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serial.go
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serial.go
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// Supports Windows, Linux, Mac, BeagleBone Black, and Raspberry Pi
package main
import (
//"bufio"
"encoding/json"
"fmt"
//"path/filepath"
//"github.com/kballard/go-shellquote"
//"github.com/johnlauer/goserial"
//"github.com/mikepb/go-serial"
//"github.com/facchinm/go-serial"
//"github.com/kardianos/osext"
"log"
//"os"
"regexp"
"runtime/debug"
"strconv"
"strings"
//"time"
)
type writeRequest struct {
p *serport
d string
buffer bool
id string
pause int
}
type writeRequestJson struct {
p *serport
P string
Data []writeRequestJsonData
}
type writeRequestJsonData struct {
D string
Id string
Buf string
Pause int
}
type qReportJson struct {
Cmd string
QCnt int
P string
Data []qReportJsonData
}
type qReportJsonData struct {
D string
Id string
Buf string `json:"-"`
Parts int `json:"-"`
Pause int
}
type qReport struct {
Cmd string
QCnt int
Type []string `json:"-"`
Ids []string
D []string //`json:"-"`
Port string
}
type serialhub struct {
// Opened serial ports.
ports map[*serport]bool
//open chan *io.ReadWriteCloser
//write chan *serport, chan []byte
write chan writeRequest
//read chan []byte
writeJson chan writeRequestJson
// Register requests from the connections.
register chan *serport
// Unregister requests from connections.
unregister chan *serport
// regexp for json trimming
reJsonTrim *regexp.Regexp
}
type SpPortList struct {
SerialPorts []SpPortItem
}
type SpPortItem struct {
Name string
Friendly string
SerialNumber string
DeviceClass string
IsOpen bool
IsPrimary bool
RelatedNames []string
Baud int
BufferAlgorithm string
AvailableBufferAlgorithms []string
Ver float32
UsbVid string
UsbPid string
FeedRateOverride float32
}
var sh = serialhub{
//write: make(chan *serport, chan []byte),
write: make(chan writeRequest),
writeJson: make(chan writeRequestJson),
register: make(chan *serport),
unregister: make(chan *serport),
ports: make(map[*serport]bool),
reJsonTrim: regexp.MustCompile("sendjson"),
}
func (sh *serialhub) run() {
log.Print("Inside run of serialhub")
//cmdIdCtr := 0
//s := ser.open()
//ser.s := s
//ser.write(s, []byte("hello serial data"))
for {
select {
case p := <-sh.register:
log.Print("Registering a port: ", p.portConf.Name)
isPrimary := "false"
if p.IsPrimary {
isPrimary = "true"
}
h.broadcastSys <- []byte("{\"Cmd\":\"Open\",\"Desc\":\"Got register/open on port.\",\"Port\":\"" + p.portConf.Name + "\",\"IsPrimary\":" + isPrimary + ",\"Baud\":" + strconv.Itoa(p.portConf.Baud) + ",\"BufferType\":\"" + p.BufferType + "\"}")
//log.Print(p.portConf.Name)
sh.ports[p] = true
case p := <-sh.unregister:
log.Print("Unregistering a port: ", p.portConf.Name)
h.broadcastSys <- []byte("{\"Cmd\":\"Close\",\"Desc\":\"Got unregister/close on port.\",\"Port\":\"" + p.portConf.Name + "\",\"Baud\":" + strconv.Itoa(p.portConf.Baud) + "}")
delete(sh.ports, p)
close(p.sendBuffered)
close(p.sendNoBuf)
case wrj := <-sh.writeJson:
// if the user sent in the commands as json
writeJson(wrj)
case wr := <-sh.write:
// if user sent in the commands as one text mode line
write(wr, "")
}
}
}
