serialport-v5 v5.0.0

Node Serialport

Intro to Node-Serialport

Imagine a world in which you can write JavaScript to control blenders, lights, security systems, or even robots. That's right—robots! Thanks to Node Serialport, that world is here.

Node-Serialport provides a stream interface for the low-level serial port code necessary to controll Arduino chipsets, X10 interfaces, Zigbee radios, highway signs, lcd screens, cash drawers, motor controllers, sensor packages, fork lifts, modems, drones, CNC machines, plotters, vending machines, ccTalk coin accecptors, SMS Gateways, RFID scanners and much more. If if you have a hardware device with an UART we can speak to it. The physical world is your oyster with this goodie.

For a full breakdown of why we made Node-Serialport, please read NodeBots - The Rise of JS Robotics. It explains why one would want to program robots in JS in the first place.

We're not against firmware but we're better than it.

Quick Answers to Important Questions

• For support, open a GitHub issue.
• For discussions, design ideas, and clarifications, please join our Gitter chat room.
• To test Node-Serialport, we recommend two related projects—Browser Serialport ("just like Node Serialport, but for browser apps") and Serialport Test Piliot.
• To contribute, please review our contribution guide and Code of Conduct. You might want to check out our roadmap. We also have issues tagged "good first PR", if you'd like to start somewhere specific. We'll do our best to support you until we merge your PR.

For which version of Node-Serialport would you like documentation?

You're reading the README for Node-Serialport's master branch. You probably want to see the README for our most recent release. See our changelog for what's new, and our upgrade guide for a walk-through on differences between major versions.

• serialport@5.0.0 docs the latest 5.x release. 🎉
• serialport@4.0.7 docs the latest 4.x release.
• serialport@3.1.2 docs the last 3.x release.

Older versions are no longer supported.

Helpful Resources for Getting Started with Node-Serialport

In addition to reading the article mentioned above, these others might help you:

• Johnny-Five: The Johnny-Five Robotics and IoT platform's six-line "Hello World" (awesome).
• Arduino Node Security Sensor Hacking: A great all-around "how do I use this" article.

Table of Contents

• Platform Support
• Installation
• Installation Special Cases
  • Alpine Linux
  • Electron
  • Illegal Instruction
  • Mac OS X
  • Raspberry Pi Linux
  • sudo / root
  • Ubuntu/Debian Linux
  • Windows
• Usage
  • Opening a Port
  • Testing
  • Debugging
  • Error Handling
• SerialPort ⏏
  • new SerialPort(path, [options], [openCallback])
  • instance
    • .open([callback])
    • .update([options], [callback])
    • .write(data, [encoding], [callback]) ⇒ boolean
    • .read([size]) ⇒ string | Buffer | null
    • .close(callback)
    • .set([options], [callback])
    • .get([callback])
    • .flush([callback])
    • .drain([callback])
    • .pause() ⇒
    • .resume() ⇒
    • Event: "error"
    • Event: "open"
    • Event: "data"
    • Event: "close"
  • static
    • .Binding : BaseBinding
    • .parsers : object
    • .list([callback]) ⇒ Promise
  • inner
    • ~BaseBinding
      • new BaseBinding(options)
      • instance
        • .open(path, openOptions) ⇒ Promise
        • .close() ⇒ Promise
        • .read(data, offset, length) ⇒ Promise
        • .write(data) ⇒ Promise
        • .update([options]) ⇒ Promise
        • .set([options]) ⇒ Promise
        • .get() ⇒ Promise
        • .flush() ⇒ Promise
        • .drain() ⇒ Promise
      • static
        • .list() ⇒ Promise
    • ~errorCallback : function
    • ~modemBitsCallback : function
    • ~openOptions : Object
    • ~listCallback : function
• Command Line Tools
  • Serial Port List
  • Serial Port Terminal
  • Serial Port Repl
• License

Platform Support

serialport supports NodeJS v4 and upwards. For versions 0.10 and 0.12, use serialport@4. The platforms, architectures and Node versions that serialport supports are the following;

¹ ARM, MIPSel and PPC64¹ platforms are not currently part of our testing or build matrix, but are known to work.

