vendor/github.com/tarm/serial/serial.go - build - Git at Google

 /*
 Goserial is a simple go package to allow you to read and write from
 the serial port as a stream of bytes.

 It aims to have the same API on all platforms, including windows.  As
 an added bonus, the windows package does not use cgo, so you can cross
 compile for windows from another platform.  Unfortunately goinstall
 does not currently let you cross compile so you will have to do it
 manually:

  GOOS=windows make clean install

 Currently there is very little in the way of configurability.  You can
 set the baud rate.  Then you can Read(), Write(), or Close() the
 connection.  Read() will block until at least one byte is returned.
 Write is the same.  There is currently no exposed way to set the
 timeouts, though patches are welcome.

 Currently all ports are opened with 8 data bits, 1 stop bit, no
 parity, no hardware flow control, and no software flow control.  This
 works fine for many real devices and many faux serial devices
 including usb-to-serial converters and bluetooth serial ports.

 You may Read() and Write() simulantiously on the same connection (from
 different goroutines).

 Example usage:

   package main

   import (
         "github.com/tarm/serial"
         "log"
   )

   func main() {
         c := &serial.Config{Name: "COM5", Baud: 115200}
         s, err := serial.OpenPort(c)
         if err != nil {
                 log.Fatal(err)
         }

         n, err := s.Write([]byte("test"))
         if err != nil {
                 log.Fatal(err)
         }

         buf := make([]byte, 128)
         n, err = s.Read(buf)
         if err != nil {
                 log.Fatal(err)
         }
         log.Print("%q", buf[:n])
   }
 */
 package serial

 import (
 	"errors"
 	"time"
 )

 const DefaultSize = 8 // Default value for Config.Size

 type StopBits byte
 type Parity byte

 const (
 	Stop1     StopBits = 1
 	Stop1Half StopBits = 15
 	Stop2     StopBits = 2
 )

 const (
 	ParityNone  Parity = 'N'
 	ParityOdd   Parity = 'O'
 	ParityEven  Parity = 'E'
 	ParityMark  Parity = 'M' // parity bit is always 1
 	ParitySpace Parity = 'S' // parity bit is always 0
 )

 // Config contains the information needed to open a serial port.
 //
 // Currently few options are implemented, but more may be added in the
 // future (patches welcome), so it is recommended that you create a
 // new config addressing the fields by name rather than by order.
 //
 // For example:
 //
 //    c0 := &serial.Config{Name: "COM45", Baud: 115200, ReadTimeout: time.Millisecond * 500}
 // or
 //    c1 := new(serial.Config)
 //    c1.Name = "/dev/tty.usbserial"
 //    c1.Baud = 115200
 //    c1.ReadTimeout = time.Millisecond * 500
 //
 type Config struct {
 	Name        string
 	Baud        int
 	ReadTimeout time.Duration // Total timeout

 	// Size is the number of data bits. If 0, DefaultSize is used.
 	Size byte

 	// Parity is the bit to use and defaults to ParityNone (no parity bit).
 	Parity Parity

 	// Number of stop bits to use. Default is 1 (1 stop bit).
 	StopBits StopBits

 	// RTSFlowControl bool
 	// DTRFlowControl bool
 	// XONFlowControl bool

 	// CRLFTranslate bool
 }

 // ErrBadSize is returned if Size is not supported.
 var ErrBadSize error = errors.New("unsupported serial data size")

 // ErrBadStopBits is returned if the specified StopBits setting not supported.
 var ErrBadStopBits error = errors.New("unsupported stop bit setting")

 // ErrBadParity is returned if the parity is not supported.
 var ErrBadParity error = errors.New("unsupported parity setting")

 // OpenPort opens a serial port with the specified configuration
 func OpenPort(c *Config) (*Port, error) {
 	size, par, stop := c.Size, c.Parity, c.StopBits
 	if size == 0 {
 		size = DefaultSize
 	}
 	if par == 0 {
 		par = ParityNone
 	}
 	if stop == 0 {
 		stop = Stop1
 	}
 	return openPort(c.Name, c.Baud, size, par, stop, c.ReadTimeout)
 }

 // Converts the timeout values for Linux / POSIX systems
 func posixTimeoutValues(readTimeout time.Duration) (vmin uint8, vtime uint8) {
 	const MAXUINT8 = 1<<8 - 1 // 255
 	// set blocking / non-blocking read
 	var minBytesToRead uint8 = 1
 	var readTimeoutInDeci int64
 	if readTimeout > 0 {
 		// EOF on zero read
 		minBytesToRead = 0
 		// convert timeout to deciseconds as expected by VTIME
 		readTimeoutInDeci = (readTimeout.Nanoseconds() / 1e6 / 100)
 		// capping the timeout
 		if readTimeoutInDeci < 1 {
 			// min possible timeout 1 Deciseconds (0.1s)
 			readTimeoutInDeci = 1
 		} else if readTimeoutInDeci > MAXUINT8 {
 			// max possible timeout is 255 deciseconds (25.5s)
 			readTimeoutInDeci = MAXUINT8
 		}
 	}
 	return minBytesToRead, uint8(readTimeoutInDeci)
 }

 // func SendBreak()

 // func RegisterBreakHandler(func())
	/*
	Goserial is a simple go package to allow you to read and write from
	the serial port as a stream of bytes.