func writeJson(wrj writeRequestJson) {
// we'll parse this json request and then do a write() as if
// the cmd was sent in as text mode
// create array to hold our qReportJsonData
qReportDataArr := []qReportJsonData{}
for _, cmdJson := range wrj.Data {
var wr writeRequest
wr.d = cmdJson.D //[]byte(cmdJson.D)
//wr.id = cmdJson.Id
wr.p = wrj.p
if cmdJson.Buf == "Buf" {
wr.buffer = true
} else if cmdJson.Buf == "NoBuf" {
wr.buffer = false
} else {
wr.buffer = true
}
//write(wr, cmdJson.Id, true)
// handle our new pause value as of 9/23/15
wr.pause = cmdJson.Pause
// we are sending 1 cmd in, but we may get back multiple cmds
// because the BreakApartCommands() can add/modify stuff, so keep
// that in mind
cmds, idArr, bufTypeArr := createCommands(wr, cmdJson.Id)
for index, _ := range cmds {
// create q report data
cmdId := idArr[index]
// append stuff to the id if this cmd was one line and just got broken up
// the first line will have a normal id like "123"
// the 2nd, 3rd,e tc line will have id like "123-part-2-3", "123-part-3-3"
if index > 0 {
cmdId = fmt.Sprintf("%v-part-%v-%v", cmdId, (index + 1), len(cmds))
}
qrd := qReportJsonData{D: cmds[index], Id: cmdId, Parts: len(cmds)}
// if user forced the buffer type, just use it
if cmdJson.Buf == "Buf" || cmdJson.Buf == "NoBuf" {
qrd.Buf = cmdJson.Buf
} else {
// else use the buffer type figured out in createCommands()
qrd.Buf = bufTypeArr[index]
}
// handle pause value
// when a user sends in multiple lines in one command and we break it apart,
// just assume that the pause will be the same on subsequent lines
qrd.Pause = cmdJson.Pause
qReportDataArr = append(qReportDataArr, qrd)
}
}
// do our own report
qr := qReportJson{
Cmd: "Queued",
Data: qReportDataArr,
QCnt: wrj.p.itemsInBuffer,
P: wrj.p.portConf.Name,
}
json, _ := json.Marshal(qr)
h.broadcastSys <- json
// now send off the commands to the appropriate channel
for _, qrd := range qReportDataArr {
if qrd.Buf == "Buf" {
//log.Println("Json sending to wr.p.sendBuffered")
wrj.p.sendBuffered <- Cmd{qrd.D, qrd.Id, false, false, qrd.Pause}
} else {
//log.Println("Json sending to wr.p.sendNoBuf")
// Need to see if we should rewrite the serial command though
newCmd := wrj.p.bufferwatcher.RewriteSerialData(qrd.D, qrd.Id)
if len(newCmd) > 0 {
qrd.D = newCmd
log.Printf("The serial data got rewritten on a NoBuf cmd. new cmd:%v", qrd.D)
}
wrj.p.sendNoBuf <- Cmd{qrd.D, qrd.Id, true, false, qrd.Pause}
}
}
// garbage collect
if *gcType == "max" {
debug.FreeOSMemory()
}
log.Println("Done with writeJson method")
}
func write(wr writeRequest, id string) {
cmds, idArr, bufTypeArr := createCommands(wr, id)
qr := qReport{
Cmd: "Queued",
//Type: bufTypeArr,
Ids: idArr,
D: cmds,
QCnt: wr.p.itemsInBuffer,
Port: wr.p.portConf.Name,
}
json, _ := json.Marshal(qr)
h.broadcastSys <- json
// now send off the commands to the appropriate channel
for index, cmdToSendToChannel := range cmds {
//cmdIdCtr++
//cmdId := "fakeid-" + strconv.Itoa(cmdIdCtr)
cmdId := idArr[index]
if bufTypeArr[index] == "Buf" {
//log.Println("Send was normal send, so sending to wr.p.sendBuffered")
wr.p.sendBuffered <- Cmd{cmdToSendToChannel, cmdId, false, false, 0}
} else {
//log.Println("Send was sendnobuf, so sending to wr.p.sendNoBuf")