² Windows 7, 8, 10, and 10 IoT are supported, but our CI tests only Windows Server 2012 R2.

³ OSX 10.4 Tiger and above are supported, but our CI tests only 10.9.5 Mavericks with Xcode 6.1.

Installation Instructions

For most "standard" use cases (Node v4.x on Mac, Linux, or Windows on a x86 or x64 processor), Node-Serialport will install nice and easy with:

npm install serialport

Installation Special Cases

We use node-pre-gyp to compile and post binaries of the library for most common use cases (Linux, Mac, Windows on standard processor platforms). If you have a special case, Node-Serialport will work, but it will compile the binary when you install. node-gyp requires Python 2.x, so please ensure you have it installed and in your path for all operating systems. Python 3.x will not work.

This assumes you have everything on your system necessary to compile ANY native module for Node.js. If you don't, then please ensure the following are true for your system before filing a "Does not install" issue.

Alpine Linux

Alpine is a (very) small distro, but it uses the musl standard library instead of glibc (used by most other Linux distros) so it requires compilation. It's commonly used with Docker. A user has confirmed that Node-Serialport works with alpine-node.

# If you don't have node/npm already, add that first
sudo apk add --no-cache nodejs

# Add the necessary build and runtime dependencies
sudo apk add --no-cache make gcc g++ python linux-headers udev

# Then we can install serialport, forcing it to compile
npm install serialport --build-from-source

# If you're installing as root, you'll also need to use the --unsafe-perm flag

Electron

Electron is a framework for creating cross-platform desktop applications. It comes with its own version of the Node.js runtime.

If you require serialport as a dependency for an Electron project, you must compile it for the version of Electron your project's using.

When you first install serialport it will compile against the version of Node.js on your machine, not against the Node.js runtime bundled with Electron.

To recompile serialport (or any native Node.js module) for Electron, you can use electron-rebuild; more info at Electron's README.

1. npm install --save-dev electron-rebuild
2. Add electron-rebuild to your project's package.json's install hook
3. Run npm install

For an example project, check out electron-serialport.

Illegal Instruction

The pre-compiled binaries assume a fully capable chip. Intel's Galileo 2, for example, lacks a few instruction sets from the ia32 architecture. A few other platforms have similar issues. If you get Illegal Instruction when trying to run Node-Serialport, you'll need to ask npm to rebuild the Serialport binary.

# Will ask npm to build serialport during install time
npm install serialport --build-from-source

# If you have a package that depends on serialport, you can ask npm to rebuild it specifically...
npm rebuild serialport --build-from-source

Mac OS X

Ensure that you have at a minimum the xCode Command Line Tools installed appropriate for your system configuration. If you recently upgraded the OS, it probably removed your installation of Command Line Tools, please verify before submitting a ticket. To compile node-serialport with Node.js 4.x+, you will need to use g++ v4.8 or higher.

Raspberry Pi Linux

Follow the instructions for setting up a Raspberry pi for use with Johnny-Five and Raspi IO. These projects use Node Serialport under the hood.

sudo / root

If you're going to use sudo or root to install Node-Serialport, npm will require you to use the unsafe parameters flag.

sudo npm install serialport --unsafe-perm --build-from-source

Failure to use the flag results in an error like this:

root@rpi3:~# npm install -g serialport
/usr/bin/serialport-list -> /usr/lib/node_modules/serialport/bin/serialport-list.js
/usr/bin/serialport-term -> /usr/lib/node_modules/serialport/bin/serialport-terminal.js

