mirror of
https://github.com/DCC-EX/CommandStation-EX.git
synced 2024-11-23 08:06:13 +01:00
307 lines
12 KiB
C++
307 lines
12 KiB
C++
/*
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* © 2020, Chris Harlow. All rights reserved.
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*
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* This file is part of Asbelos DCC API
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*
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* This is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* It is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with CommandStation. If not, see <https://www.gnu.org/licenses/>.
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*/
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/*
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* Truncated JMRI WiThrottle server implementation for DCC-EX command station
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* Credit is due to Valerie Valley RR https://sites.google.com/site/valerievalleyrr/
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* for showing how it could be done, but this code is very different to the original
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* implemenatatin as it is designed to run on the Arduino and not the ESP and is
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* also calling directly into the DCCEX Api rather than simulating JMRI text commands.
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* Refer JMRI WiFi Throttle Communications Protocol https://www.jmri.org/help/en/package/jmri/jmrit/withrottle/Protocol.shtml
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*
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*
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* PROTOTYPE NOTES:
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* There will be one WiThrottle instance created for each WiThrottle client detected by the WifiInterface.
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* Some shortcuts have been taken and there are some things that are yet to be included:
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* e.g. Full response to adding a loco.
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* What to do about unknown turnouts.
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* Broadcasting to other WiThrottles when things change.
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* - Bear in mind that changes may have taken place due to
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* other WiThrottles, OR JMRI commands received OR TPL automation.
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* - I suggest that at the end of parse(), then anything that has changed and is of interest could
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* be notified then. (e.g loco speeds, directions or functions, turnout states.
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*
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* WiThrottle.h sets the max locos per client at 10, this is ok to increase but requires just an extra 3 bytes per loco per client.
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*/
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#include <Arduino.h>
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#include "WiThrottle.h"
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#include "DCC.h"
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#include "DCCWaveform.h"
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#include "StringFormatter.h"
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#include "Turnouts.h"
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#include "DIAG.h"
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#define LOOPLOCOS(THROTTLECHAR, CAB) for (int loco=0;loco<MAX_MY_LOCO;loco++) \
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if (myLocos[loco].throttle==THROTTLECHAR && (CAB<0 || myLocos[loco].cab==CAB))
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WiThrottle * WiThrottle::firstThrottle=NULL;
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bool WiThrottle::annotateLeftRight=false;
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WiThrottle* WiThrottle::getThrottle( int wifiClient) {
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for (WiThrottle* wt=firstThrottle; wt!=NULL ; wt=wt->nextThrottle)
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if (wt->clientid==wifiClient) return wt;
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return new WiThrottle( wifiClient);
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}
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// One instance of WiTHrottle per connected client, so we know what the locos are
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WiThrottle::WiThrottle( int wificlientid) {
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DIAG(F("\nCreating new WiThrottle for client %d\n"),wificlientid);
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nextThrottle=firstThrottle;
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firstThrottle= this;
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clientid=wificlientid;
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heartBeatEnable=false; // until client turns it on
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callState=0;
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for (int loco=0;loco<MAX_MY_LOCO; loco++) myLocos[loco].throttle='\0';
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}
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WiThrottle::~WiThrottle() {
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if (firstThrottle== this) {
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firstThrottle=this->nextThrottle;
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return;
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}
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for (WiThrottle* wt=firstThrottle; wt!=NULL ; wt=wt->nextThrottle) {
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if (wt->nextThrottle==this) {
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wt->nextThrottle=this->nextThrottle;
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return;
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}
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}
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}
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void WiThrottle::parse(Print & stream, byte * cmdx) {
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// we have to take a copy of the cmd buffer as the reply will get built into the cmdx
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byte local[50];
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for (byte i=0;i<sizeof(local);i++) {
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local[i]=cmdx[i];
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if (!cmdx[i]) break;
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}
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local[49]='\0'; // prevent runaway parser
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byte * cmd=local;
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heartBeat=millis();
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DIAG(F("\nWiThrottle(%d) [%e]"),clientid, cmd);
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switch (callState) {
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case 0: // first call in
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callState++;
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StringFormatter::send(stream,F("VN2.0\nHTDCC++EX\nRL0\nPPA%x\n"),DCCWaveform::mainTrack.getPowerMode()==POWERMODE::ON);
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if (annotateLeftRight) StringFormatter::send(stream,F("PTT]\\[Turnouts}|{Turnout]\\[Left}|{2]\\[Right}|{4\n"));
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else StringFormatter::send(stream,F("PTT]\\[Turnouts}|{Turnout]\\[Closed}|{2]\\[Thrown}|{4\n"));
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StringFormatter::send(stream,F("*%d\n"),HEARTBEAT_TIMEOUT/2);
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break;
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case 1: // second call... send the turnout table if we have one
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callState++;
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if (Turnout::firstTurnout) {
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StringFormatter::send(stream,F("PTL"));
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for(Turnout *tt=Turnout::firstTurnout;tt!=NULL;tt=tt->nextTurnout){
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StringFormatter::send(stream,F("]\\[%d}|{T%d}|{%d"), tt->data.id, tt->data.id, (bool)(tt->data.tStatus & STATUS_ACTIVE));
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}