// Need to see if we should rewrite the serial command though
newCmd := wr.p.bufferwatcher.RewriteSerialData(cmdToSendToChannel, cmdId)
if len(newCmd) > 0 {
cmdToSendToChannel = newCmd
log.Printf("The serial data got rewritten on a NoBuf. new cmd:%v", cmdToSendToChannel)
}
wr.p.sendNoBuf <- Cmd{cmdToSendToChannel, cmdId, true, false, 0}
}
}
// garbage collect
if *gcType == "max" {
debug.FreeOSMemory()
}
}
func createCommands(wr writeRequest, id string) ([]string, []string, []string) {
//log.Print("Got a write to a port")
//log.Print("Port: ", string(wr.p.portConf.Name))
//log.Print(wr.p)
//log.Print("Data is: ")
//log.Println(wr.d)
//log.Print("Data:" + string(wr.d))
//log.Print("-----")
//log.Printf("Got write to id:%v, port:%v, buffer:%v, data:%v", id, wr.p.portConf.Name, wr.buffer, string(wr.d))
dataCmd := string(wr.d)
// break the data into individual commands for queuing
// this is important because:
// 1) we could be sent multiple serial commands at once and the
// serial device may want them sent in smaller chunks to give
// better feedback. For example, if we're sent G0 X0\nG0 Y10\n we
// could happily send that to a CNC controller like a TinyG. However,
// on something like TinyG that would chew up 2 buffer planners. So,
// to better match what will happen, we break those into 2 commands
// so we get a better granularity of getting back qr responses or
// other feedback.
// 2) we need to break apart specific commands potentially that do
// not need newlines. For example, on TinyG we need !~% to be different
// commands because we need to pivot off of what they mean. ! means pause
// the sending. So, we need that command as its own command in order of
// how they were sent to us.
cmds := wr.p.bufferwatcher.BreakApartCommands(dataCmd)
dataArr := []string{}
bufTypeArr := []string{}
idArr := []string{}
for _, cmd := range cmds {
// push this cmd onto dataArr for reporting
dataArr = append(dataArr, cmd)
idArr = append(idArr, id)
// do extra check to see if certain command should wipe out
// the entire internal serial port buffer we're holding in wr.p.sendBuffered
wipeBuf := wr.p.bufferwatcher.SeeIfSpecificCommandsShouldWipeBuffer(cmd)
if wipeBuf {
log.Printf("We got a command that is asking us to wipe the sendBuffered buf. cmd:%v\n", cmd)
// just wipe out the current channel and create new
// hopefully garbage collection works here
// close the channel
//close(wr.p.sendBuffered)
// consume all stuff queued
func() {
ctr := 0
/*
for data := range wr.p.sendBuffered {
log.Printf("Consuming sendBuffered queue. d:%v\n", string(data))
ctr++
}*/
keepLooping := true
for keepLooping {
select {
case d, ok := <-wr.p.sendBuffered:
log.Printf("Consuming sendBuffered queue. ok:%v, d:%v, id:%v\n", ok, string(d.data), string(d.id))
ctr++
// since we just consumed a buffer item, we need to decrement bufcount
// we are doing this artificially because we artifically threw
// away what was in the bufer
wr.p.itemsInBuffer--
if ok == false {
keepLooping = false
}
default:
keepLooping = false
log.Println("Hit default in select clause")
}
}
log.Printf("Done consuming sendBuffered cmds. ctr:%v\n", ctr)
}()
// we still will likely have a sendBuffered that is in the BlockUntilReady()