> serialport@4.0.3 install /usr/lib/node_modules/serialport
> node-pre-gyp install --fallback-to-build

gyp WARN EACCES user "root" does not have permission to access the dev dir "/root/.node-gyp/6.9.1"
gyp WARN EACCES attempting to reinstall using temporary dev dir "/usr/lib/node_modules/serialport/.node-gyp"
make: Entering directory '/usr/lib/node_modules/serialport/build'
make: *** No rule to make target '../.node-gyp/6.9.1/include/node/common.gypi', needed by 'Makefile'.  Stop.
make: Leaving directory '/usr/lib/node_modules/serialport/build'
gyp ERR! build error
gyp ERR! stack Error: `make` failed with exit code: 2

Ubuntu/Debian Linux

The best way to install any version of Node.js is to use the NodeSource Node.js binary distributions. Older versions of Ubuntu install Node.js with the wrong version and binary name. If your Node binary is nodejs instead of node, or if your Node version is v0.10.29, then you should follow these instructions.

You'll need the package build-essential to compile serialport. If there's a binary for your platform, you won't need it. Keep rocking!

# Using Ubuntu and Node 6
curl -sL https://deb.nodesource.com/setup_7.x | sudo -E bash -
sudo apt-get install -y nodejs

# Using Debian and Node 6 as root
curl -sL https://deb.nodesource.com/setup_7.x | bash -
apt-get install -y nodejs

Windows

Node-Serialport supports Windows 7, 8.1, 10, and 10 IoT. Precompiled binaries are available, but if you want to build it from source you'll need to follow the node-gyp installation instructions. Once you've got things working, you can install Node-Serialport from source with:

npm install serialport --build-from-source

Node-gyp's documentation doesn't mention it, but it sometimes helps to create a C++ project in Visual Studio so that it will install any necessary components not already installed during the past two hours of setup. This will solve some instances of Failed to locate: "CL.exe".

Usage

Opening a Port

var SerialPort = require('serialport');
var port = new SerialPort('/dev/tty-usbserial1', {
  baudRate: 57600
});

When opening a serial port, specify (in this order)

1. Path to Serial Port - required.
2. Options - optional and described below.

Constructing a SerialPort object immediately opens a port. While you can read and write at any time (it will be queued until the port is open), most port functions require an open port. There are three ways to detect when a port is opened.

• The open event is always emitted when the port is opened.
• The constructor's openCallback is passed to .open(), if you haven't disabled the autoOpen option. If you have disabled it, the callback is ignored.
• The .open() function takes a callback that is called after the port is opened. You can use this if you've disabled the autoOpen option or have previously closed an open port.

var SerialPort = require('serialport');
var port = new SerialPort('/dev/tty-usbserial1');

port.write('main screen turn on', function(err) {
  if (err) {
    return console.log('Error on write: ', err.message);
  }
  console.log('message written');
});

// Open errors will be emitted as an error event
port.on('error', function(err) {
  console.log('Error: ', err.message);
})

Detecting open errors can be moved to the constructor's callback.

var SerialPort = require('serialport');
var port = new SerialPort('/dev/tty-usbserial1', function (err) {
  if (err) {
    return console.log('Error: ', err.message);
  }
});

port.write('main screen turn on', function(err) {
  if (err) {
    return console.log('Error on write: ', err.message);
  }
  console.log('message written');
});

When disabling the autoOpen option you'll need to open the port on your own.

var SerialPort = require('serialport');
var port = new SerialPort('/dev/tty-usbserial1', { autoOpen: false });

port.open(function (err) {
  if (err) {
    return console.log('Error opening port: ', err.message);
  }

  // Because there's no callback to write, write errors will be emitted on the port:
  port.write('main screen turn on');
});

// The open event is always emitted
port.on('open', function() {
  // open logic
});

Get updates of new data from the serial port as follows:

// Switches the port into "flowing mode"
port.on('data', function (data) {
  console.log('Data:', data);
});

// Read data that is available but keep the stream from entering "flowing mode"
port.on('readable', function () {
  console.log('Data:', port.read());
});

You can write to the serial port by sending a string or buffer to the write method:

port.write('Hi Mom!');
port.write(Buffer.from('Hi Mom!'));

Enjoy and do cool things with this code.

