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devicestack
Advanced tools
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This module helps you to represent a device and its protocol.
___________________________________________________ | | | | | | tasks | | |________________ deviceguider |__________| | | | | | | deviceloader | | commands | |________________|__________________|_______________| | | ___________________| | | connection | | | device |______________| framehandler(s) | | |___________________| | | |___________________________________________________|
Each of the following software components can be used separately if you want...
Device -> SerialDevice -> FtdiSerialDevice
Device -> FtdiDevice -> FtdiSerialDevice
DeviceLoader -> SerialDeviceLoader
DeviceLoader -> FtdiDeviceLoader -> EventedFtdiDeviceLoader
DeviceGuider -> SerialDeviceGuider
Device represents your physical device.
Implement the open mechanism to your device. Call with optional callback. On opened emit 'open' and call the callback.
require('devicestack').SerialDevice
this mechanism is already defined!require('devicestack').FtdiDevice
this mechanism is already defined!require('devicestack').FtdiSerialDevice
this mechanism is already defined!Implement the close mechanism to your device. Call with optional callback. On closed emit 'close' and call the callback.
require('devicestack').SerialDevice
this mechanism is already defined!require('devicestack').FtdiDevice
this mechanism is already defined!require('devicestack').FtdiSerialDevice
this mechanism is already defined!Implement the send mechanism to your device by subscribing the 'send' event. Call send or emit 'send' on the device with a byte array.
require('devicestack').Device
the send function is already defined!Implement the receive mechanism from your device by emitting the 'receive' event. When you receive data from your device emit 'receive' with a byte array.
require('devicestack').SerialDevice
this mechanism is already defined!require('devicestack').FtdiDevice
this mechanism is already defined!require('devicestack').FtdiSerialDevice
this mechanism is already defined!Implement the connect mechanism to your device. Call with optional callback. On connecting emit 'opening', create a new connection instance and call open by passing the callback.
require('devicestack').Device
this mechanism is already defined!Implement the disconnect mechanism to your device. Call with optional callback. On disconnecting emit 'closing' and call close by passing the callback.
require('devicestack').Device
this mechanism is already defined!Sets attributes for the device.
require('devicestack').Device
this mechanism is already defined!example:
device.set('firmwareVersion', '0.0.1');
// or
device.set({
firmwareVersion: '0.0.1',
bootloaderVersion: '0.0.1'
});
Gets an attribute of the device.
require('devicestack').Device
this mechanism is already defined!example:
device.get('firmwareVersion'); // returns '0.0.1'
Connection will be created from connect of device.
onConnecting
function if exists and emits 'connecting' and 'connect'In extended constuctor create the framehandler(s) and subscribe to receive on the last framehandler.
Implement the close mechanism.
Call with optional callback. On closing emit 'disconnecting', call onDisconnecting
function if exists, on disconnected emit 'disconnect' and call close on device by passing the callback.
require('devicestack').Connection
this mechanism is already defined!Define onConnecting
function if you need to send some commands before definitely connected?
Define onDisconnecting
function if you need to send some commands before definitely disconnected?
Sets attributes for the connection.
require('devicestack').Connection
this mechanism is already defined!example:
connection.set('firmwareVersion', '0.0.1');
// or
connection.set({
firmwareVersion: '0.0.1',
bootloaderVersion: '0.0.1'
});
Gets an attribute of the connection.
require('devicestack').Connection
this mechanism is already defined!example:
connection.get('firmwareVersion'); // returns '0.0.1'
Executes the passing command. Pushes the command in a queue and calls the sendCommand function.
Sends the passing command. Implement the executeCommand mechanism.
Executes the passing task.
require('devicestack').Connection
this mechanism is already defined!Runs the passing task.
require('devicestack').Connection
this mechanism is already defined!Runs the passing task.
require('devicestack').Connection
this mechanism is already defined!Checks if there is a task in the queue and runs it.
require('devicestack').Connection
this mechanism is already defined!Checks if there is something to execute and executes it. IMPORTANT!!! Call this function when a command answer is handled!
require('devicestack').Connection
this mechanism is already defined!You can have one or multiple framehandlers. A framhandler receives data from the upper layer and sends it to the lower layer by wrapping some header or footer information. A framehandler receives data from lower layer and sends it to the upper layer by unwrapping some header or footer information. The lowest layer for a framehandler is the device and the topmost ist the connection.
wrapFrame
function if exists and calls send
function on lower layerunwrapFrame
function if exists and emits receive
Calls analyzeNextFrame
function in a loop.
require('devicestack').FrameHandler
this mechanism is already defined!Triggers the analyze
function.
require('devicestack').FrameHandler
this mechanism is already defined!Call send or emit 'send' on the device with a byte array.
require('devicestack').FrameHandler
this mechanism is already defined!Implement the analyzeNextFrame mechanism that returns a frame as byte array or null of no frame found. Call with current incomming buffer.
