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serialport.go
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serialport.go
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package main
import (
"bytes"
"encoding/json"
"sync"
"github.com/johnlauer/goserial"
//"github.com/facchinm/go-serial"
"io"
"log"
"strconv"
"strings"
"time"
)
type SerialConfig struct {
Name string
Baud int
// Size int // 0 get translated to 8
// Parity SomeNewTypeToGetCorrectDefaultOf_None
// StopBits SomeNewTypeToGetCorrectDefaultOf_1
// RTSFlowControl bool
// DTRFlowControl bool
// XONFlowControl bool
// CRLFTranslate bool
// TimeoutStuff int
RtsOn bool
DtrOn bool
}
type serport struct {
// The serial port connection.
// Needed for original serial library
portConf *serial.Config
// Needed for Arduino serial library
//portConf *SerialConfig
portIo io.ReadWriteCloser
done chan bool // signals the end of this request
// Keep track of whether we're being actively closed
// just so we don't show scary error messages
isClosing bool
// counter incremented on queue, decremented on write
itemsInBuffer int
// buffered channel containing up to 25600 outbound messages.
sendBuffered chan Cmd
// unbuffered channel of outbound messages that bypass internal serial port buffer
sendNoBuf chan Cmd
// Do we have an extra channel/thread to watch our buffer?
BufferType string
//bufferwatcher *BufferflowDummypause
bufferwatcher Bufferflow
// Keep track of whether this is the primary serial port, i.e. cnc controller
// or if its secondary, i.e. a backup port or arduino or something tertiary
IsPrimary bool
IsSecondary bool
// Feedrate override value
feedRateOverride float32
isFeedRateOverrideOn bool
}
type Cmd struct {
data string
id string
skippedBuffer bool
willHandleCompleteResponse bool
pause int
}
type CmdComplete struct {
Cmd string
Id string
P string
BufSize int `json:"-"`
D string `json:"-"`
}
type qwReport struct {
Cmd string
QCnt int
Id string
D string `json:"-"`
Buf string `json:"-"`
P string
}
type qwReportWithData struct {
Cmd string
QCnt int
Id string
D string //`json:"-"`
Buf string `json:"-"`
P string
}
type SpPortMessage struct {
P string // the port, i.e. com22
D string // the data, i.e. G0 X0 Y0
}
func (p *serport) reader() {
//var buf bytes.Buffer
ch := make([]byte, 1024)
timeCheckOpen := time.Now()
for {
n, err := p.portIo.Read(ch)
//if we detect that port is closing, break out o this for{} loop.
if p.isClosing {
strmsg := "Shutting down reader on " + p.portConf.Name
log.Println(strmsg)
h.broadcastSys <- []byte(strmsg)
break
}
// read can return legitimate bytes as well as an error
// so process the bytes if n > 0
if n > 0 {
//log.Print("Read " + strconv.Itoa(n) + " bytes ch: " + string(ch))
data := string(ch[:n])
//log.Print("The data i will convert to json is:")
//log.Print(data)
// give the data to our bufferflow so it can do it's work
// to read/translate the data to see if it wants to block
// writes to the serialport. each bufferflow type will decide
// this on its own based on its logic, i.e. tinyg vs grbl vs others
//p.b.bufferwatcher..OnIncomingData(data)
p.bufferwatcher.OnIncomingData(data)
// see if the OnIncomingData handled the broadcast back
// to the user. this option was added in case the OnIncomingData wanted
// to do something fancier or implementation specific, i.e. TinyG Buffer
// actually sends back data on a perline basis rather than our method
// where we just send the moment we get it. the reason for this is that
// the browser was sometimes getting back packets out of order which
// of course would screw things up when parsing
if p.bufferwatcher.IsBufferGloballySendingBackIncomingData() == false {
//m := SpPortMessage{"Alice", "Hello"}
m := SpPortMessage{p.portConf.Name, data}
//log.Print("The m obj struct is:")
//log.Print(m)
//b, err := json.MarshalIndent(m, "", "\t")
b, err := json.Marshal(m)
if err != nil {
log.Println(err)
h.broadcastSys <- []byte("Error creating json on " + p.portConf.Name + " " +
err.Error() + " The data we were trying to convert is: " + string(ch[:n]))
break
}
//log.Print("Printing out json byte data...")
