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6 Commits

9 changed files with 283 additions and 4 deletions

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@ -162,6 +162,7 @@ const int16_t HASH_KEYWORD_T='T';
const int16_t HASH_KEYWORD_X='X';
const int16_t HASH_KEYWORD_LCN = 15137;
const int16_t HASH_KEYWORD_HAL = 10853;
const int16_t HASH_KEYWORD_HBRIDGE=-20585;
const int16_t HASH_KEYWORD_SHOW = -21309;
const int16_t HASH_KEYWORD_ANIN = -10424;
const int16_t HASH_KEYWORD_ANOUT = -26399;
@ -917,6 +918,9 @@ bool DCCEXParser::parseT(Print *stream, int16_t params, int16_t p[])
if (params == 3 && p[1] == HASH_KEYWORD_VPIN) { // <T id VPIN n>
if (!VpinTurnout::create(p[0], p[2])) return false;
} else
if (params == 5 && p[1] == HASH_KEYWORD_HBRIDGE) { // <T id HBRIDGE pin1 pin2 delay>
if (!HBridgeTurnout::create(p[0], p[2], p[3], p[4])) return false;
} else
if (params >= 3 && p[1] == HASH_KEYWORD_DCC) {
// <T id DCC addr subadd> 0<=addr<=511, 0<=subadd<=3 (like <a> command).<T>
if (params==4 && p[2]>=0 && p[2]<512 && p[3]>=0 && p[3]<4) { // <T id DCC n m>

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@ -239,6 +239,15 @@ LookList* RMFT2::LookListLoader(OPCODE op1, OPCODE op2, OPCODE op3) {
break;
}
case OPCODE_HBRIDGETURNOUT: {
VPIN id=operand;
VPIN pin1=getOperand(progCounter, 1);
VPIN pin2=getOperand(progCounter, 2);
uint16_t delay=getOperand(progCounter, 3);
setTurnoutHiddenState(HBridgeTurnout::create(id,pin1, pin2, delay));
break;
}
case OPCODE_AUTOSTART:
// automatically create a task from here at startup.
// Removed if (progCounter>0) check 4.2.31 because

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@ -51,7 +51,8 @@ enum OPCODE : byte {OPCODE_THROW,OPCODE_CLOSE,
OPCODE_POM,
OPCODE_START,OPCODE_SETLOCO,OPCODE_SENDLOCO,OPCODE_FORGET,
OPCODE_PAUSE, OPCODE_RESUME,OPCODE_POWEROFF,OPCODE_POWERON,
OPCODE_ONCLOSE, OPCODE_ONTHROW, OPCODE_SERVOTURNOUT, OPCODE_PINTURNOUT,
OPCODE_ONCLOSE, OPCODE_ONTHROW, OPCODE_SERVOTURNOUT,
OPCODE_PINTURNOUT, OPCODE_HBRIDGETURNOUT,
OPCODE_PRINT,OPCODE_DCCACTIVATE,
OPCODE_ONACTIVATE,OPCODE_ONDEACTIVATE,
OPCODE_ROSTER,OPCODE_KILLALL,

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@ -62,6 +62,7 @@
#undef FWD
#undef GREEN
#undef HAL
#undef HBRIDGE_TURNOUT
#undef IF
#undef IFAMBER
#undef IFCLOSED
@ -187,6 +188,7 @@
#define FWD(speed)
#define GREEN(signal_id)
#define HAL(haltype,params...)
#define HBRIDGE_TURNOUT(id,pin1,pin2,dly,description...)
#define IF(sensor_id)
#define IFAMBER(signal_id)
#define IFCLOSED(turnout_id)