Define wrapFrame
function if you need to wrap frames?
Define unwrapFrame
function if you need to unwrap frames?
A deviceloader can check if there are available some devices.
Creates an interval that calls trigger
function.
Call with optional interval in milliseconds and optional callback.
require('devicestack').DeviceLoader
this mechanism is already defined!Stops the interval that calls trigger
function.
require('devicestack').DeviceLoader
this mechanism is already defined!Calls lookup
function with optional callback and emits 'plug' for new attached devices and 'unplug' for removed devices.
require('devicestack').DeviceLoader
this mechanism is already defined!Call with optional callback and call callback with an array of devices.
require('devicestack').SerialDeviceLoader
this mechanism is already defined!require('devicestack').FtdiDeviceLoader
this mechanism is already defined!A deviceguider emits 'plug' for new attached devices, 'unplug' for removed devices, emits 'connect' for connected devices and emits 'disconnect' for disconnected devices.
Call with callback and it calls the callback with the current state, containing the connectionMode, the list of plugged devices and the list of connected devices.
require('devicestack').DeviceGuider
this mechanism is already defined!Call without arguments it emits 'connectionModeChanged'. When plugging a device it will now automatically connect it and emit 'connect'. Already plugged devices will connect immediately.
require('devicestack').DeviceGuider
this mechanism is already defined!Call with optional callback it emits 'connectionModeChanged'. When plugging one device it will now automatically connect one and emit 'connect'. If there is already a plugged device, it will connect immediately and call the callback.
require('devicestack').DeviceGuider
this mechanism is already defined!Call with optional holdConnections flag and optional callback it emits 'connectionModeChanged'. When plugging a device it will not connect it. Dependent on the holdConnections flag already connected devices will disconnect immediately and call the callback.
require('devicestack').DeviceGuider
this mechanism is already defined!Call with the deviceId or the device and optional callback it will connect that device and call the callback.
require('devicestack').DeviceGuider
this mechanism is already defined!Call with the deviceId or the device and optional callback it will disconnect that device and call the callback.
require('devicestack').DeviceGuider
this mechanism is already defined!Call with the connectionId or the connection and optional callback it will close that connection and call the callback.
require('devicestack').DeviceGuider
this mechanism is already defined!Call with a connectionMode value it checks if the connectionMode will change and returns true or false.
require('devicestack').DeviceGuider
this mechanism is already defined!Call with a connectionMode value it checks if the connectionMode will change and emits 'connectionModeChanged'.
require('devicestack').DeviceGuider
this mechanism is already defined!Call with the portname and optional callback it will connect that device and call the callback.
require('devicestack').SerialDeviceGuider
this mechanism is already defined!Call with the portname and optional callback it will disconnect that device and call the callback.
require('devicestack').SerialDeviceGuider
this mechanism is already defined!Build your own commands looking like this:
var Command = require('../../index').Command,
util = require('util');
function MyCommand(firstByte) {
// call super class
Command.call(this);
firstByte = firstByte || 0x01;
this.data = [firstByte, 0x02, 0x03];
}
util.inherits(MyCommand, Command);
MyCommand.prototype.execute = function(connection, callback) {
connection.executeCommand(this, callback);
};
module.exports = MyCommand;
Build your own tasks looking like this:
var Task = require('../../index').Task,
util = require('util'),
MyCommand = require('./myCommand');
function MyTask(identifier) {
// call super class
Task.call(this);
this.command = new MyCommand(identifier);
}
util.inherits(MyTask, Task);
MyTask.prototype.perform = function(connection, callback) {
this.execute(this.command, connection, callback);
};
module.exports = MyTask;
Some utility functions are shipped with this module.