//log.Print(string(b))
h.broadcastSys <- b
//h.broadcastSys <- []byte("{ \"p\" : \"" + p.portConf.Name + "\", \"d\": \"" + string(ch[:n]) + "\" }\n")
}
}
// double check that we got characters in the buffer
// before deciding if an EOF is legitimately a reason
// to close the port because we're seeing that on some
// os's like Linux/Ubuntu you get an EOF when you open
// the port. Perhaps the EOF was buffered from a previous
// close and the OS doesn't clear out that buffer on a new
// connect. This means we'll only catch EOF's when there are
// other characters with it, but that seems to work ok
if n <= 0 {
if err == io.EOF || err == io.ErrUnexpectedEOF {
// hit end of file
log.Println("Hit end of file on serial port")
h.broadcastSys <- []byte("{\"Cmd\":\"OpenFail\",\"Desc\":\"Got EOF (End of File) on port which usually means another app other than Serial Port JSON Server is locking your port. " + err.Error() + "\",\"Port\":\"" + p.portConf.Name + "\",\"Baud\":" + strconv.Itoa(p.portConf.Baud) + "}")
}
if err != nil {
log.Println(err)
h.broadcastSys <- []byte("Error reading on " + p.portConf.Name + " " +
err.Error() + " Closing port.")
h.broadcastSys <- []byte("{\"Cmd\":\"OpenFail\",\"Desc\":\"Got error reading on port. " + err.Error() + "\",\"Port\":\"" + p.portConf.Name + "\",\"Baud\":" + strconv.Itoa(p.portConf.Baud) + "}")
break
}
// Keep track of time difference between two consecutive read with n == 0 and err == nil
// we get here if the port has been disconnected while open (cpu usage will jump to 100%)
// let's close the port only if the events are extremely fast (<1ms)
if err == nil {
diff := time.Since(timeCheckOpen)
if diff.Nanoseconds() < 1000000 {
p.isClosing = true
}
timeCheckOpen = time.Now()
}
}
}
p.portIo.Close()
}
// this method runs as its own thread because it's instantiated
// as a "go" method. so if it blocks inside, it is ok
func (p *serport) writerBuffered() {
// this method can panic if user closes serial port and something is
// in BlockUntilReady() and then a send occurs on p.sendNoBuf
defer func() {
if e := recover(); e != nil {
// e is the interface{} typed-value we passed to panic()
log.Println("Got panic: ", e) // Prints "Whoops: boom!"
}
}()
// this for loop blocks on p.sendBuffered until that channel
// sees something come in
for data := range p.sendBuffered {
log.Printf("Got p.sendBuffered. data:%v, id:%v, pause:%v\n", strings.Replace(string(data.data), "\n", "\\n", -1), string(data.id), data.pause)
// we want to block here if we are being asked
// to pause.
goodToGo, willHandleCompleteResponse, newGcode := p.bufferwatcher.BlockUntilReady(string(data.data), data.id)
// BlockUntilReady can modify our Gcode now so it can possibly add tracking data
// so if we got newGcode then we must swap it for our original gcode
if len(newGcode) > 0 {
data.data = newGcode
}
if goodToGo == false {
log.Println("We got back from BlockUntilReady() but apparently we must cancel this cmd")
// since we won't get a buffer decrement in p.sendNoBuf, we must do it here
p.itemsInBuffer--
} else {
// send to the non-buffered serial port writer
//log.Printf("About to send to p.sendNoBuf channel. cmd:%v", data)
data.willHandleCompleteResponse = willHandleCompleteResponse
p.sendNoBuf <- data
}
}
msgstr := "writerBuffered just got closed. make sure you make a new one. port:" + p.portConf.Name
log.Println(msgstr)
h.broadcastSys <- []byte(msgstr)
}
// this method runs as its own thread because it's instantiated
// as a "go" method. so if it blocks inside, it is ok
func (p *serport) writerNoBuf() {
// this for loop blocks on p.send until that channel
// sees something come in
for data := range p.sendNoBuf {
log.Printf("Got p.sendNoBuf. id:%v, pause:%v, data:%v\n", string(data.id), data.pause, strings.Replace(string(data.data), "\n", "\\n", -1))
// if we get here, we were able to write successfully
// to the serial port because it blocks until it can write
// decrement counter
p.itemsInBuffer--
log.Printf("Items In SPJS Queue List:%v\n", p.itemsInBuffer)
//h.broadcastSys <- []byte("{\"Cmd\":\"Write\",\"QCnt\":" + strconv.Itoa(p.itemsInBuffer) + ",\"Byte\":" + strconv.Itoa(n2) + ",\"Port\":\"" + p.portConf.Name + "\"}")
// Figure out buffered or not buffered
buf := "Buf"
if data.skippedBuffer {
buf = "NoBuf"
}
// WARNING - Feedrate Override doesn't really belong in here because this is supposed
// to be a generic implementation of sending/receiving to serial ports
// However, there's not really a better place to put this because you need to know
// last minute what the feedrate override is and let the user adjust it at any time
// If you want a generic serial port implementation, remove this last minute call from this code
didWeOverride := false
newData := ""
if p.isFeedRateOverrideOn {
didWeOverride, newData = doFeedRateOverride(data.data, p.feedRateOverride)
}
if didWeOverride {
// We need to reset the gcode and make the qwReport be what we want
// Since we changed the gcode, we need to report it back to the user
// For reducing load on websocket, stop transmitting write data
data.data = newData
qwr := qwReportWithData{
Cmd: "Write",
QCnt: p.itemsInBuffer,
Id: string(data.id),
D: string(data.data),
Buf: buf,
P: p.portConf.Name,
}
qwrJson, _ := json.Marshal(qwr)
h.broadcastSys <- qwrJson
} else {
// For reducing load on websocket, stop transmitting write data
qwr := qwReport{
Cmd: "Write",
QCnt: p.itemsInBuffer,
Id: string(data.id),
D: string(data.data),
Buf: buf,
P: p.portConf.Name,
}
qwrJson, _ := json.Marshal(qwr)
h.broadcastSys <- qwrJson
}
// FINALLY, OF ALL THE CODE IN THIS PROJECT
// WE TRULY/FINALLY GET TO WRITE TO THE SERIAL PORT!
