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bufferflow_nodemcu.go
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bufferflow_nodemcu.go
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package main
import (
"encoding/json"
"log"
"regexp"
"strings"
"sync"
"time"
)
type BufferflowNodeMcu struct {
Name string
Port string
//Output chan []byte
Input chan string
ticker *time.Ticker
IsOpen bool
bufferedOutput string
reNewLine *regexp.Regexp
reCmdDone *regexp.Regexp
// additional lock for BlockUntilReady vs OnIncomingData method
inOutLock *sync.Mutex
q *Queue
sem chan int // semaphore to wait on until given release
Paused bool
ManualPaused bool
lock *sync.Mutex
manualLock *sync.Mutex
BufferMax int
}
func (b *BufferflowNodeMcu) Init() {
log.Println("Initting timed buffer flow (output once every 16ms)")
b.bufferedOutput = ""
b.IsOpen = true
b.reNewLine, _ = regexp.Compile("\\r{0,1}\\n")
b.inOutLock = &sync.Mutex{}
b.q = NewQueue()
// when we get a > response we know a line was processed
b.reCmdDone, _ = regexp.Compile("^(>|stdin:|=)")
b.sem = make(chan int, 1000)
b.Paused = false
b.ManualPaused = false
b.lock = &sync.Mutex{}
b.manualLock = &sync.Mutex{}
b.Input = make(chan string)
b.BufferMax = 2
go func() {
for data := range b.Input {
//log.Printf("Got to b.Input chan loop. data:%v\n", data)
// Lock the packet ctr at start and then end
b.inOutLock.Lock()
b.bufferedOutput = b.bufferedOutput + data
arrLines := b.reNewLine.Split(b.bufferedOutput, -1)
if len(arrLines) > 1 {
// that means we found a newline and have 2 or greater array values
// so we need to analyze our arrLines[] lines but keep last line
// for next trip into OnIncomingData
//log.Printf("We have data lines to analyze. numLines:%v\n", len(arrLines))
} else {
// we don't have a newline yet, so just exit and move on
// we don't have to reset b.LatestData because we ended up
// without any newlines so maybe we will next time into this method
//log.Printf("Did not find newline yet, so nothing to analyze\n")
b.inOutLock.Unlock()
continue
}
log.Printf("Analyzing incoming data. Start.")
// if we made it here we have lines to analyze
// so analyze all of them except the last line
for _, element := range arrLines[:len(arrLines)-1] {
//log.Printf("Working on element:%v, index:%v", element, index)
//log.Printf("Working on element:%v, index:%v", element)
log.Printf("\t\tData:%v", element)
// check if there was a reset cuz we need to wipe our buffer if there was
if len(element) > 4 {
bTxt := []byte(element)[len(element)-4:]
bTest := []byte{14, 219, 200, 244}
//log.Printf("\t\ttesting two arrays\n\tbTxt :%v\n\tbTest:%v\n", bTxt, bTest)
//reWasItReset := regexp.MustCompile("fffd")
//if reWasItReset.MatchString(element) {
if ByteArrayEquals(bTxt, bTest) {
// it was reset, wipe buffer
b.q.Delete()
log.Printf("\t\tLooks like it was reset based on 1st 4 bytes. We should wipe buffer.")
b.SetPaused(false, 2)
}
}
// see if it just got restarted
reIsRestart := regexp.MustCompile("(NodeMCU custom build by frightanic.com|NodeMCU .+ build .+ powered by Lua)")
if reIsRestart.MatchString(element) {
// it was reset, wipe buffer
b.q.Delete()
log.Printf("\t\tLooks like it was reset based on NodeMCU build line. We should wipe buffer.")
b.SetPaused(false, 2)
}
// Peek to see if the message back matches the command we just sent in
lastCmd, _ := b.q.Peek()
lastCmd = regexp.MustCompile("\n").ReplaceAllString(lastCmd, "")
cmdProcessed := false
log.Printf("\t\tSeeing if peek compare to lastCmd makes sense. lastCmd:\"%v\", element:\"%v\"", lastCmd, element)
if lastCmd == element {
// we just got back the last command so that is a good indicator we got processed
log.Printf("\t\tWe got back the same command that was just sent in. That is a sign we are processed.")