// that we have to deal with so it doesn't send to the serial port
// when we release it
// send semaphore release if there is one on the BlockUntilReady()
// this method will release the BlockUntilReady() but with an unblock
// of type 2 which means cancel the send
wr.p.bufferwatcher.ReleaseLock()
// let user know we wiped queue
log.Printf("itemsInBuffer:%v\n", wr.p.itemsInBuffer)
h.broadcastSys <- []byte("{\"Cmd\":\"WipedQueue\",\"QCnt\":" + strconv.Itoa(wr.p.itemsInBuffer) + ",\"Port\":\"" + wr.p.portConf.Name + "\"}")
}
// do extra check to see if any specific commands should pause
// the buffer. this means we'll trigger a BlockUntilReady() block
pauseBuf := wr.p.bufferwatcher.SeeIfSpecificCommandsShouldPauseBuffer(cmd)
if pauseBuf {
log.Printf("We need to manually pause our internal buffer.\n")
wr.p.bufferwatcher.SetManualPaused(true)
wr.p.bufferwatcher.Pause()
}
// do extra check to see if any specific commands should unpause
// the buffer. this means we'll release the BlockUntilReady() block
unpauseBuf := wr.p.bufferwatcher.SeeIfSpecificCommandsShouldUnpauseBuffer(cmd)
if unpauseBuf {
log.Printf("We need to unpause our internal buffer.\n")
wr.p.bufferwatcher.SetManualPaused(false)
wr.p.bufferwatcher.Unpause()
}
// do extra check to see if certain commands for this buffer type
// should skip the internal serial port buffering
// for example ! on tinyg and grbl should skip
typeBuf := "" // set in if stmt below for reporting afterwards
if wr.buffer {
bufferSkip := wr.p.bufferwatcher.SeeIfSpecificCommandsShouldSkipBuffer(cmd)
if bufferSkip {
log.Printf("Forcing this cmd to skip buffer. cmd:%v\n", cmd)
//wr.buffer = false
typeBuf = "NoBuf"
} else {
typeBuf = "Buf"
}
} else {
typeBuf = "NoBuf"
}
/*
if wr.buffer {
//log.Println("Send was normal send, so sending to wr.p.sendBuffered")
//wr.p.sendBuffered <- []byte(cmd)
typeBuf = "Buf"
} else {
//log.Println("Send was sendnobuf, so sending to wr.p.sendNoBuf")
//wr.p.sendNoBuf <- []byte(cmd)
typeBuf = "NoBuf"
}
*/
// increment queue counter for reporting
wr.p.itemsInBuffer++
//log.Printf("itemsInBuffer:%v\n", wr.p.itemsInBuffer)
// push the type of this command to bufTypeArr
bufTypeArr = append(bufTypeArr, typeBuf)
} // for loop on broken apart commands
return cmds, idArr, bufTypeArr
}
func writeToChannels(cmds []string, idArr []string, bufTypeArr []string) {
}
func spList() {
// call our os specific implementation of getting the serial list
list, _ := GetList()
// do a quick loop to see if any of our open ports
// did not end up in the list port list. this can
// happen on windows in a fallback scenario where an
// open port can't be identified because it is locked,
// so just solve that by manually inserting
for port := range sh.ports {
isFound := false
for _, item := range list {
if strings.ToLower(port.portConf.Name) == strings.ToLower(item.Name) {
isFound = true
}
}
if !isFound {
// artificially push to front of port list
log.Println(fmt.Sprintf("Did not find an open port in the serial port list. We are going to artificially push it onto the list. port:%v", port.portConf.Name))
var ossp OsSerialPort
ossp.Name = port.portConf.Name
ossp.FriendlyName = port.portConf.Name
list = append([]OsSerialPort{ossp}, list...)