Converts a byte array to a number. [0x01, 0x00].toNumber() // returns 256
Converts a byte array to a buffer object. [0x01, 0x00].toBuffer()
Converts a byte array to a readable hex string. [0x01, 0x00].toHexDebug() // returns '01-00'
Converts a byte array to a hex string. [0x01, 0x00].toHexString() // returns '0100'
Converts a buffer object to a byte array. (new Buffer([0x01, 0x00])).toArray() // returns [0x01, 0x00]
Converts a buffer object to a readable hex string. (new Buffer([0x01, 0x00])).toHexDebug() // returns '01-00'
Converts a buffer object to a number. (new Buffer([0x01, 0x00])).toNumber() // returns 256
Converts a number to a byte array. (256).toArray() // returns [0x01, 0x00]
Converts a number to a buffer object. (256).toArray() // returns [0x01, 0x00]
Converts a hex string to a byte array. '0100'.toArray() // returns [0x01, 0x00]
The Enum type is automatically registered in node.js. For documentation look at enum.
npm install devicestack
var Device = require('devicestack').Device
, util = require('util');
function MyDevice() {
// call super class
Device.call(this);
}
util.inherits(MyDevice, Device);
MyDevice.prototype.open = function(callback) {
var self = this;
setTimeout(function() {
self.emit('open', callback);
if (!self.connection && callback) callback();
}, 10);
this.on('send', function(data) {
setTimeout(function() {
self.emit('receive', data);
}, 5);
});
};
MyDevice.prototype.close = function(callback, fire) {
var self = this;
setTimeout(function() {
self.emit('close', callback);
self.removeAllListeners();
if (callback && (!self.connection || fire)) callback(null);
}, 10);
};
module.exports = MyDevice;
var SerialDevice = require('devicestack').SerialDevice
, util = require('util');
function MyDevice(port) {
// call super class
SerialDevice.call(this,
port,
{
baudrate: 38400,
databits: 8,
stopbits: 1,
parity: 'none'
}
);
}
util.inherits(MyDevice, SerialDevice);
module.exports = MyDevice;
var FtdiDevice = require('devicestack').FtdiDevice
, util = require('util');
function MyDevice(ftdiSettings) {
// call super class
FtdiDevice.call(this,
ftdiSettings,
{
baudrate: 38400,
databits: 8,
stopbits: 1,
parity: 'none'
}
);
}
util.inherits(MyDevice, SerialDevice);
module.exports = MyDevice;
var MyDevice = require('./myDevice');
var myDevice = new MyDevice({
locationId: 0x1234,
serialNumber: 's2345'
});
myDevice.open(function(err) {
myDevice.on('receive', function(data) {
console.log(data);
});
myDevice.send([0x01, 0x02, 0x03]);
});
var FrameHandler = require('devicestack').FrameHandler
, util = require('util');
function MyFrameHandler(device) {
// call super class
FrameHandler.call(this, device);
}
util.inherits(MyFrameHandler, FrameHandler);
MyFrameHandler.prototype.analyzeNextFrame = function(incomming) {
return incomming.splice(0);
};
MyFrameHandler.prototype.unwrapFrame = function(frame) {
return frame;
};
MyFrameHandler.prototype.wrapFrame = function(frame) {
return frame;
};
module.exports = MyFrameHandler;
var Connection = require('devicestack').Connection
, util = require('util')
, FrameHandler = require('./framehandler');
function MyConnection(device) {
// call super class
Connection.call(this, device);
this.frameHandler = new FrameHandler(this.device);
this.frameHandler.on('receive', function (frame) {
// forward to appropriate command...
});
}
util.inherits(MyConnection, Connection);
// define if needed
MyConnection.prototype.onConnecting = function(callback) {
// Need to send some commands before definitely connected?
if (callback) callback();
};
// define if needed
MyConnection.prototype.onDisconnecting = function(callback) {
// Need to send some commands before definitely closed?
if (callback) callback();
};
MyConnection.prototype.sendCommand = function(commandData, callback) {
this.frameHandler.send('send', commandData);
};
module.exports = MyConnection;
var Device = require('devicestack').Device
, util = require('util')
, Connection = require('./connection'); // this line...
