mirror of
https://github.com/DCC-EX/CommandStation-EX.git
synced 2024-11-23 08:06:13 +01:00
Cleaning up warnings (some of which were actually fatal)
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parent
68f47dae17
commit
6a923c4302
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@ -14,7 +14,8 @@
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//
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// The filter must be enabled by calling the DCC EXParser::setFilter method, see use in setup().
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void myFilter(Stream & stream, byte & opcode, byte & paramCount, int p[]) {
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void myFilter(Print & stream, byte & opcode, byte & paramCount, int p[]) {
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(void)stream; // avoid compiler warning if we don't access this parameter
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switch (opcode) {
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case 'F': // Invent new command to call the new Loco Function API <F cab func 1|0>
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DIAG(F("Setting loco %d F%d %S"),p[0],p[1],p[2]?F("ON"):F("OFF"));
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@ -54,18 +54,18 @@ void DCCEXParser::loop(Stream & stream) {
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}
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}
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int DCCEXParser::splitValues( int result[MAX_PARAMS], char * cmd) {
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int DCCEXParser::splitValues( int result[MAX_PARAMS], const byte * cmd) {
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byte state=1;
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byte parameterCount=0;
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int runningValue=0;
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const char * remainingCmd=cmd+1; // skips the opcode
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const byte * remainingCmd=cmd+1; // skips the opcode
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bool signNegative=false;
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// clear all parameters in case not enough found
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for (int i=0;i<MAX_PARAMS;i++) result[i]=0;
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while(parameterCount<MAX_PARAMS) {
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char hot=*remainingCmd;
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byte hot=*remainingCmd;
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switch (state) {
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@ -109,7 +109,7 @@ void DCCEXParser::setFilter(FILTER_CALLBACK filter) {
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}
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// See documentation on DCC class for info on this section
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void DCCEXParser::parse(Print & stream, const char *com) {
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void DCCEXParser::parse(Print & stream, const byte *com) {
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DIAG(F("\nPARSING:%s\n"),com);
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(void) EEPROM; // tell compiler not to warn thi is unused
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int p[MAX_PARAMS];
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@ -133,7 +133,7 @@ void DCCEXParser::parse(Print & stream, const char *com) {
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break;
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case 'a': // ACCESSORY <a ADDRESS SUBADDRESS ACTIVATE>
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if(p[2] != p[2] & 1) return;
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if(p[2] != (p[2] & 1)) return;
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DCC::setAccessory(p[0],p[1],p[2]==1);
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return;
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@ -286,14 +286,14 @@ bool DCCEXParser::parsef(Print & stream, int params, int p[]) {
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if (p[1]==222) funcmap(p[0],p[2],13,20);
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else if (p[1]==223) funcmap(p[0],p[2],21,28);
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}
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// NO RESPONSE
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(void)stream;// NO RESPONSE
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return true;
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}
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void DCCEXParser::funcmap(int cab, byte value, byte fstart, byte fstop) {
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for (int i=fstart;i<=fstop;i++) {
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DCC::setFn(cab, i, value & 1);
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value>>1;
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value>>=1;
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}
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}
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@ -8,7 +8,7 @@ struct DCCEXParser
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{
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DCCEXParser();
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void loop(Stream & pstream);
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void parse(Print & stream, const char * command);
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void parse(Print & stream, const byte * command);
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void flush();
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static void setFilter(FILTER_CALLBACK filter);
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static const int MAX_PARAMS=10; // Must not exceed this
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@ -18,8 +18,8 @@ struct DCCEXParser
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static const int MAX_BUFFER=50; // longest command sent in
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byte bufferLength=0;
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bool inCommandPayload=false;
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char buffer[MAX_BUFFER+2];
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int splitValues( int result[MAX_PARAMS],char * command);
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byte buffer[MAX_BUFFER+2];
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int splitValues( int result[MAX_PARAMS], const byte * command);
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bool parseT(Print & stream, int params, int p[]);
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bool parseZ(Print & stream, int params, int p[]);
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@ -1,7 +1,8 @@
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#include "HTTPParser.h"
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#include "StringFormatter.h"
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void HTTPParser::parse(Print & stream, char * cmd) {
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void HTTPParser::parse(Print & stream, byte * cmd) {
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(void)cmd; // Avoid compiler warning because this example doesnt use this parameter
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// BEWARE - As soon as you start responding, the cmd buffer is trashed!