}
}
// we have a full clean list of ports now. iterate thru them
// to append the open/close state, baud rates, etc to make
// a super clean nice list to send back to browser
n := len(list)
spl := SpPortList{make([]SpPortItem, n, n)}
// now try to get the meta data for the ports. keep in mind this may fail
// to give us anything
metaports, err := GetMetaList()
log.Printf("Got metadata on ports:%v", metaports)
ctr := 0
for _, item := range list {
/*
Name string
Friendly string
IsOpen bool
IsPrimary bool
RelatedNames []string
Baud int
RtsOn bool
DtrOn bool
BufferAlgorithm string
AvailableBufferAlgorithms []string
Ver float32
*/
spl.SerialPorts[ctr] = SpPortItem{
Name: item.Name,
Friendly: item.FriendlyName,
SerialNumber: item.SerialNumber,
DeviceClass: item.DeviceClass,
IsOpen: false,
IsPrimary: false,
RelatedNames: item.RelatedNames,
Baud: 0,
BufferAlgorithm: "",
AvailableBufferAlgorithms: availableBufferAlgorithms,
Ver: versionFloat,
UsbPid: item.IdProduct,
UsbVid: item.IdVendor,
}
// if we have meta data for this port, use it
if len(metaports) > 0 {
setMetaData(&spl.SerialPorts[ctr], metaports)
}
// figure out if port is open
//spl.SerialPorts[ctr].IsOpen = false
myport, isFound := findPortByName(item.Name)
if isFound {
// we found our port
spl.SerialPorts[ctr].IsOpen = true
spl.SerialPorts[ctr].Baud = myport.portConf.Baud
spl.SerialPorts[ctr].BufferAlgorithm = myport.BufferType
spl.SerialPorts[ctr].IsPrimary = myport.IsPrimary
spl.SerialPorts[ctr].FeedRateOverride = myport.feedRateOverride
}
//ls += "{ \"name\" : \"" + item.Name + "\", \"friendly\" : \"" + item.FriendlyName + "\" },\n"
ctr++
}
// we are getting a crash here, so thinking it's like a null pointer. do some further
// debug and set default values
log.Printf("About to marshal the serial port list. spl:%v", spl)
ls, err := json.MarshalIndent(spl, "", "\t")
if err != nil {
log.Println(err)
h.broadcastSys <- []byte("Error creating json on port list " +
err.Error())
} else {
//log.Print("Printing out json byte data...")
//log.Print(ls)
h.broadcastSys <- ls
}
}
func setMetaData(pi *SpPortItem, metadata []OsSerialPort) {
// loop thru metadata and see if this port (pi) is in the list
for _, mi := range metadata {
if pi.Name == mi.Name {
// we have a winner
pi.Friendly = mi.FriendlyName
pi.DeviceClass = mi.DeviceClass
pi.SerialNumber = mi.SerialNumber
pi.RelatedNames = mi.RelatedNames
pi.UsbPid = mi.IdProduct
pi.UsbVid = mi.IdVendor
break
}
}
}
func setMetaDataForOsSerialPort(pi *OsSerialPort, metadata []OsSerialPort) {
// loop thru metadata and see if this port (pi) is in the list
for _, mi := range metadata {
if pi.Name == mi.Name {
// we have a winner
pi.FriendlyName = mi.FriendlyName
pi.IdProduct = mi.IdProduct
pi.IdVendor = mi.IdVendor
pi.Manufacturer = mi.Manufacturer
pi.DeviceClass = mi.DeviceClass
pi.SerialNumber = mi.SerialNumber
pi.RelatedNames = mi.RelatedNames
break
}
}
}
/*
func spListOld() {
ls := "{\"serialports\" : [\n"
list, _ := getList()
for _, item := range list {
ls += "{ \"name\" : \"" + item.Name + "\", \"friendly\" : \"" + item.FriendlyName + "\" },\n"
}
ls = strings.TrimSuffix(ls, "},\n")
ls += "}\n"
ls += "]}\n"
h.broadcastSys <- []byte(ls)
}*/
func spErr(err string) {
log.Println("Sending err back: ", err)
//h.broadcastSys <- []byte(err)
h.broadcastSys <- []byte("{\"Error\" : \"" + err + "\"}")
}
func spClose(portname string) {
// look up the registered port by name
// then call the close method inside serialport
// that should cause an unregister channel call back
// to myself
myport, isFound := findPortByName(portname)
if isFound {
// we found our port
spHandlerClose(myport)
} else {
// we couldn't find the port, so send err
spErr("We could not find the serial port " + portname + " that you were trying to close.")