Testing

Testing is an important feature of any library. To aid in our own tests we've developed a MockBinding a fake hardware binding that doesn't actually need any hardware to run. This class passes all of the same tests as our hardware based bindings and provides a few additional test related interfaces. To use the mock binding check out the example here.

const SerialPort = require('serialport/test');
const MockBinding = SerialPort.Binding;

// Create a port and enable the echo and recording.
MockBinding.createPort('/dev/ROBOT', { echo: true, record: true })
const port = new SerialPort('/dev/ROBOT')

Debugging

We use the debug package and log under the serialport namespace:

• serialport:main for all high-level/main logging
• serialport:binding for all low-level logging

You can enable logging through environment variables. Check the debug docs for info.

DEBUG=serialport:main node myapp.js
DEBUG=serialport:* node myapp.js
DEBUG=* node myapp.js

You can enable core dumps on osx with;

ulimit -c unlimited for core dumps

You can "console.log" from c++ with;

fprintf(stdout, "Hellow World num=%d str=%s\n", 4, "hi");

You can make use of the serialport-repl command with;

serialport-repl # to auto detect an arduino
serialport-repl /path/name # to connect to a specific port

It will load a serialport object with debugging turned on.

Error Handling

All functions in Node-Serialport follow two conventions:

• Argument errors throw a TypeError object. You'll see these when functions are called with invalid arguments.
• Runtime errors provide Error objects to the function's callback or emit an error event if no callback is provided. You'll see these when a runtime error occurs, like trying to open a bad port or setting an unsupported baud rate.

You should never have to wrap a Node-Serialport object in a try/catch statement if you call the functions with the correct arguments.

SerialPort ⏏

Kind: Exported class
Emits: open, data, close, error
Properties

new SerialPort(path, [options], [openCallback])

Create a new serial port object for the path. In the case of invalid arguments or invalid options, when constructing a new SerialPort it will throw an error. The port will open automatically by default, which is the equivalent of calling port.open(openCallback) in the next tick. You can disable this by setting the option autoOpen to false.

Throws:

• TypeError When given invalid arguments, a TypeError will be thrown.

serialPort.open([callback])

Opens a connection to the given serial port.

Kind: instance method of SerialPort
Emits: open

serialPort.update([options], [callback])

Changes the baud rate for an open port. Throws if you provide a bad argument. Emits an error or calls the callback if the baud rate isn't supported.

Kind: instance method of SerialPort

serialPort.write(data, [encoding], [callback]) ⇒ boolean

Writes data to the given serial port. Buffers written data if the port is not open.

The write operation is non-blocking. When it returns, data might still not have been written to the serial port. See drain().

Some devices, like the Arduino, reset when you open a connection to them. In such cases, immediately writing to the device will cause lost data as they wont be ready to receive the data. This is often worked around by having the Arduino send a "ready" byte that your Node program waits for before writing. You can also often get away with waiting around 400ms.

If a port is disconnected during a write, the write will error in addition to the close event.

From the stream docs write errors don't always provide the error in the callback, sometimes they use the error event.

If an error occurs, the callback may or may not be called with the error as its first argument. To reliably detect write errors, add a listener for the 'error' event.

In addition to the usual stream.write arguments (String and Buffer), write() can accept arrays of bytes (positive numbers under 256) which is passed to Buffer.from([]) for conversion. This extra functionality is pretty sweet.

Kind: instance method of SerialPort
Returns: boolean - false if the stream wishes for the calling code to wait for the 'drain' event to be emitted before continuing to write additional data; otherwise true.
Since: 5.0.0

serialPort.read([size]) ⇒ string | Buffer | null

Request a number of bytes from the SerialPort. The read() method pulls some data out of the internal buffer and returns it. If no data is available to be read, null is returned. By default, the data is returned as a Buffer object unless an encoding has been specified using the .setEncoding() method.