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// You must get everything you need from it before using StringFormatter::send!
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@ -3,6 +3,6 @@
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#include <Arduino.h>
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class HTTPParser {
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public:
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static void parse(Print & stream, char * cmd);
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static void parse(Print & stream, byte * cmd);
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};
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#endif
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@ -46,7 +46,7 @@ public:
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operator const uint8_t *() const { return _buffer; }
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operator const char *() const { return (const char*)_buffer; }
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const uint16_t current_length() const { return _pos_write; }
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uint16_t current_length() const { return _pos_write; }
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bool listen() { return true; }
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void end() {}
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@ -47,7 +47,7 @@ WiThrottle::WiThrottle(Print & stream, int wificlientid) {
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firstThrottle= this;
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clientid=wificlientid;
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for (int loco=0;loco<MAX_MY_LOCO; loco++) myLocos[loco].throttle='\0';
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StringFormatter::send(stream,F("VN2.0\nRL0\nPPA%x\nPTT]\\[Turnouts}|{Turnout]\\[Closed}|{2]\\[Thrown}|{4\PTL"), DCCWaveform::mainTrack.getPowerMode()==POWERMODE::ON);
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StringFormatter::send(stream,F("VN2.0\nRL0\nPPA%x\nPTT]\\[Turnouts}|{Turnout]\\[Closed}|{2]\\[Thrown}|{4\\PTL"), DCCWaveform::mainTrack.getPowerMode()==POWERMODE::ON);
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for(Turnout *tt=Turnout::firstTurnout;tt!=NULL;tt=tt->nextTurnout){
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StringFormatter::send(stream,F("]\\[LT&d}|{%d}|{%d"), tt->data.id, tt->data.id, (bool)(tt->data.tStatus & STATUS_ACTIVE));
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@ -68,7 +68,7 @@ WiThrottle::~WiThrottle() {
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}
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}
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void WiThrottle::parse(Print & stream, char * cmd) {
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void WiThrottle::parse(Print & stream, byte * cmd) {
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heartBeat=millis();
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DIAG(F("\nWiThrottle parse (%d) %s"),clientid, cmd);
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@ -82,7 +82,7 @@ void WiThrottle::parse(Print & stream, char * cmd) {
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DCCWaveform::mainTrack.setPowerMode(cmd[3]=='1'?POWERMODE::ON:POWERMODE::OFF);
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StringFormatter::send(stream, F("PPA%c"),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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else if (cmd[1]=='T' && cmd[2]=='A') { // PTA accessory toggle
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// TODO... if we are given an address that is not a known Turnout...
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// should we create one or just send the DCC message.