_, err := p.portIo.Write([]byte(data.data)) // n2, err :=
// New Pause capability after we write. Added 9/23/15
// This was needed because many Atmel microcontrollers just plain drop serial data
// if it's being sent over while an EEPROM write is in play, so SPJS now
// let's the user specify a pause after a serial command to solve for this error
if data.pause > 0 {
log.Printf("We are sleeping after the port write for milliseconds:%v\n", data.pause)
time.Sleep(time.Duration(data.pause) * time.Millisecond)
}
// see if we need to send back the completeResponse
if data.willHandleCompleteResponse == false {
// we need to send back complete response
// Send fake cmd:"Complete" back
//strCmd := data.data
m := CmdComplete{"CompleteFake", data.id, p.portConf.Name, -1, data.data}
msgJson, err := json.Marshal(m)
if err == nil {
h.broadcastSys <- msgJson
}
}
//log.Print("Just wrote ", n2, " bytes to serial: ", string(data.data))
//log.Print(n2)
//log.Print(" bytes to serial: ")
//log.Print(data)
if err != nil {
errstr := "Error writing to " + p.portConf.Name + " " + err.Error() + " Closing port."
log.Print(errstr)
h.broadcastSys <- []byte(errstr)
break
}
}
msgstr := "Shutting down writer on " + p.portConf.Name
log.Println(msgstr)
h.broadcastSys <- []byte(msgstr)
p.portIo.Close()
}
var spmutex = &sync.Mutex{}
var spIsOpening = false
func spHandlerOpen(portname string, baud int, buftype string, isSecondary bool) {
log.Print("Inside spHandler")
spmutex.Lock()
if spIsOpening {
log.Println("We are currently in the middle of opening a port. Returning...")
return
}
spIsOpening = true
var out bytes.Buffer
out.WriteString("Opening serial port ")
out.WriteString(portname)
out.WriteString(" at ")
out.WriteString(strconv.Itoa(baud))
out.WriteString(" baud")
log.Print(out.String())
//h.broadcast <- []byte("Opened a serial port ")
//h.broadcastSys <- out.Bytes()
isPrimary := true
if isSecondary {
isPrimary = false
}
//options := serial.RawOptions
//options.BitRate = 1200
//options.FlowControl = serial.FLOWCONTROL_RTSCTS
//p, err := options.Open(portname)
// Needed for original serial library
conf := &serial.Config{}
conf.Baud = baud
conf.Name = portname
conf.RtsOn = true
conf.DtrOn = false
// Needed for Arduino serial library
/*
conf := &SerialConfig{Name: portname, Baud: baud, RtsOn: true}
conf.DtrOn = false
*/
/*
// Needed for Arduino serial library
mode := &serial.Mode{
BaudRate: baud,
Vmin: 0,
Vtimeout: 10,
}
*/
//mode.DataBits = 7
//mode.Parity = 0
//mode.StopBits = 1
// Needed for original serial library
sp, err := serial.OpenPort(conf)
// Needed for Arduino serial library
//sp, err := serial.OpenPort(portname, mode)
log.Print("Just tried to open port")
if err != nil {
//log.Fatal(err)
log.Print("Error opening port " + err.Error())
//h.broadcastSys <- []byte("Error opening port. " + err.Error())
h.broadcastSys <- []byte("{\"Cmd\":\"OpenFail\",\"Desc\":\"Error opening port. " + err.Error() + "\",\"Port\":\"" + conf.Name + "\",\"Baud\":" + strconv.Itoa(conf.Baud) + "}")
return
}
log.Print("Opened port successfully")
//p := &serport{send: make(chan []byte, 256), portConf: conf, portIo: sp}
// we can go up to 500,000 lines of gcode in the buffer
p := &serport{sendBuffered: make(chan Cmd, 500000), sendNoBuf: make(chan Cmd), portConf: conf, portIo: sp, BufferType: buftype, IsPrimary: isPrimary, IsSecondary: isSecondary, isFeedRateOverrideOn: false}
// if user asked for a buffer watcher, i.e. tinyg/grbl then attach here
if buftype == "tinyg_old" {
bw := &BufferflowTinyg{Name: "tinyg", parent_serport: p}
bw.Init()
bw.Port = portname
p.bufferwatcher = bw
} else if buftype == "tinyg" {
bw := &BufferflowTinygV2{Name: "tinyg_v2", parent_serport: p}
bw.Init()
bw.Port = portname
p.bufferwatcher = bw