Kind: instance method of SerialPort
Returns: string | Buffer | null - The data from internal buffers
Since: 5.0.0

serialPort.close(callback)

Closes an open connection.

If there are in progress writes when the port is closed the writes will error.

Kind: instance method of SerialPort
Emits: close

serialPort.set([options], [callback])

Set control flags on an open port. Uses SetCommMask for Windows and ioctl for OS X and Linux.

Kind: instance method of SerialPort
Since: 5.0.0

serialPort.get([callback])

Returns the control flags (CTS, DSR, DCD) on the open port. Uses GetCommModemStatus for Windows and ioctl for mac and linux.

Kind: instance method of SerialPort

serialPort.flush([callback])

Flush discards data received but not read, and written but not transmitted by the operating system. For more technical details, see tcflush(fd, TCIOFLUSH) for Mac/Linux and FlushFileBuffers for Windows.

Kind: instance method of SerialPort

serialPort.drain([callback])

Waits until all output data is transmitted to the serial port. After any pending write has completed it calls tcdrain() or FlushFileBuffers() to ensure it has been written to the device.

Kind: instance method of SerialPort

Example
Write the data and wait until it has finished transmitting to the target serial port before calling the callback. This will queue until the port is open and writes are finished.

function writeAndDrain (data, callback) {
  port.write(data);
  port.drain(callback);
}

serialPort.pause() ⇒

The pause() method causes a stream in flowing mode to stop emitting 'data' events, switching out of flowing mode. Any data that becomes available remains in the internal buffer.

Kind: instance method of SerialPort
Returns: this
See: module:serialport#resume
Since: 5.0.0

serialPort.resume() ⇒

The resume() method causes an explicitly paused, Readable stream to resume emitting 'data' events, switching the stream into flowing mode.

Kind: instance method of SerialPort
Returns: this
See: module:serialport#pause
Since: 5.0.0

Event: "error"

The error event's callback is called with an error object whenever there is an error.

Kind: event emitted by SerialPort

Event: "open"

The open event's callback is called with no arguments when the port is opened and ready for writing. This happens if you have the constructor open immediately (which opens in the next tick) or if you open the port manually with open(). See Useage/Opening a Port for more information.

Kind: event emitted by SerialPort

Event: "data"

The data event puts the port in flowing mode. Data is emitted as soon as it's received. Data is a Buffer object with a varying amount of data in it. The readLine parser converts the data into string lines. See the parsers section for more information on parsers, and the Node.js stream documentation for more information on the data event.

Kind: event emitted by SerialPort

Event: "close"

The close event's callback is called with no arguments when the port is closed. In the case of a disconnect it will be called with a Disconnect Error object (err.disconnected == true). In the event of a close error (unlikely), an error event is triggered.

Kind: event emitted by SerialPort

SerialPort.Binding : BaseBinding

The Binding is how Node-SerialPort talks to the underlying system. By default, we auto detect Windows, Linux and OS X, and load the appropriate module for your system. You can assign SerialPort.Binding to any binding you like. Find more by searching at npm. Prevent auto loading the default bindings by requiring SerialPort with:

var SerialPort = require('serialport/lib/serialport');
SerialPort.Binding = MyBindingClass;

Kind: static property of SerialPort
Since: 5.0.0

SerialPort.parsers : object

The default Parsers are Transform streams that parse data in different ways to transform incoming data.

To use the parsers, you must create them and then pipe the Serialport to the parser. Be careful to only write to the SerialPort object and not the parser.