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StringFormatter::send(stream,F("\n"));
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}
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break;
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default: // no more special headers required
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break;
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}
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while (cmd[0]) {
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switch (cmd[0]) {
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case '*': // heartbeat control
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if (cmd[1]=='+') heartBeatEnable=true;
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else if (cmd[1]=='-') heartBeatEnable=false;
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break;
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case 'P':
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if (cmd[1]=='P' && cmd[2]=='A' ) { //PPA power mode
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DCCWaveform::mainTrack.setPowerMode(cmd[3]=='1'?POWERMODE::ON:POWERMODE::OFF);
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StringFormatter::send(stream, F("PPA%c\n"),cmd[3]);
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}
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else if (cmd[1]=='T' && cmd[2]=='A') { // PTA accessory toggle
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int id=getInt(cmd+4);
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bool newstate=false;
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Turnout * tt=Turnout::get(id);
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if (!tt) {
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// If turnout does not exist, create it
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int addr = ((id - 1) / 4) + 1;
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int subaddr = (id - 1) % 4;
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Turnout::create(id,addr,subaddr);
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StringFormatter::send(stream, F("HMTurnout %d created\n"),id);
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/*
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StringFormatter::send(stream, F("HMTurnout %d Unknown\n"),id);
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break;
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*/
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}
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switch (cmd[3]) {
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case 'T': newstate=true; break;
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case 'C': newstate=false; break;
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case '2': newstate=!Turnout::isActive(id);
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}
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Turnout::activate(id,newstate);
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StringFormatter::send(stream, F("PTA%c%d\n"),newstate?'4':'2',id );
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}
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break;
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case 'N': // Heartbeat (2)
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StringFormatter::send(stream, F("*%d\n"),HEARTBEAT_TIMEOUT/2); // 5 second timeout
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break;
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case 'M': // multithrottle
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multithrottle(stream, cmd);
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break;
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case 'H': // hardware introduction....
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break;
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case 'Q': //
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DIAG(F("\nWiThrottle Quit"));
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delete this;
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break;
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}
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// skip over cmd until 0 or past \r or \n
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while(*cmd !='\0' && *cmd != '\r' && *cmd !='\n') cmd++;
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if (*cmd!='\0') cmd++; // skip \r or \n
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}
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}
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int WiThrottle::getInt(byte * cmd) {
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int i=0;
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while (cmd[0]>='0' && cmd[0]<='9') {
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i=i*10 + (cmd[0]-'0');
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cmd++;
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}
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return i;
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}
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int WiThrottle::getLocoId(byte * cmd) {
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if (cmd[0]=='*') return -1; // match all locos
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if (cmd[0]!='L' && cmd[0]!='S') return 0; // should not match any locos
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return getInt(cmd+1);
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}
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void WiThrottle::multithrottle(Print & stream, byte * cmd){
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char throttleChar=cmd[1];
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int locoid=getLocoId(cmd+3); // -1 for *
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byte * aval=cmd;
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while(*aval !=';' && *aval !='\0') aval++;
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if (*aval) aval+=2; // skip ;>
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DIAG(F("\nMultithrottle aval=%c cab=%d"), aval[0],locoid);
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switch(cmd[2]) {
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case '+': // add loco
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for (int loco=0;loco<MAX_MY_LOCO;loco++) {
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if (myLocos[loco].throttle=='\0') {
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myLocos[loco].throttle=throttleChar;
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myLocos[loco].cab=locoid;
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StringFormatter::send(stream, F("M%c+%c%d<;>\n"), throttleChar, cmd[3] ,locoid);
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// TODO... get known Fn states from DCC (need memoryStream improvements to handle data length)
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// for(fKey=0; fKey<29; fKey++)StringFormatter::send(stream,F("M%cA%c<;>F0&s\n"),throttleChar,cmd[3],fkey);
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StringFormatter::send(stream, F("M%c+%c%d<;>V0\n"), throttleChar, cmd[3], locoid);
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StringFormatter::send(stream, F("M%c+%c%d<;>R1\n"), throttleChar, cmd[3], locoid);
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StringFormatter::send(stream, F("M%c+%c%d<;>s1\n"), throttleChar, cmd[3], locoid);
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break;
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}
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}
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break;
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case '-': // remove loco
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LOOPLOCOS(throttleChar, locoid) {
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myLocos[loco].throttle='\0';
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DCC::setThrottle(myLocos[loco].cab,0,0);
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StringFormatter::send(stream, F("M%c-<;>\n"), throttleChar);
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}
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break;
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case 'A':
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locoAction(stream,aval, throttleChar, locoid);
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}
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}
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void WiThrottle::locoAction(Print & stream, byte* aval, char throttleChar, int cab){
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// Note cab=-1 for all cabs in the consist called throttleChar.