} else if buftype == "tinygg2" {
bw := &BufferflowTinygG2{Name: "tinygg2", parent_serport: p}
bw.Init()
bw.Port = portname
p.bufferwatcher = bw
} else if buftype == "tinyg_linemode" {
bw := &BufferflowTinygPktMode{Name: "tinyg_linemode", parent_serport: p}
bw.Init()
bw.Port = portname
p.bufferwatcher = bw
} else if buftype == "tinyg_tidmode" {
bw := &BufferflowTinygTidMode{Name: "tinyg_tidmode", parent_serport: p}
bw.Init()
bw.Port = portname
p.bufferwatcher = bw
} else if buftype == "dummypause" {
// this is a dummy pause type bufferflow object
// to test artificially a delay on the serial port write
// it just pauses 3 seconds on each serial port write
bw := &BufferflowDummypause{}
bw.Init()
bw.Port = portname
p.bufferwatcher = bw
} else if buftype == "timed" {
// this is a timed bufferflow taken from what the Arduino
// guys did to reduce the amount of json packets coming
// back from the server. by adding a timer we can collect data
// first and then send back. we only add 16ms so it's not too bad
bw := &BufferflowTimed{Name: "timed", Port: portname, Output: h.broadcastSys, Input: make(chan string)}
bw.Init()
bw.Port = portname
p.bufferwatcher = bw
} else if buftype == "nodemcu" {
// nodemcu buffer only sends data back per line (which might be a bad call)
// and it only sends 1 line at a time to the device and releases the next line
// when it sees a > come back
bw := &BufferflowNodeMcu{Name: "nodemcu", Port: portname}
bw.Init()
p.bufferwatcher = bw
} else if buftype == "grbl" {
// grbl bufferflow
// store port as parent_serport for use in intializing a status query loop for '?'
bw := &BufferflowGrbl{Name: "grbl", parent_serport: p}
bw.Init()
bw.Port = portname
p.bufferwatcher = bw
} else if buftype == "marlin" {
// marlin bufferflow
// store port as parent_serport for use in intializing a status query loop for '?'
bw := &BufferflowMarlin{Name: "marlin", parent_serport: p}
bw.Init()
bw.Port = portname
p.bufferwatcher = bw
} else {
bw := &BufferflowDefault{}
bw.Init()
bw.Port = portname
p.bufferwatcher = bw
}
sh.register <- p
defer func() { sh.unregister <- p }()
// this is internally buffered thread to not send to serial port if blocked
go p.writerBuffered()
// this is thread to send to serial port regardless of block
go p.writerNoBuf()
p.reader()
//go p.reader()
//p.done = make(chan bool)
//<-p.done
spIsOpening = false
spmutex.Unlock()
}
func spHandlerCloseExperimental(p *serport) {
h.broadcastSys <- []byte("Pre-closing serial port " + p.portConf.Name)
p.isClosing = true
//close the port
p.bufferwatcher.Close()
p.portIo.Close()
h.broadcastSys <- []byte("Bufferwatcher closed")
p.portIo.Close()
//elicit response from hardware to close out p.reader()
//_, _ = p.portIo.Write([]byte("?"))
//p.portIo.Read(nil)
//close(p.portIo)
h.broadcastSys <- []byte("portIo closed")
close(p.sendBuffered)
h.broadcastSys <- []byte("p.sendBuffered closed")
close(p.sendNoBuf)
h.broadcastSys <- []byte("p.sendNoBuf closed")
//p.done <- true
// unregister myself
// we already have a deferred unregister in place from when
// we opened. the only thing holding up that thread is the p.reader()
// so if we close the reader we should get an exit
h.broadcastSys <- []byte("Closing serial port " + p.portConf.Name)
}
func spHandlerClose(p *serport) {
p.isClosing = true
//close the port
//elicit response from hardware to close out p.reader()
_, _ = p.portIo.Write([]byte("?"))
p.bufferwatcher.Close()
p.portIo.Close()
// unregister myself
// we already have a deferred unregister in place from when
// we opened. the only thing holding up that thread is the p.reader()
// so if we close the reader we should get an exit
h.broadcastSys <- []byte("Closing serial port " + p.portConf.Name)
}