Kind: static property of SerialPort
Since: 5.0.0
Properties

Example

const SerialPort = require('serialport');
const Readline = SerialPort.parsers.Readline;
const port = new SerialPort('/dev/tty-usbserial1');
const parser = new Readline();
port.pipe(parser);
parser.on('data', console.log);
port.write('ROBOT PLEASE RESPOND\n');

// Creating the parser and piping can be shortened to
// const parser = port.pipe(new Readline());

To use the ByteLength parser, provide the length of the number of bytes:

const SerialPort = require('serialport');
const ByteLength = SerialPort.parsers.ByteLength
const port = new SerialPort('/dev/tty-usbserial1');
const parser = port.pipe(new ByteLength({length: 8}));
parser.on('data', console.log);

To use the Delimiter parser, provide a delimiter as a string, buffer, or array of bytes:

const SerialPort = require('serialport');
const Delimiter = SerialPort.parsers.Delimiter;
const port = new SerialPort('/dev/tty-usbserial1');
const parser = port.pipe(new Delimiter({ delimiter: Buffer.from('EOL') }));
parser.on('data', console.log);

To use the Readline parser, provide a delimiter (defaults to '\n'). Data is emitted as string controllable by the encoding option (defaults to utf8).

const SerialPort = require('serialport');
const Readline = SerialPort.parsers.Readline;
const port = new SerialPort('/dev/tty-usbserial1');
const parser = port.pipe(new Readline({ delimiter: '\r\n' }));
parser.on('data', console.log);

To use the Ready parser provide a byte start sequence. After the bytes have been received data events are passed through.

const SerialPort = require('serialport');
const Ready = SerialPort.parsers.Ready;
const port = new SerialPort('/dev/tty-usbserial1');
const parser = port.pipe(new Ready({ data: 'READY' }));
parser.on('ready', () => console.log('the ready byte sequence has been received'))
parser.on('data', console.log); // all data after READY is received

To use the Regex parser provide a regular expression to split the incoming text upon. Data is emitted as string controllable by the encoding option (defaults to utf8).

const SerialPort = require('serialport');
const Regex = SerialPort.parsers.Regex;
const port = new SerialPort('/dev/tty-usbserial1');
const parser = port.pipe(new Regex({ regex: /[\r\n]+/ }));
parser.on('data', console.log);

SerialPort.list([callback]) ⇒ Promise

Retrieves a list of available serial ports with metadata. Only the comName is guaranteed. If unavailable the other fields will be undefined. The comName is either the path or an identifier (eg COM1) used to open the SerialPort.

We make an effort to identify the hardware attached and have consistent results between systems. Linux and OS X are mostly consistent. Windows relies on 3rd party device drivers for the information and is unable to guarantee the information. On windows If you have a USB connected device can we provide a serial number otherwise it will be undefined. The pnpId and locationId are not the same or present on all systems. The examples below were run with the same Arduino Uno.

Kind: static method of SerialPort
Returns: Promise - Resolves with the list of available serial ports.

Example

// OSX example port
{
  comName: '/dev/tty.usbmodem1421',
  manufacturer: 'Arduino (www.arduino.cc)',
  serialNumber: '752303138333518011C1',
  pnpId: undefined,
  locationId: '14500000',
  productId: '0043',
  vendorId: '2341'
}

// Linux example port
{
  comName: '/dev/ttyACM0',
  manufacturer: 'Arduino (www.arduino.cc)',
  serialNumber: '752303138333518011C1',
  pnpId: 'usb-Arduino__www.arduino.cc__0043_752303138333518011C1-if00',
  locationId: undefined,
  productId: '0043',
  vendorId: '2341'
}

// Windows example port
{
  comName: 'COM3',
  manufacturer: 'Arduino LLC (www.arduino.cc)',
  serialNumber: '752303138333518011C1',
  pnpId: 'USB\\VID_2341&PID_0043\\752303138333518011C1',
  locationId: 'Port_#0003.Hub_#0001',
  productId: '0043',
  vendorId: '2341'
}

var SerialPort = require('serialport');
// callback approach
SerialPort.list(function (err, ports) {
  ports.forEach(function(port) {
    console.log(port.comName);
    console.log(port.pnpId);
    console.log(port.manufacturer);
  });
});

// promise approach
SerialPort.list()
  .then(ports) {...});
  .catch(err) {...});

SerialPort~BaseBinding

You never have to use Binding objects directly. SerialPort uses them to access the underlying hardware. This documentation is geared towards people who are making bindings for different platforms. This class can be inherited from to get type checking for each method.

