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mirror of https://github.com/DCC-EX/CommandStation-EX.git synced 2024-11-27 01:56:14 +01:00
CommandStation-EX/WifiInboundHandler.cpp
Asbelos 0e3046e24f
Lcd experimental (#46)
* LCD/OLED Implementation
* OLED basic working 32
*132 display
* LCD/OLED startup ok
* Simplified setup
* Missing freememory include
* Format Width
Allow right padding number width in String format
* Intermediate scroll
* Compile issues with no LCD
* Clean buffers at startup
* Support for format left padded numbers
* Smarter Scrolling
And forced start messages
Free Ram in slot 2
* LCD tidying
Neater setup block in .ino.
Dropped unnecessary code
No-scroll if display not full
* Missing %E format support
This is used in WifiInterface checkForOK
* Wifi correction and memory guard
2020-10-12 14:32:47 -04:00

219 lines
7.2 KiB
C++

#include <Arduino.h>
#include "WifiInboundHandler.h"
#include "CommandDistributor.h"
#include "DIAG.h"
WifiInboundHandler * WifiInboundHandler::singleton;
void WifiInboundHandler::setup(Stream * ESStream) {
singleton=new WifiInboundHandler(ESStream);
}
void WifiInboundHandler::loop() {
singleton->loop1();
}
WifiInboundHandler::WifiInboundHandler(Stream * ESStream) {
wifiStream=ESStream;
for (int clientId=0;clientId<MAX_CLIENTS;clientId++) {
clientStatus[clientId]=UNUSED;
// Note buffer is 1 byte longer than MemStream is told
// so that we can always inject a '\0' at stream->available()
clientBuffer[clientId]=new byte[MAX_WIFI_BUFFER+1];
clientStream[clientId]=new MemStream(clientBuffer[clientId], MAX_WIFI_BUFFER);
}
clientPendingCIPSEND=-1;
}
// Handle any inbound transmission
// +IPD,x,lll:data is stored in streamer[x]
// Other input returns
void WifiInboundHandler::loop1() {
// First handle all inbound traffic events
if (loop2()!=INBOUND_IDLE) return;
// if nothing is already CIPSEND pending, we can CIPSEND one reply
if (clientPendingCIPSEND<0) {
for (int clientId=0;clientId<MAX_CLIENTS;clientId++) {
if (clientStatus[clientId]==REPLY_PENDING) {
clientPendingCIPSEND=clientId;
if (Diag::WIFI) DIAG( F("\nWiFi: [[CIPSEND=%d,%d]]"), clientId, clientStream[clientId]->available());
StringFormatter::send(wifiStream, F("AT+CIPSEND=%d,%d\r\n"), clientId, clientStream[clientId]->available());
clientStatus[clientId]=CIPSEND_PENDING;
return;
}
}
}
// if something waiting to close we can call one of them
for (int clientId=0;clientId<MAX_CLIENTS;clientId++) {
if (clientStatus[clientId]==CLOSE_AFTER_SEND) {
if (Diag::WIFI) DIAG(F("AT+CIPCLOSE=%d\r\n"), clientId);
StringFormatter::send(wifiStream, F("AT+CIPCLOSE=%d\r\n"), clientId);
clientStatus[clientId]=UNUSED;
return;
}
if (clientStatus[clientId]==READY_TO_PROCESS) {
processCommand(clientId);
return;
}
}
}
// This is a Finite State Automation (FSA) handling the inbound bytes from an ES AT command processor
WifiInboundHandler::INBOUND_STATE WifiInboundHandler::loop2() {
while (wifiStream->available()) {
int ch = wifiStream->read();
// echo the char to the diagnostic stream in escaped format
if (Diag::WIFI) {
// DIAG(F(" %d/"), loopState);
StringFormatter::printEscape(ch); // DIAG in disguise
}
switch (loopState) {
case ANYTHING: // looking for +IPD, > , busy , n,CONNECTED, n,CLOSED
if (ch == '+') {
loopState = IPD;
break;
}
if (ch=='>') {
if (Diag::WIFI) DIAG(F("[[XMIT %d]]"),clientStream[clientPendingCIPSEND]->available());