cmdProcessed = true
}
//check for >|stdin:|= response indicating a line has been processed
if cmdProcessed || b.reCmdDone.MatchString(element) {
// ok, a line has been processed, the if statement below better
// be guaranteed to be true, cuz if its not we did something wrong
if b.q.Len() > 0 {
//b.BufferSize -= b.BufferSizeArray[0]
doneCmd, id := b.q.Poll()
// Send cmd:"Complete" back
m := DataCmdComplete{"Complete", id, b.Port, b.q.Len(), doneCmd}
bm, err := json.Marshal(m)
if err == nil {
h.broadcastSys <- bm
}
log.Printf("\tBuffer decreased to b.q.Len:%v\n", b.q.Len())
} else {
log.Printf("\tWe should RARELY get here cuz we should have a command in the queue to dequeue when we get the >|stdin:|= response. If you see this debug stmt this is one of those few instances where NodeMCU sent us a >|stdin:|= not in response to a command we sent.")
}
if b.q.Len() < b.BufferMax {
// if we are paused, tell us to unpause cuz we have clean buffer room now
if b.GetPaused() {
// we are paused, but we can't just go unpause ourself, because we may
// be manually paused. this means we have to do a double-check here
if b.GetManualPaused() == false {
// we are not in a manual pause state, that means we can go ahead
// and unpause ourselves
b.SetPaused(false, 1) //set paused to false first, then release the hold on the buffer
} else {
log.Println("\tWe just got incoming >|stdin:|= so we could unpause, but since manual paused we will ignore until next time a >|stdin:|= comes in to unpause")
}
}
}
}
// handle communication back to client
// for base serial data (this is not the cmd:"Write" or cmd:"Complete")
m := DataPerLine{b.Port, element + "\n"}
bm, err := json.Marshal(m)
if err == nil {
h.broadcastSys <- bm
}
} // for loop
b.bufferedOutput = arrLines[len(arrLines)-1]
b.inOutLock.Unlock()
log.Printf("Done with analyzing incoming data.")
}
}()
/*
go func() {
b.ticker = time.NewTicker(16 * time.Millisecond)
for _ = range b.ticker.C {
if b.bufferedOutput != "" {
m := SpPortMessage{b.Port, b.bufferedOutput}
buf, _ := json.Marshal(m)
b.Output <- []byte(buf)
//log.Println(buf)
b.bufferedOutput = ""
}
}
}()
*/
}
func IntArrayEquals(a []int, b []int) bool {
if len(a) != len(b) {
return false
}
for i, v := range a {
if v != b[i] {
return false
}
}
return true
}
func ByteArrayEquals(a []byte, b []byte) bool {
if len(a) != len(b) {
return false
}
for i, v := range a {
if v != b[i] {
return false
}
}
return true
}
func (b *BufferflowNodeMcu) BlockUntilReady(cmd string, id string) (bool, bool, string) {
// Lock for this ENTIRE method
b.inOutLock.Lock()
log.Printf("BlockUntilReady() Start\n")
log.Printf("\tid:%v, txt:%v\n", id, strings.Replace(cmd, "\n", "\\n", -1))
// keep track of whether we need to unlock at end of method or not
// i.e. we unlock if we have to pause, thus we won't have to doubly unlock at end of method
isNeedToUnlock := true
b.q.Push(cmd, id)
if b.q.Len() >= b.BufferMax {
b.SetPaused(true, 0) // b.Paused = true
log.Printf("\tIt looks like the local queue at Len: %v is over the allowed size of BufferMax: %v, so we are going to pause. Then when some incoming responses come in a check will occur to see if there's room to send this command. Pausing...", b.q.Len(), b.BufferMax)
}
if b.GetPaused() {
//log.Println("It appears we are being asked to pause, so we will wait on b.sem")
// We are being asked to pause our sending of commands
// clear all b.sem signals so when we block below, we truly block
b.ClearOutSemaphore()
// since we need other code to run while we're blocking, we better release the packet ctr lock
b.inOutLock.Unlock()
// since we already unlocked this thread, note it so we don't doubly unlock
isNeedToUnlock = false
log.Println("\tBlocking on b.sem until told from OnIncomingData to go")
unblockType, ok := <-b.sem // will block until told from OnIncomingData to go
log.Printf("\tDone blocking cuz got b.sem semaphore release. ok:%v, unblockType:%v\n", ok, unblockType)
log.Printf("\tDone blocking cuz got b.sem semaphore release. ok:%v, unblockType:%v\n", ok, unblockType)
// we get an unblockType of 1 for normal unblocks
// we get an unblockType of 2 when we're being asked to wipe the buffer, i.e. from a % cmd
if unblockType == 2 {
log.Println("\tThis was an unblock of type 2, which means we're being asked to wipe internal buffer. so return false.")
