 here, you can customize appBus from somewhere in the data received
let deviceName = this.jsAppBus2DeviceName[appBus];
if (deviceName) {
this.jsDeviceName2Socket[deviceName] = socket;
RNSerialport.writeBytes(deviceName, rawData);
}
});
socket.on('error', (error) => {
console.warn('client error ', error);
// socket.end();
});
socket.on('close', (error) => {
console.warn(
'closed client ' + socket.remoteAddress + ':' + socket.remotePort,
);
_.omitBy(this.jsDeviceName2Socket, (value) => value === socket);
// socket.destroy();
});
}).listen({port: this.tcpSocketPort});
this.tcpSocketServer.on('error', (error) => {
console.warn('server error ', error);
});
this.tcpSocketServer.on('close', () => {
console.warn('server closed');
});
}
}
static doDestroy() {
this.emitter.removeListener(
actions.ON_SERVICE_STARTED,
this.onServiceStarted,
this,
);
this.emitter.removeListener(
actions.ON_SERVICE_STOPPED,
this.onServiceStopped,
this,
);
this.emitter.removeListener(
actions.ON_DEVICE_ATTACHED,
this.onDeviceAttached,
this,
);
this.emitter.removeListener(
actions.ON_DEVICE_DETACHED,
this.onDeviceDetached,
this,
);
this.emitter.removeListener(actions.ON_ERROR, this.onError, this);
this.emitter.removeListener(actions.ON_CONNECTED, this.onConnected, this);
this.emitter.removeListener(
actions.ON_DISCONNECTED,
this.onDisconnected,
this,
);
this.emitter.removeListener(actions.ON_READ_DATA, this.onReadData, this);
if (Platform.OS === 'android') {
RNSerialport.disconnectAllDevices();
RNSerialport.stopUsbService();
if (this.tcpSocketServer) {
this.tcpSocketServer.destroy();
this.tcpSocketServer = undefined;
}
}
}
static onServiceStarted(response) {
console.warn('USB service started');
if (this.isNativeGateway) {
RNSerialport.setIsNativeGateway(this.isNativeGateway);
RNSerialport.setIsNativeGatewayJsEventEmitOnSerialportData(
this.isNativeGatewayJsEventEmitOnSerialportData,
);
}
if (response.deviceAttached) {
this.onDeviceAttached();
}
}
static onServiceStopped() {
console.warn('USB service stopped');
}
static onDeviceAttached(deviceName) {
console.warn('USB device attached ' + deviceName);
this.fillDeviceListAndConnect();
}
static onDeviceDetached(deviceName) {
console.warn('USB device detached ' + deviceName);
}
static onConnected(deviceName) {
console.warn(deviceName, 'USB serialPort connected');
let busIndex = this.getBusIndexFromDevPath(deviceName);
if (this.isNativeGateway) {
RNSerialport.appBus2DeviceNamePut(busIndex, deviceName);
} else {
this.jsAppBus2DeviceName[busIndex] = deviceName;
}
}
static onDisconnected(deviceName) {
console.warn(deviceName, 'USB serialPort disconnected');
if (this.isNativeGateway) {
// will auto appBus2DeviceName.values().removeIf(deviceName::equals) in RNSerialportModule.java
} else {
_.omitBy(this.jsAppBus2DeviceName, (value) => value === deviceName);
}
}
static onReadData(data) {
if (__DEV__) {
console.warn('onUsbSerialportReceiveData', {
linuxDevPath: data.deviceName,
valueArray: this.byteArray2HexArray(data.payload),
});
}
if (this.isNativeGateway) {
// will comes here when isNativeGatewayJsEventEmitOnSerialportData is true
this.emitter.emit('YOUR_APP_MAYBE_ALSO_NEED_JS_onSerialportReceiveData', {
linuxDevPath: data.deviceName,
valueArray: data.payload,
});
} else {
let socket = this.jsDeviceName2Socket[data.deviceName];