Kind: inner class of SerialPort
Since: 5.0.0
Properties

• ~BaseBinding
  • new BaseBinding(options)
  • instance
    • .open(path, openOptions) ⇒ Promise
    • .close() ⇒ Promise
    • .read(data, offset, length) ⇒ Promise
    • .write(data) ⇒ Promise
    • .update([options]) ⇒ Promise
    • .set([options]) ⇒ Promise
    • .get() ⇒ Promise
    • .flush() ⇒ Promise
    • .drain() ⇒ Promise
  • static
    • .list() ⇒ Promise

new BaseBinding(options)

Throws:

• TypeError When given invalid arguments, a TypeError is thrown.

baseBinding.open(path, openOptions) ⇒ Promise

Opens a connection to the serial port referenced by the path.

Kind: instance method of BaseBinding
Returns: Promise - Resolves after the port is opened and configured.
Throws:

• TypeError When given invalid arguments, a TypeError is thrown.

baseBinding.close() ⇒ Promise

Closes an open connection

Kind: instance method of BaseBinding
Returns: Promise - Resolves once the connection is closed.
Throws:

• TypeError When given invalid arguments, a TypeError is thrown.

baseBinding.read(data, offset, length) ⇒ Promise

Request a number of bytes from the SerialPort. This function is similar to Node's fs.read except it will always return at least one byte.

The in progress reads must error when the port is closed with an error object that has the property canceled equal to true. Any other error will cause a disconnection.

Kind: instance method of BaseBinding
Returns: Promise - Resolves with the number of bytes read after a read operation.
Throws:

• TypeError When given invalid arguments, a TypeError is thrown.

baseBinding.write(data) ⇒ Promise

Write bytes to the SerialPort. Only called when there is no pending write operation.

The in progress writes must error when the port is closed with an error object that has the property canceled equal to true. Any other error will cause a disconnection.

Kind: instance method of BaseBinding
Returns: Promise - Resolves after the data is passed to the operating system for writing.
Throws:

• TypeError When given invalid arguments, a TypeError is thrown.

baseBinding.update([options]) ⇒ Promise

Changes connection settings on an open port. Only baudRate is supported.

Kind: instance method of BaseBinding
Returns: Promise - Resolves once the port's baud rate changes.
Throws:

• TypeError When given invalid arguments, a TypeError is thrown.

baseBinding.set([options]) ⇒ Promise

Set control flags on an open port.

Kind: instance method of BaseBinding
Returns: Promise - Resolves once the port's flags are set.
Throws:

• TypeError When given invalid arguments, a TypeError is thrown.

baseBinding.get() ⇒ Promise

Get the control flags (CTS, DSR, DCD) on the open port.

Kind: instance method of BaseBinding
Returns: Promise - Resolves with the retrieved flags.
Throws:

• TypeError When given invalid arguments, a TypeError is thrown.

baseBinding.flush() ⇒ Promise

Flush (discard) data received but not read, and written but not transmitted.

Kind: instance method of BaseBinding
Returns: Promise - Resolves once the flush operation finishes.
Throws:

• TypeError When given invalid arguments, a TypeError is thrown.

baseBinding.drain() ⇒ Promise

Drain waits until all output data is transmitted to the serial port. An in progress write should be completed before this returns.

Kind: instance method of BaseBinding
Returns: Promise - Resolves once the drain operation finishes.
Throws:

• TypeError When given invalid arguments, a TypeError is thrown.