// returning false asks the calling method to wipe the serial send once
// this function returns
return false, false, ""
}
}
log.Printf("BlockUntilReady() end\n")
time.Sleep(10 * time.Millisecond)
if isNeedToUnlock {
b.inOutLock.Unlock()
}
//return true, willHandleCompleteResponse, newCmd
return true, true, ""
}
func (b *BufferflowNodeMcu) OnIncomingData(data string) {
b.Input <- data
}
// Clean out b.sem so it can truly block
func (b *BufferflowNodeMcu) ClearOutSemaphore() {
keepLooping := true
for keepLooping {
select {
case _, ok := <-b.sem: // case d, ok :=
//log.Printf("Consuming b.sem queue to clear it before we block. ok:%v, d:%v\n", ok, string(d))
//ctr++
if ok == false {
keepLooping = false
}
default:
keepLooping = false
//log.Println("Hit default in select clause")
}
}
}
func (b *BufferflowNodeMcu) BreakApartCommands(cmd string) []string {
return []string{cmd}
}
func (b *BufferflowNodeMcu) Pause() {
return
}
func (b *BufferflowNodeMcu) Unpause() {
return
}
func (b *BufferflowNodeMcu) SeeIfSpecificCommandsShouldSkipBuffer(cmd string) bool {
reRestart := regexp.MustCompile("node.restart\\(\\)")
if reRestart.MatchString(cmd) {
return true
} else {
return false
}
}
func (b *BufferflowNodeMcu) SeeIfSpecificCommandsShouldPauseBuffer(cmd string) bool {
return false
}
func (b *BufferflowNodeMcu) SeeIfSpecificCommandsShouldUnpauseBuffer(cmd string) bool {
return false
}
func (b *BufferflowNodeMcu) SeeIfSpecificCommandsShouldWipeBuffer(cmd string) bool {
reRestart := regexp.MustCompile("^\\s*node.restart\\(\\)")
if reRestart.MatchString(cmd) {
log.Printf("\t\tWe found a node.restart() and thus we will wipe buffer")
b.ReleaseLock()
return true
} else {
return false
}
}
func (b *BufferflowNodeMcu) SeeIfSpecificCommandsReturnNoResponse(cmd string) bool {
reWhiteSpace := regexp.MustCompile("^\\s*$")
if reWhiteSpace.MatchString(cmd) {
log.Println("Found a whitespace only command")
return true
} else {
return false
}
//return false
}
func (b *BufferflowNodeMcu) ReleaseLock() {
log.Println("Wiping NodeMCU buffer")
b.q.Delete()
b.SetPaused(false, 2)
}
func (b *BufferflowNodeMcu) IsBufferGloballySendingBackIncomingData() bool {
return true
}
func (b *BufferflowNodeMcu) Close() {
if b.IsOpen == false {
// we are being asked a 2nd time to close when we already have
// that will cause a panic
log.Println("We got called a 2nd time to close, but already closed")
return
}
b.IsOpen = false
//b.ticker.Stop()
close(b.Input)
}
func (b *BufferflowNodeMcu) RewriteSerialData(cmd string, id string) string {
return ""
}
// Gets the paused state of this buffer
// go-routine safe.
func (b *BufferflowNodeMcu) GetPaused() bool {
b.lock.Lock()
defer b.lock.Unlock()
return b.Paused
}
// Sets the paused state of this buffer
// go-routine safe.
func (b *BufferflowNodeMcu) SetPaused(isPaused bool, semRelease int) {
b.lock.Lock()
defer b.lock.Unlock()
b.Paused = isPaused
// only release semaphore if we are being told to unpause
if b.Paused == false {
// the BlockUntilReady thread should be sitting waiting
// so when we send this should trigger it
b.sem <- semRelease
log.Printf("\tJust sent release to b.sem with val:%v, so we will not block the sending to serial port anymore.", semRelease)
}
}
func (b *BufferflowNodeMcu) GetManualPaused() bool {
b.manualLock.Lock()
defer b.manualLock.Unlock()
return b.ManualPaused
}
func (b *BufferflowNodeMcu) SetManualPaused(isPaused bool) {
b.manualLock.Lock()
defer b.manualLock.Unlock()
b.ManualPaused = isPaused
}