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@ -174,6 +174,8 @@ void RMFT2::printMessage(uint16_t id) {
#define TURNOUT(id,addr,subaddr,description...) O_DESC(id,description)
#undef TURNOUTL
#define TURNOUTL(id,addr,description...) O_DESC(id,description)
#undef HBRIDGE_TURNOUT
#define HBRIDGE_TURNOUT(id,pin1,pin2,delay_ms,description...) O_DESC(id,description)
#undef PIN_TURNOUT
#define PIN_TURNOUT(id,pin,description...) O_DESC(id,description)
#undef SERVO_TURNOUT
@ -293,6 +295,7 @@ const HIGHFLASH int16_t RMFT2::SignalDefinitions[] = {
#define FWD(speed) OPCODE_FWD,V(speed),
#define GREEN(signal_id) OPCODE_GREEN,V(signal_id),
#define HAL(haltype,params...)
#define HBRIDGE_TURNOUT(id,pin1,pin2,delay,description...) OPCODE_HBRIDGETURNOUT,V(id),OPCODE_PAD,V(pin1),OPCODE_PAD,V(pin2),OPCODE_PAD,V(delay),
#define IF(sensor_id) OPCODE_IF,V(sensor_id),
#define IFAMBER(signal_id) OPCODE_IFAMBER,V(signal_id),
#define IFCLOSED(turnout_id) OPCODE_IFCLOSED,V(turnout_id),

115
IO_ScheduledPin.h Normal file
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@ -0,0 +1,115 @@
/*
* © 2023, Sergei Kotlyachkov. All rights reserved.
*
* This file is part of DCC++EX API
*
* This is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* It is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with CommandStation. If not, see <https://www.gnu.org/licenses/>.
*/
#ifndef IO_SCHEDULED_PIN_H
#define IO_SCHEDULED_PIN_H
#include "IODevice.h"
#include <Arduino.h>
#include "defines.h"
/**
* Bounces back single Arduino Pin to specified state after set period of time.
*
* It will establish itself as owner of the pin over ArduinoPins class that typically responds to it and
* activates itself during loop() phase. It restores scheduled state and does not try again until
* another write()
*
* Example usage:
* Create: ScheduledPin::create(5, LOW, 20000);
*
* Then, when neeeded, just call:
* IODevice::write(5, HIGH); // this will call fastWriteDigital(5, HIGH)
*
* In 20 milliseconds, it will also call fastWriteDigital(5, LOW)
*
* In edge case where write() is called twice before responding in the loop,
* the schedule will restart and double the bounce back time.
*/
class ScheduledPin : public IODevice {
private:
int _scheduledValue;
uint32_t _durationMicros;
public:
// Static function to handle create calls.
static void create(VPIN pin, int scheduledValue, uint32_t durationMicros) {
new ScheduledPin(pin, scheduledValue, durationMicros);
}
protected:
// Constructor.
ScheduledPin(VPIN pin, int scheduledValue, uint32_t durationMicros) : IODevice(pin, 1) {
_scheduledValue = scheduledValue;
_durationMicros = durationMicros;
// Typically returned device will be ArduinoPins
IODevice* controlledDevice = IODevice::findDevice(pin);
if (controlledDevice != NULL) {
addDevice(this, controlledDevice);
}
else {
DIAG(F("ScheduledPin Controlled device not found for VPIN:%d"), pin);
_deviceState = DEVSTATE_FAILED;
}
}
// Device-specific initialisation
void _begin() override {
#ifdef DIAG_IO
_display();
#endif
pinMode(_firstVpin, OUTPUT);
ArduinoPins::fastWriteDigital(_firstVpin, _scheduledValue);
}
void _write(VPIN vpin, int value) override {
if (_deviceState == DEVSTATE_FAILED) return;
if (vpin != _firstVpin) {
#ifdef DIAG_IO
DIAG(F("ScheduledPin Error VPIN:%u not equal to %u"), vpin, _firstVpin);
#endif
return;
}
#ifdef DIAG_IO
DIAG(F("ScheduledPin Write VPIN:%u Value:%d Micros:%l"), vpin, value, micros());
#endif
unsigned long currentMicros = micros();
delayUntil(currentMicros + _durationMicros);
ArduinoPins::fastWriteDigital(_firstVpin, value);
}
void _loop(unsigned long currentMicros) {
if (_deviceState == DEVSTATE_FAILED) return;
#ifdef DIAG_IO
DIAG(F("ScheduledPin Bounce VPIN:%u Value:%d Micros:%l"), _firstVpin, _scheduledValue, micros());
#endif
ArduinoPins::fastWriteDigital(_firstVpin, _scheduledValue);
delayUntil(currentMicros + 0x7fffffff); // Largest time in the future! Effectively disable _loop calls.
}
// Display information about the device, and perhaps its current condition (e.g. active, disabled etc).
void _display() {
DIAG(F("ScheduledPin Configured:%u Value:%d Duration:%l"), (int)_firstVpin,
_scheduledValue, _durationMicros);
}
};
#endif // IO_SCHEDULED_PIN_H