wifiStream->write(clientBuffer[clientPendingCIPSEND], clientStream[clientPendingCIPSEND]->available());
clientStatus[clientPendingCIPSEND]=clientCloseAfterReply[clientPendingCIPSEND]? CLOSE_AFTER_SEND: UNUSED;
clientPendingCIPSEND=-1;
loopState=SKIPTOEND;
break;
}
if (ch=='R') { // Received ... bytes
loopState=SKIPTOEND;
break;
}
if (ch=='b') { // This is a busy indicator... probabaly must restart a CIPSEND
if (clientPendingCIPSEND>=0) {
clientStatus[clientPendingCIPSEND]=REPLY_PENDING;
clientPendingCIPSEND=-1;
}
loopState=SKIPTOEND;
break;
}
if (ch>='0' && ch<=('0'+MAX_CLIENTS)) {
runningClientId=ch-'0';
loopState=GOT_CLIENT_ID;
break;
}
break;
case IPD: // Looking for I in +IPD
loopState = (ch == 'I') ? IPD1 : SKIPTOEND;
break;
case IPD1: // Looking for P in +IPD
loopState = (ch == 'P') ? IPD2 : SKIPTOEND;
break;
case IPD2: // Looking for D in +IPD
loopState = (ch == 'D') ? IPD3 : SKIPTOEND;
break;
case IPD3: // Looking for , After +IPD
loopState = (ch == ',') ? IPD4_CLIENT : SKIPTOEND;
break;
case IPD4_CLIENT: // reading connection id
if (ch >= '0' || ch <('0'+MAX_CLIENTS)){
runningClientId=ch-'0';
loopState=IPD5;
}
else loopState=SKIPTOEND;
break;
case IPD5: // Looking for , After +IPD,client
loopState = (ch == ',') ? IPD6_LENGTH : SKIPTOEND;
dataLength=0; // ready to start collecting the length
break;
case IPD6_LENGTH: // reading for length
if (ch == ':') {
if (dataLength==0) {
loopState=ANYTHING;
break;
}
clientStream[runningClientId]->flush(); // prepare streamer for input
clientStatus[runningClientId]=INBOUND_ARRIVING;
loopState=IPD_DATA;
break;
}
dataLength = dataLength * 10 + (ch - '0');
break;
case IPD_DATA: // reading data
clientStream[runningClientId]->write(ch); // NOTE: The MemStream will throw away bytes that do not fit in the buffer.
// This protects against buffer overflows even with things as innocent
// as a browser which send massive, irrlevent HTTP headers.
dataLength--;
if (dataLength == 0) {
clientStatus[runningClientId]=READY_TO_PROCESS;
loopState = ANYTHING;
}
break;
case GOT_CLIENT_ID: // got x before CLOSE or CONNECTED
loopState=(ch==',') ? GOT_CLIENT_ID2: SKIPTOEND;
break;
case GOT_CLIENT_ID2: // got "x," before CLOSE or CONNECTED
loopState=(ch=='C') ? GOT_CLIENT_ID3: SKIPTOEND;
break;
case GOT_CLIENT_ID3: // got "x C" before CLOSE or CONNECTED (which is ignored)
if(ch=='L') {
// CLOSE
clientStatus[runningClientId]=UNUSED;
if (runningClientId==clientPendingCIPSEND) clientPendingCIPSEND=-1;
}
loopState=SKIPTOEND;
break;
case SKIPTOEND: // skipping for /n
if (ch=='\n') loopState=ANYTHING;
break;
} // switch
} // available
return (loopState==ANYTHING) ? INBOUND_IDLE: INBOUND_BUSY;
}
void WifiInboundHandler::processCommand(byte clientId) {
clientStatus[clientId]=PROCESSING;
byte * buffer=clientBuffer[clientId];
MemStream * streamer=clientStream[clientId];
buffer[streamer->available()]='\0';
if (Diag::WIFI) DIAG(F("\n%l Wifi(%d)<-[%e]\n"), millis(),clientId, buffer);
streamer->setBufferContentPosition(0, 0); // reset write position to start of buffer
clientCloseAfterReply[clientId]=CommandDistributor::parse(clientId,buffer,streamer);
if (streamer->available() == 0) {
clientStatus[clientId]=UNUSED;
}
else {
buffer[streamer->available()]='\0'; // mark end of buffer, so it can be used as a string later
if (Diag::WIFI) DIAG(F("%l WiFi(%d)->[%e] l(%d)\n"), millis(), clientId, buffer, streamer->available());
clientStatus[clientId]=REPLY_PENDING;
}
}