}
}
func spWriteJson(arg string) {
//log.Printf("spWriteJson. arg:%v\n", arg)
// remove sendjson string
arg = sh.reJsonTrim.ReplaceAllString(arg, "")
//log.Printf("string we're going to parse:%v\n", arg)
// this is a structured command now for sending in serial commands multiple at a time
// with an ID so we can send back the ID when the command is done
var m writeRequestJson
/*
m.P = "COM22"
var data writeRequestJsonData
data.Id = "234"
str := "yeah yeah"
data.D = str //[]byte(str) //[]byte(string("blah blah"))
m.Data = append(m.Data, data)
//m.Data = append(m.Data, data)
bm, err2 := json.Marshal(m)
if err2 == nil {
log.Printf("Test json serialize:%v\n", string(bm))
}
*/
err := json.Unmarshal([]byte(arg), &m)
if err != nil {
log.Printf("Problem decoding json. giving up. json:%v, err:%v\n", arg, err)
spErr(fmt.Sprintf("Problem decoding json. giving up. json:%v, err:%v", arg, err))
return
}
// see if we have this port open
portname := m.P
myport, isFound := findPortByName(portname)
if !isFound {
// we couldn't find the port, so send err
spErr("We could not find the serial port " + portname + " that you were trying to write to.")
return
}
// we found our port
m.p = myport
// send it to the writeJson channel
sh.writeJson <- m
}
func spWrite(arg string) {
// we will get a string of comXX asdf asdf asdf
log.Println("Inside spWrite arg: " + arg)
arg = strings.TrimPrefix(arg, " ")
//log.Println("arg after trim: " + arg)
args := strings.SplitN(arg, " ", 3)
if len(args) != 3 {
errstr := "Could not parse send command: " + arg
log.Println(errstr)
spErr(errstr)
return
}
portname := strings.Trim(args[1], " ")
//log.Println("The port to write to is:" + portname + "---")
//log.Println("The data is:" + args[2] + "---")
// see if we have this port open
myport, isFound := findPortByName(portname)
if !isFound {
// we couldn't find the port, so send err
spErr("We could not find the serial port " + portname + " that you were trying to write to.")
return
}
// we found our port
// create our write request
var wr writeRequest
wr.p = myport
// see if args[0] is send or sendnobuf
if args[0] != "sendnobuf" {
// we were just given a "send" so buffer it
wr.buffer = true
} else {
log.Println("sendnobuf specified so wr.buffer is false")
wr.buffer = false
}
// include newline or not in the write? that is the question.
// for now lets skip the newline
//wr.d = []byte(args[2] + "\n")
wr.d = args[2] //[]byte(args[2])
// send it to the write channel
sh.write <- wr
}
func findPortByName(portname string) (*serport, bool) {
portnamel := strings.ToLower(portname)
for port := range sh.ports {
if strings.ToLower(port.portConf.Name) == portnamel {
// we found our port
//spHandlerClose(port)
return port, true
}
}
return nil, false
}
func spBufferAlgorithms() {
//arr := []string{"default", "tinyg", "dummypause"}
arr := availableBufferAlgorithms
json := "{\"BufferAlgorithm\" : ["
for _, elem := range arr {
json += "\"" + elem + "\", "
}
json = regexp.MustCompile(", $").ReplaceAllString(json, "]}")
h.broadcastSys <- []byte(json)
}
func spBaudRates() {
arr := []string{"2400", "4800", "9600", "19200", "38400", "57600", "115200", "230400"}
json := "{\"BaudRate\" : ["
for _, elem := range arr {
json += "" + elem + ", "
}
json = regexp.MustCompile(", $").ReplaceAllString(json, "]}")
h.broadcastSys <- []byte(json)
}