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@ -36,6 +36,10 @@
#include "LCN.h"
#ifdef EESTOREDEBUG
#include "DIAG.h"
#endif
#ifndef IO_NO_HAL
#include "IO_ScheduledPin.h"
#endif
/*
@ -187,6 +191,10 @@
// VPIN turnout
tt = VpinTurnout::load(&turnoutData);
break;
case TURNOUT_HBRIDGE:
// HBRIDGE turnout
tt = HBridgeTurnout::load(&turnoutData);
break;
default:
// If we find anything else, then we don't know what it is or how long it is,
// so we can't go any further through the EEPROM!
@ -477,6 +485,102 @@
#endif
}
/*************************************************************************************
* HBridgeTurnout - Turnout controlled through a pair of HAL pins.
* Typically connected to Motor H-Bridge. Delay is used to quickly turn on/off power.
*************************************************************************************/
// Constructor
HBridgeTurnout::HBridgeTurnout(uint16_t id, VPIN pin1, VPIN pin2, uint16_t millisDelay, bool closed) :
Turnout(id, TURNOUT_HBRIDGE, closed)
{
_hbridgeTurnoutData.pin1 = pin1;
_hbridgeTurnoutData.pin2 = pin2;
_hbridgeTurnoutData.millisDelay = millisDelay;
#ifndef IO_NO_HAL
// HARD LIMIT to maximum 0.5 second to avoid burning the coil
// Also note 1000x multiplier because ScheduledPin works with microSeconds.
ScheduledPin::create(pin1, LOW, 1000*min(millisDelay, 500));
ScheduledPin::create(pin2, LOW, 1000*min(millisDelay, 500));
#else
DIAG(F("H-Brdige Turnout %d will be disabled because HAL is off"), id);
#endif
}
// Create function
/* static */ Turnout *HBridgeTurnout::create(uint16_t id, VPIN pin1, VPIN pin2, uint16_t millisDelay, bool closed) {
Turnout *tt = get(id);
if (tt) {
// Object already exists, check if it is usable
if (tt->isType(TURNOUT_HBRIDGE)) {
// Yes, so set parameters
HBridgeTurnout *hbt = (HBridgeTurnout *)tt;
hbt->_hbridgeTurnoutData.pin1 = pin1;
hbt->_hbridgeTurnoutData.pin2 = pin2;
hbt->_hbridgeTurnoutData.millisDelay = millisDelay;
// Don't touch the _closed parameter, retain the original value.
return tt;
} else {
// Incompatible object, delete and recreate
remove(id);
}
}
tt = (Turnout *)new HBridgeTurnout(id, pin1, pin2, millisDelay, closed);
return tt;
}
// Load a VPIN turnout definition from EEPROM. The common Turnout data has already been read at this point.
/* static */ Turnout *HBridgeTurnout::load(struct TurnoutData *turnoutData) {
#ifndef DISABLE_EEPROM
HBridgeTurnoutData hbridgeTurnoutData;
// Read class-specific data from EEPROM
EEPROM.get(EEStore::pointer(), hbridgeTurnoutData);
EEStore::advance(sizeof(hbridgeTurnoutData));
// Create new object
HBridgeTurnout *tt = new HBridgeTurnout(turnoutData->id, hbridgeTurnoutData.pin1,
hbridgeTurnoutData.pin2, hbridgeTurnoutData.millisDelay, turnoutData->closed);
return tt;
#else
(void)turnoutData;
return NULL;
#endif
}
// Report 1 for thrown, 0 for closed.
void HBridgeTurnout::print(Print *stream) {
StringFormatter::send(stream, F("<H %d HBRIDGE %d %d %d>\n"), _turnoutData.id, _hbridgeTurnoutData.pin1, _hbridgeTurnoutData.pin2,
!_turnoutData.closed);
}
void HBridgeTurnout::turnUpDown(VPIN pin) {
// HBridge turnouts require very small, prescribed time to keep pin1 or pin2 in HIGH state.
// Otherwise internal coil of the turnout will burn.
// If HAL is disabled (and therefore SchedulePin class), we can not turn this on,
// otherwise coil will burn and device will be lost.
#ifndef IO_NO_HAL
IODevice::write(pin, HIGH);
#endif
}
bool HBridgeTurnout::setClosedInternal(bool close) {
turnUpDown(close ? _hbridgeTurnoutData.pin2 : _hbridgeTurnoutData.pin1);
_turnoutData.closed = close;
return true;
}
void HBridgeTurnout::save() {
#ifndef DISABLE_EEPROM
// Write turnout definition and current position to EEPROM
// First write common servo data, then
// write the servo-specific data
EEPROM.put(EEStore::pointer(), _turnoutData);
EEStore::advance(sizeof(_turnoutData));
EEPROM.put(EEStore::pointer(), _hbridgeTurnoutData);
EEStore::advance(sizeof(_hbridgeTurnoutData));
#endif
}
/*************************************************************************************
* LCNTurnout - Turnout controlled by Loconet