function MyDevice() {
// call super class
Device.call(this, Connection); // ...and this line
}
util.inherits(MyDevice, Device);
MyDevice.prototype.open = function(callback) {
var self = this;
setTimeout(function() {
self.emit('open', callback);
if (!self.connection && callback) callback();
}, 10);
this.on('send', function(data) {
setTimeout(function() {
self.emit('receive', data);
}, 5);
});
};
MyDevice.prototype.close = function(callback, fire) {
var self = this;
setTimeout(function() {
self.emit('close', callback);
self.removeAllListeners();
if (callback && (!self.connection || fire)) callback(null);
}, 10);
};
module.exports = MyDevice;
var SerialDevice = require('devicestack').SerialDevice
, util = require('util')
, Connection = require('./connection'); // this line...;
function MyDevice(port) {
// call super class
SerialDevice.call(this,
port,
{
baudrate: 38400,
databits: 8,
stopbits: 1,
parity: 'none'
},
Connection // ...and this line
);
}
util.inherits(MyDevice, SerialDevice);
module.exports = MyDevice;
var FtdiDevice = require('devicestack').FtdiDevice
, util = require('util')
, Connection = require('./connection'); // this line...;
function MyDevice(ftdiSettings) {
// call super class
FtdiDevice.call(this,
ftdiSettings,
{
baudrate: 38400,
databits: 8,
stopbits: 1,
parity: 'none'
},
Connection // ...and this line
);
}
util.inherits(MyDevice, SerialDevice);
module.exports = MyDevice;
var MyDevice = require('./myDevice');
var myDevice = new MyDevice({
locationId: 0x1234,
serialNumber: 's2345'
});
myDevice.open(function(err) {
myDevice.on('receive', function(data) {
console.log(data);
});
myDevice.send([0x01, 0x02, 0x03]);
});
var DeviceLoader = require('devicestack').DeviceLoader
, util = require('util')
, Device = require('./device');
function MyDeviceLoader() {
// call super class
DeviceLoader.call(this);
}
util.inherits(MyDeviceLoader, DeviceLoader);
MyDeviceLoader.prototype.lookup = function(callback) {
var devices = = [
new Device(),
new Device()
];
try {
this.emit('lookup');
} catch(e) {
}
callback(null, devices);
};
module.exports = new MyDeviceLoader();
var SerialDeviceLoader = require('devicestack').SerialDeviceLoader
, _ = require('lodash')
, util = require('util')
, Device = require('./device');
function MyDeviceLoader() {
// call super class
MyDeviceLoader.call(this, Device);
}
util.inherits(MyDeviceLoader, SerialDeviceLoader);
MyDeviceLoader.prototype.filter = function(ports) {
var resPorts = _.filter(ports, function(item) {
if (process.platform == 'win32') {
return item.pnpId.indexOf('VID_1234+PID_5678') >= 0;
} else if (process.platform == 'darwin') {
return item.productId === '0x5678' && item.vendorId === '0x1234';
} else {
return item.pnpId.indexOf('MyDeviceIdentification') >= 0;
}
});
return resPorts;
};
module.exports = new MyDeviceLoader();
var DeviceGuider = require('devicestack').DeviceGuider
, util = require('util')
, deviceLoader = require('./deviceloader');
function MyDeviceGuider() {
// call super class
DeviceGuider.call(this, deviceLoader);
}
util.inherits(MyDeviceGuider, DeviceGuider);
module.exports = new MyDeviceGuider();
var myDeviceguider = require('./deviceguider');
myDeviceguider.on('err', function(err) {
if (err) { console.log(err); return process.exit(); }
});
myDeviceguider.on('plug', function(device) {
console.log('\n--->>> plugged a device\n');
});
myDeviceguider.on('unplug', function(device) {
console.log('\n--->>> unplugged a device\n');
});
myDeviceguider.on('connect', function(connection) {
console.log('\n--->>> connected a device\n');
connection.executeCommand(/* your stuff */, callback);
});
myDeviceguider.on('disconnect', function(connection) {
console.log('\n--->>> disconnected a device\n');
});
myDeviceguider.getCurrentState(function(err, currentState) {
if (currentState.plugged.length === 0) { console.log('No devices found!'); /*return process.exit();*/ }
});
// V1: autoconnect first device...
myDeviceguider.on('connect', function(device, connection) {
// when first device connected...
});
myDeviceguider.autoconnectOne([function(err, device, connection) {}]);
myDeviceguider.stopautoconnecting(); // will stop autoconnecting and will disconnect connected device
// V2: autoconnect all devices...
myDeviceguider.on('connect', function(device, connection) {
// when a device connected...
});
myDeviceguider.autoconnect();
myDeviceguider.stopautoconnecting(); // will stop autoconnecting and will disconnect all connected devices
// V3: manualconnect devices...
myDeviceguider.on('plug', function(device) {
// when a device ready to be connected...
device.connect(function(err, connection) {
// device connected...
});
});
// V4: manualconnect a device with port...
myDeviceguider.on('connect', function(device, connection) {
// when first device connected...
});
myDeviceguider.connect(port[, function(err, device, connection) {}]);
optimization for hibernate/sleep/standby
ATTENTION! Connection: executeCommand -> sendCommand
ftdi integration
FtdiDevice FtdiSerialDevice FtdiDeviceLoader EventedFtdiDeviceLoader
Copyright (c) 2013 Adriano Raiano
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
FAQs
This module helps you to represent a device and its protocol.
The npm package devicestack receives a total of 4 weekly downloads. As such, devicestack popularity was classified as not popular.
We found that devicestack demonstrated a not healthy version release cadence and project activity because the last version was released a year ago. It has 1 open source maintainer collaborating on the project.
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