if (socket) {
socket.write(data.payload);
}
}
}
static onError(error) {
console.error(error);
}
// deviceName of usb serial device on your board, maybe replaced in fillDeviceListAndConnect()
static usbSerialPath = [
'/dev/bus/usb/001/003',
'/dev/bus/usb/001/005',
'/dev/bus/usb/001/007',
'/dev/bus/usb/001/009',
];
static getDevPathFromBusIndex(busIndex) {
return this.usbSerialPath[busIndex] || this.usbSerialPath[0];
}
static getBusIndexFromDevPath(devPath) {
let index = this.usbSerialPath.indexOf(devPath);
return index === -1 ? 0 : index;
}
static fillDeviceListAndConnect() {
RNSerialport.getDeviceList().then((list) => {
// console.warn(list);
// [
// {
// "name": "/dev/bus/usb/001/010",
// "productId": 20752,
// "vendorId": 1578
// },
// {
// "name": "/dev/bus/usb/001/009",
// "productId": 29987,
// "vendorId": 6790 // ch34x
// },
// {
// "name": "/dev/bus/usb/001/005",
// "productId": 29987,
// "vendorId": 6790 // ch34x
// },
// {
// "name": "/dev/bus/usb/002/002",
// "productId": 46880,
// "vendorId": 3034
// },
// {
// "name": "/dev/bus/usb/001/003",
// "productId": 29987,
// "vendorId": 6790 // ch34x
// },
// {
// "name": "/dev/bus/usb/001/007",
// "productId": 29987,
// "vendorId": 6790 // ch34x
// }
// ]
let ch34xUsbSerialPath = [];
list.map((item) => {
if (item.vendorId === 6790) {
ch34xUsbSerialPath.push(item.name);
}
});
// If you use Beckhoff like module, pull and plug some modules,
// their increased name should also be sorted.
ch34xUsbSerialPath = ch34xUsbSerialPath.sort();
ch34xUsbSerialPath.map((path, index) => {
this.usbSerialPath[index] = path;
});
this.enableLinuxDev({
devPaths: this.usbSerialPath,
});
});
}
static enableLinuxDev({devPaths}) {
if (Platform.OS === 'android') {
devPaths.map((path) => {
RNSerialport.connectDevice(path, 115200);
});
}
}
static disableLinuxDev({devPaths}) {
if (Platform.OS === 'android') {
devPaths.map((path) => {
RNSerialport.disconnectDevice(path);
});
}
}
static padHexString(string) {
if (string.length === 1) {
return '0' + string;
} else {
return string;
}
}
static hexString2ByteArray(string) {
let array = [];
[].map.call(string, (value, index, str) => {
if (index % 2 === 0) {
array.push(parseInt(value + str[index + 1], 16));
}
});
return array;
}
static byteArray2HexString(bytes) {
return bytes
.map((byte) => this.padHexString((byte & 0xff).toString(16)))
.toString()
.replace(/,/g, '')
.toUpperCase();
}
static byteArray2HexArray(bytes) {
return bytes
.map((byte) => this.padHexString((byte & 0xff).toString(16)))
.toString();
}
}
module.exports = SerialportGateway;HOST=192.168.1.108 PORT=7700 node app/utils/tcpSocketClientTest.js
192.168.1.108is the IP address of your phone which runs APP7700equals tcpSocketPort insideSerialportGateway.jsabovetcpSocketClientTest.jsis below
var net = require('net');
var port = process.env.PORT || 7700;
var host = process.env.HOST || '127.0.0.1';
var client = new net.Socket();
function padHexString(string) {
if (string.length === 1) {
return '0' + string;
} else {
return string;
}
}
function byteArray2HexArray(bytes) {
return bytes
.map((byte) => padHexString((byte & 0xff).toString(16)))
.toString();
}
function sleepMs(ms) {
return new Promise((resolve) => setTimeout(resolve, ms));
}
const DELAY_MS_SOCKET = 0;
let isBusy = true;