BaseBinding.list() ⇒ Promise

Retrieves a list of available serial ports with metadata. The comName must be guaranteed, and all other fields should be undefined if unavailable. The comName is either the path or an identifier (eg COM1) used to open the serialport.

Kind: static method of BaseBinding
Returns: Promise - resolves to an array of port info objects.

SerialPort~errorCallback : function

A callback called with an error or null.

Kind: inner typedef of SerialPort

SerialPort~modemBitsCallback : function

A callback called with an error or an object with the modem line values (cts, dsr, dcd).

Kind: inner typedef of SerialPort

SerialPort~openOptions : Object

Kind: inner typedef of SerialPort
Properties

SerialPort~listCallback : function

This callback type is called requestCallback.

Kind: inner typedef of SerialPort

Command Line Tools

If you install serialport globally (e.g., npm install -g serialport), you'll receive two command line tools.

Serial Port List

serialport-list will list all available serial ports in different formats.

$ serialport-list -h

  Usage: serialport-list [options]

  List available serial ports

  Options:

    -h, --help           output usage information
    -V, --version        output the version number
    -f, --format <type>  Format the output as text, json, or jsonline. default: text


$ serialport-list
/dev/tty.Bluetooth-Incoming-Port
/dev/tty.usbmodem1421    Arduino (www.arduino.cc)

$ serialport-list -f json
[{"comName":"/dev/tty.Bluetooth-Incoming-Port"},{"comName":"/dev/tty.usbmodem1421","manufacturer":"Arduino (www.arduino.cc)","serialNumber":"752303138333518011C1","locationId":"14200000","vendorId":"2341","productId":"0043"}]

$ serialport-list -f jsonline
{"comName":"/dev/tty.Bluetooth-Incoming-Port"}
{"comName":"/dev/tty.usbmodem1421","manufacturer":"Arduino (www.arduino.cc)","serialNumber":"752303138333518011C1","locationId":"14200000","vendorId":"2341","productId":"0043"}

Serial Port Terminal

serialport-term provides a basic terminal interface for communicating over a serial port. ctrl+c will exit.

$ serialport-term -h

  Usage: serialport-term -p <port> [options]

  A basic terminal interface for communicating over a serial port. Pressing ctrl+c exits.

  Options:

    -h, --help                     output usage information
    -V, --version                  output the version number
    -l --list                      List available ports then exit
    -p, --port, --portname <port>  Path or name of serial port
    -b, --baud <baudrate>          Baud rate default: 9600
    --databits <databits>          Data bits default: 8
    --parity <parity>              Parity default: none
    --stopbits <bits>              Stop bits default: 1
    --echo --localecho             Print characters as you type them

$ serialport-term -l
/dev/tty.Bluetooth-Incoming-Port
/dev/tty.usbmodem1421    Arduino (www.arduino.cc)

Serial Port Repl

serialport-repl provides a nodejs repl for working with serialport. This is valuable when debugging.

You can make use of the serialport-repl command with;

$ serialport-repl # to auto detect an arduino
$ serialport-repl /dev/tty.usbmodem1421 # to connect to a specific port

It will load a serialport object with debugging turned on.

  serialport:binding:auto-detect loading DarwinBinding +0ms
port = SerialPort("/dev/tty.usbmodem1421", { autoOpen: false })
globals { SerialPort, portName, port }
> SerialPort.list()
  serialport:main .list +6s
[ { comName: '/dev/tty.usbmodem1421',
    manufacturer: 'Arduino (www.arduino.cc)',
    serialNumber: '752303138333518011C1',
    pnpId: undefined,
    locationId: '14200000',
    vendorId: '2341',
    productId: '0043' } ]
> port.write('Calling all Autobots!')
true
> port.read()
  serialport:main _read queueing _read for after open +1m
null
> port.open()
  serialport:main opening path: /dev/tty.usbmodem1421 +30s
  serialport:bindings open +1ms

License

SerialPort is MIT licensed and all it's dependencies are MIT or BSD licensed.