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Turnout::activate(getInt(cmd+4),cmd[3]=='T');
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@ -96,7 +96,7 @@ void WiThrottle::parse(Print & stream, char * cmd) {
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break;
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}
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}
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int WiThrottle::getInt(char * cmd) {
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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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@ -105,15 +105,15 @@ int WiThrottle::getInt(char * cmd) {
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return i;
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}
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int WiThrottle::getLocoId(char * cmd) {
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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, char* cmd){
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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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char * aval=cmd;
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byte * aval=cmd;
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while(*aval !=';' && *aval !='\0') aval++;
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if (*aval) aval++;
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@ -164,7 +164,7 @@ void locoAdd(String th, String actionKey, int i) {
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}
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*********/
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void WiThrottle::locoAction(Print & stream, char* aval, char throttleChar, int cab){
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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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switch (aval[0]) {
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12
WiThrottle.h
12
WiThrottle.h
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@ -10,7 +10,7 @@ struct MYLOCO {
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class WiThrottle {
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public:
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static void loop();
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void parse(Print & stream, char * cmd);
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void parse(Print & stream, byte * cmd);
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static WiThrottle* getThrottle(Print & stream, int wifiClient);
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private:
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@ -20,8 +20,8 @@ class WiThrottle {
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static const int MAX_MY_LOCO=10;
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static const int HEARTBEAT_TIMEOUT=10;
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static WiThrottle* firstThrottle;
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static int getInt(char * cmd);
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static int getLocoId(char * cmd);
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static int getInt(byte * cmd);
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static int getLocoId(byte * cmd);
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WiThrottle* nextThrottle;
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int clientid;
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bool heartBeatEnable;
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unsigned long heartBeat;
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void multithrottle(Print & stream, char* cmd);
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void locoAction(Print & stream, char* aval, char throttleChar, int cab);
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void accessory(Print & stream, char* cmd);
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void multithrottle(Print & stream, byte * cmd);
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void locoAction(Print & stream, byte* aval, char throttleChar, int cab);
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void accessory(Print & stream, byte* cmd);
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void checkHeartbeat();
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};
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#endif
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@ -53,9 +53,9 @@ bool WifiInterface::setup2(Stream & wifiStream, const __FlashStringHelper* SSid,
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return true;
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}
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bool WifiInterface::checkForOK(Stream & wifiStream, const int timeout, const char * waitfor, bool echo) {
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long int startTime = millis();
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char *locator=waitfor;
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bool WifiInterface::checkForOK(Stream & wifiStream, const unsigned int timeout, const char * waitfor, bool echo) {
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unsigned long startTime = millis();
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char const *locator=waitfor;
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DIAG(F("\nWifi setup Check: %S\n"),waitfor);
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while( millis()-startTime < timeout) {
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while(wifiStream.available()) {
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return false;
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}
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bool WifiInterface::isHTML() {
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// POST GET PUT PATCH DELETE
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// You may think a simple strstr() is better... but not when ram & time is in short supply
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switch (buffer[0]) {
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case 'P':
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if (buffer[1]=='U' && buffer[2]=='T' && buffer[3]==' ' ) return true;
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if (buffer[1]=='O' && buffer[2]=='S' && buffer[3]=='T' && buffer[4]==' ') return true;
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if (buffer[1]=='A' && buffer[2]=='T' && buffer[3]=='C' && buffer[4]=='H' && buffer[5]==' ') return true;
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return false;
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case 'G':
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if (buffer[1]=='E' && buffer[2]=='T' && buffer[3]==' ' ) return true;
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return false;
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case 'D':
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if (buffer[1]=='E' && buffer[2]=='L' && buffer[3]=='E' && buffer[4]=='T' && buffer[5]=='E' && buffer[6]==' ') return true;
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return false;
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default:
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return false;
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}
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}
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void WifiInterface::loop(Stream & wifiStream) {
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if (!connected) return;
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@ -129,7 +149,7 @@ void WifiInterface::loop(Stream & wifiStream) {
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// TODO ... tell JMRI parser that callbacks are diallowed because we dont want to handle the async
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bool closeAfter=false;
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// Intercept HTTP requests
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if (strstr(buffer," HTTP/1.1")) {
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if (isHTML()) {
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HTTPParser::parse(streamer,buffer);
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closeAfter=true;
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}
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@ -16,7 +16,8 @@ class WifiInterface {
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static DCCEXParser parser;
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static bool setup2(Stream & wifiStream, const __FlashStringHelper* SSSid, const __FlashStringHelper* password, int port);
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static bool checkForOK(Stream & wifiStream, const int timeout, const char* waitfor, bool echo);
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static bool checkForOK(Stream & wifiStream, const unsigned int timeout, const char* waitfor, bool echo);
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static bool isHTML();
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static bool connected;
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static byte loopstate;
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static int datalength;
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