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DIAG(F("\nLoco Action aval=%c%c throttleChar=%c, cab=%d"), aval[0],aval[1],throttleChar, cab);
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switch (aval[0]) {
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case 'V': // Vspeed
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{
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byte locospeed=getInt(aval+1);
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LOOPLOCOS(throttleChar, cab) {
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DCC::setThrottle(myLocos[loco].cab,locospeed, DCC::getThrottleDirection(myLocos[loco].cab));
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}
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}
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break;
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case 'F': //F onOff function
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{
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bool onOff=aval[1]=='1';
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int fKey = getInt(aval+2);
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LOOPLOCOS(throttleChar, cab) {
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DCC::setFn(myLocos[loco].cab, fKey,onOff);
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}
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}
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break;
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case 'q':
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if (aval[1]=='V') { //qV
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LOOPLOCOS(throttleChar, cab) {
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StringFormatter::send(stream,F("M%cA%c%d<;>V%d\n"), throttleChar, LorS(myLocos[loco].cab), myLocos[loco].cab, DCC::getThrottleSpeed(myLocos[loco].cab));
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}
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}
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else if (aval[1]=='R') { // qR
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LOOPLOCOS(throttleChar, cab) {
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StringFormatter::send(stream,F("M%cA%c%d<;>R%d\n"), throttleChar, LorS(myLocos[loco].cab), myLocos[loco].cab, DCC::getThrottleDirection(myLocos[loco].cab));
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}
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}
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break;
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case 'R':
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{
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bool forward=aval[1]!='0';
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LOOPLOCOS(throttleChar, cab) {
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DCC::setThrottle(myLocos[loco].cab, DCC::getThrottleSpeed(myLocos[loco].cab), forward);
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}
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}
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break;
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case 'X':
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//Emergency Stop (speed code 1)
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LOOPLOCOS(throttleChar, cab) {
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DCC::setThrottle(myLocos[loco].cab,1, DCC::getThrottleDirection(myLocos[loco].cab));
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}
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break;
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case 'I': // Idle
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case 'Q': // Quit
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LOOPLOCOS(throttleChar, cab) {
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DCC::setThrottle(myLocos[loco].cab,0, DCC::getThrottleDirection(myLocos[loco].cab));
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}
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break;
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}
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}
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void WiThrottle::loop() {
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// for each WiThrottle, check the heartbeat
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for (WiThrottle* wt=firstThrottle; wt!=NULL ; wt=wt->nextThrottle)
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wt->checkHeartbeat();
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}
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void WiThrottle::checkHeartbeat() {
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if(heartBeatEnable && (millis()-heartBeat > HEARTBEAT_TIMEOUT*1000)) {
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DIAG(F("WiThrottle hearbeat missed client=%d"),clientid);
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// Haertbeat missed... STOP all locos for this client
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for (int loco=0;loco<MAX_MY_LOCO;loco++) {
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if (myLocos[loco].throttle!='\0') {
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DCC::setThrottle(myLocos[loco].cab, 1, DCC::getThrottleDirection(myLocos[loco].cab));
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}
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}
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delete this;
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}
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else {
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// TODO Check if anything has changed on my locos since last notified!
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}
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}
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char WiThrottle::LorS(int cab) {
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return (cab<127)?'S':'L';
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}
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