	It aims to have the same API on all platforms, including windows. As
	an added bonus, the windows package does not use cgo, so you can cross
	compile for windows from another platform. Unfortunately goinstall
	does not currently let you cross compile so you will have to do it
	manually:

	GOOS=windows make clean install

	Currently there is very little in the way of configurability. You can
	set the baud rate. Then you can Read(), Write(), or Close() the
	connection. Read() will block until at least one byte is returned.
	Write is the same. There is currently no exposed way to set the
	timeouts, though patches are welcome.

	Currently all ports are opened with 8 data bits, 1 stop bit, no
	parity, no hardware flow control, and no software flow control. This
	works fine for many real devices and many faux serial devices
	including usb-to-serial converters and bluetooth serial ports.

	You may Read() and Write() simulantiously on the same connection (from
	different goroutines).

	Example usage:

	package main

	import (
	"github.com/tarm/serial"
	"log"
	)

	func main() {
	c := &serial.Config{Name: "COM5", Baud: 115200}
	s, err := serial.OpenPort(c)
	if err != nil {
	log.Fatal(err)
	}

	n, err := s.Write([]byte("test"))
	if err != nil {
	log.Fatal(err)
	}

	buf := make([]byte, 128)
	n, err = s.Read(buf)
	if err != nil {
	log.Fatal(err)
	}
	log.Print("%q", buf[:n])
	}
	*/
	package serial

	import (
	"errors"
	"time"
	)

	const DefaultSize = 8 // Default value for Config.Size

	type StopBits byte
	type Parity byte

	const (
	Stop1 StopBits = 1
	Stop1Half StopBits = 15
	Stop2 StopBits = 2
	)

	const (
	ParityNone Parity = 'N'
	ParityOdd Parity = 'O'
	ParityEven Parity = 'E'
	ParityMark Parity = 'M' // parity bit is always 1
	ParitySpace Parity = 'S' // parity bit is always 0
	)

	// Config contains the information needed to open a serial port.
	//
	// Currently few options are implemented, but more may be added in the
	// future (patches welcome), so it is recommended that you create a
	// new config addressing the fields by name rather than by order.
	//
	// For example:
	//
	// c0 := &serial.Config{Name: "COM45", Baud: 115200, ReadTimeout: time.Millisecond * 500}
	// or
	// c1 := new(serial.Config)
	// c1.Name = "/dev/tty.usbserial"
	// c1.Baud = 115200
	// c1.ReadTimeout = time.Millisecond * 500
	//
	type Config struct {
	Name string
	Baud int
	ReadTimeout time.Duration // Total timeout

	// Size is the number of data bits. If 0, DefaultSize is used.
	Size byte

	// Parity is the bit to use and defaults to ParityNone (no parity bit).
	Parity Parity

	// Number of stop bits to use. Default is 1 (1 stop bit).
	StopBits StopBits

	// RTSFlowControl bool
	// DTRFlowControl bool
	// XONFlowControl bool

	// CRLFTranslate bool
	}

	// ErrBadSize is returned if Size is not supported.
	var ErrBadSize error = errors.New("unsupported serial data size")

	// ErrBadStopBits is returned if the specified StopBits setting not supported.
	var ErrBadStopBits error = errors.New("unsupported stop bit setting")

	// ErrBadParity is returned if the parity is not supported.
	var ErrBadParity error = errors.New("unsupported parity setting")

	// OpenPort opens a serial port with the specified configuration
	func OpenPort(c Config) (Port, error) {
	size, par, stop := c.Size, c.Parity, c.StopBits
	if size == 0 {
	size = DefaultSize
	}
	if par == 0 {
	par = ParityNone
	}
	if stop == 0 {
	stop = Stop1
	}
	return openPort(c.Name, c.Baud, size, par, stop, c.ReadTimeout)
	}

	// Converts the timeout values for Linux / POSIX systems
	func posixTimeoutValues(readTimeout time.Duration) (vmin uint8, vtime uint8) {
	const MAXUINT8 = 1<<8 - 1 // 255
	// set blocking / non-blocking read
	var minBytesToRead uint8 = 1
	var readTimeoutInDeci int64
	if readTimeout > 0 {
	// EOF on zero read
	minBytesToRead = 0
	// convert timeout to deciseconds as expected by VTIME
	readTimeoutInDeci = (readTimeout.Nanoseconds() / 1e6 / 100)
	// capping the timeout
	if readTimeoutInDeci < 1 {
	// min possible timeout 1 Deciseconds (0.1s)
	readTimeoutInDeci = 1
	} else if readTimeoutInDeci > MAXUINT8 {
	// max possible timeout is 255 deciseconds (25.5s)
	readTimeoutInDeci = MAXUINT8
	}
	}
	return minBytesToRead, uint8(readTimeoutInDeci)
	}

	// func SendBreak()

	// func RegisterBreakHandler(func())