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@ -37,6 +37,7 @@ enum {
TURNOUT_SERVO = 2,
TURNOUT_VPIN = 3,
TURNOUT_LCN = 4,
TURNOUT_HBRIDGE = 5,
};
/*************************************************************************************
@ -284,6 +285,41 @@ protected:
};
/*************************************************************************************
* HBridgeTurnout - Turnout controlled through a pair of HAL pins.
*
* Hard limited to maximum 0.5 second to avoid burning the coil
* Typical millisDelay should be within between 50 and 100
*************************************************************************************/
class HBridgeTurnout : public Turnout {
private:
// HBridgeTurnoutData contains data specific to this subclass that is
// written to EEPROM when the turnout is saved.
struct HBridgeTurnoutData {
VPIN pin1;
VPIN pin2;
uint16_t millisDelay;
} _hbridgeTurnoutData; // 6 bytes
// Constructor
HBridgeTurnout(uint16_t id, VPIN pin1, VPIN pin2, uint16_t millisDelay, bool closed);
public:
// Create function
static Turnout *create(uint16_t id, VPIN pin1, VPIN pin2, uint16_t millisDelay, bool closed=true);
// Load a HBRIDGE turnout definition from EEPROM. The common Turnout data has already been read at this point.
static Turnout *load(struct TurnoutData *turnoutData);
void print(Print *stream) override;
protected:
bool setClosedInternal(bool close) override;
void save() override;
private:
void turnUpDown(VPIN pin);
};
/*************************************************************************************
* LCNTurnout - Turnout controlled by Loconet

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@ -36,6 +36,11 @@ const unsigned long LOOP_TIMEOUT = 2000;
bool WifiInterface::connected = false;
Stream * WifiInterface::wifiStream;
#ifndef WIFI_AT_CHECK_TIMEOUT
// Some ESP32 AT firmware versions take time to initialize and do not respond to AT commands right away.
#define WIFI_AT_CHECK_TIMEOUT 2000
#endif
#ifndef WIFI_CONNECT_TIMEOUT
// Tested how long it takes to FAIL an unknown SSID on firmware 1.7.4.
// The ES should fail a connect in 15 seconds, we don't want to fail BEFORE that
@ -192,7 +197,7 @@ wifiSerialState WifiInterface::setup2(const FSH* SSid, const FSH* password,
}
StringFormatter::send(wifiStream, F("AT\r\n")); // Is something here that understands AT?
if(!checkForOK(200, true))
if(!checkForOK(WIFI_AT_CHECK_TIMEOUT, true))
return WIFI_NOAT; // No AT compatible WiFi module here
StringFormatter::send(wifiStream, F("ATE1\r\n")); // Turn on the echo, se we can see what's happening