client.setEncoding('binary');
client.connect(port, host, async function () {
console.log('connected server ' + host + ':' + port);
for (let i = 0; i < 10; i++) {
client.write(Buffer.from([0xaa, 0, 1, 2, 3, 4, 5, 6, 7, 0x55]));
while (isBusy) {
await sleepMs(DELAY_MS_SOCKET);
}
isBusy = true;
}
return;
});
client.on('data', function (rawData) {
isBusy = false;
let data;
try {
data = JSON.parse(rawData);
} catch (err) {
data = [];
[].map.call(rawData, (value, index, str) => {
data.push(str.charCodeAt(index));
});
}
console.log('from server ' + byteArray2HexArray(data));
});
client.on('error', function (exception) {
console.log('socket error ' + exception);
client.destory();
});
client.on('close', function () {
console.log('closed server ' + host + ':' + port);
});Write your own YOUR_RN_PROJECT/app/utils/SerialportGateway.java, and run below in YOUR_RN_PROJECT/:
ln -sf ../../../../../../../../../app/utils/SerialportGateway.java node_modules/react-native-usb-serialport/android/src/main/java/com/melihyarikkaya/rnserialport/Gateway.java
Ref to Gateway Example As Usage above with methods below:
setIsNativeGateway
setIsNativeGatewayJsEventEmitOnSerialportData
appBus2DeviceNamePut
Ref to Gateway Example As Usage above and README of react-native-tcp-socket.
Fork diff from react-native-serialport
Add multi usb serial port connections support after forked from react-native-serialport
- $ npm install --save react-native-serialport
+ $ npm install --save react-native-usb-serialport
- import { RNSerialport, definitions, actions } from "react-native-serialport";
+ import { RNSerialport, definitions, actions } from "react-native-usb-serialport";
- RNSerialport.disconnect();
+ RNSerialport.disconnectDevice('/dev/bus/usb/001/007');
+ RNSerialport.disconnectAllDevices();
- RNSerialport.isOpen();
+ RNSerialport.isOpen('/dev/bus/usb/001/007');
- RNSerialport.writeBytes([0, 1, 2, 3]);
+ RNSerialport.writeBytes('/dev/bus/usb/001/007', [0, 1, 2, 3]);
- RNSerialport.writeString('HELLO');
+ RNSerialport.writeString('/dev/bus/usb/001/007', 'HELLO');
- RNSerialport.writeBase64('SEVMTE8=');
+ RNSerialport.writeBase64('/dev/bus/usb/001/007', 'SEVMTE8=');
- RNSerialport.writeHexString('48454C4C4F');
+ RNSerialport.writeHexString('/dev/bus/usb/001/007', '48454C4C4F');Add the following android intent to android/app/src/main/AndroidManifest.xml so that permissions are remembered on android (VS not remembered by usbManager.requestPermission())
<activity
...
...
>
<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/usb_device_filter" />
</activity>
And create a filter file in android/app/src/main/res/xml/usb_device_filter.xml
<?xml version="1.0" encoding="utf-8"?>
<resources>
<!-- vendor-id 6790 means ch34x usb serial port -->
<usb-device vendor-id="6790" product-id="29987" />
</resources>
The vendor-id and product-id here have to be given in decimal, and they can be get by RNSerialport.getDeviceList().then(console.warn)
| KEY | VALUE |
|---|---|
| RETURNED DATA TYPE | INT ARRAY (Options: INTARRAY, HEXSTRING) |
| BAUND RATE | 9600 |
| AUTO CONNECT BAUD RATE | 9600 |
| PORT INTERFACE | -1 |
| DATA BIT | 8 |
| STOP BIT | 1 |
| PARITY | NONE |
| FLOW CONTROL | OFF |
| DRIVER | AUTO |
com.melihyarikkaya.rnserialport
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