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CommandStation-EX/IO_EXIOExpander.h

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/*
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* © 2022, Peter Cole. All rights reserved.
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*
* This file is part of EX-CommandStation
*
* 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/>.
*/
/*
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* The IO_EXIOExpander.h device driver integrates with one or more EX-IOExpander devices.
* This device driver will configure the device on startup, along with
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* interacting with the device for all input/output duties.
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*
* To create EX-IOExpander devices, these are defined in myHal.cpp:
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* (Note the device driver is included by default)
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*
* void halSetup() {
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* // EXIOExpander::create(vpin, num_vpins, i2c_address);
* EXIOExpander::create(800, 18, 0x65);
* }
*
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* All pins on an EX-IOExpander device are allocated according to the pin map for the specific
* device in use. There is no way for the device driver to sanity check pins are used for the
* correct purpose, however the EX-IOExpander device's pin map will prevent pins being used
* incorrectly (eg. A6/7 on Nano cannot be used for digital input/output).
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*/
#ifndef IO_EX_IOEXPANDER_H
#define IO_EX_IOEXPANDER_H
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#include "I2CManager.h"
#include "DIAG.h"
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#include "FSH.h"
/////////////////////////////////////////////////////////////////////////////////////////////////////
/*
* IODevice subclass for EX-IOExpander.
*/
class EXIOExpander : public IODevice {
public:
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static void create(VPIN vpin, int nPins, uint8_t i2cAddress) {
if (checkNoOverlap(vpin, nPins, i2cAddress)) new EXIOExpander(vpin, nPins, i2cAddress);
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}
private:
// Constructor
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EXIOExpander(VPIN firstVpin, int nPins, uint8_t i2cAddress) {
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_firstVpin = firstVpin;
_nPins = nPins;
_i2cAddress = i2cAddress;
addDevice(this);
}
void _begin() {
// Initialise EX-IOExander device
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I2CManager.begin();
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if (I2CManager.exists(_i2cAddress)) {
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_command4Buffer[0] = EXIOINIT;
_command4Buffer[1] = _nPins;
_command4Buffer[2] = _firstVpin & 0xFF;
_command4Buffer[3] = _firstVpin >> 8;
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// Send config, if EXIOPINS returned, we're good, setup pin buffers, otherwise go offline
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I2CManager.read(_i2cAddress, _receive3Buffer, 3, _command4Buffer, 4);
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if (_receive3Buffer[0] == EXIOPINS) {
_numDigitalPins = _receive3Buffer[1];
_numAnaloguePins = _receive3Buffer[2];
_digitalPinBytes = (_numDigitalPins + 7)/8;
_digitalInputStates=(byte*) calloc(_digitalPinBytes,1);
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_analoguePinBytes = _numAnaloguePins * 2;
_analogueInputStates = (byte*) calloc(_analoguePinBytes, 1);
_analoguePinMap = (uint8_t*) calloc(_numAnaloguePins, 1);
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} else {
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DIAG(F("ERROR configuring EX-IOExpander device, I2C:x%x"), _i2cAddress);
_deviceState = DEVSTATE_FAILED;
return;
}
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// We now need to retrieve the analogue pin map
_command1Buffer[0] = EXIOINITA;
I2CManager.read(_i2cAddress, _analoguePinMap, _numAnaloguePins, _command1Buffer, 1);
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// Attempt to get version, if we don't get it, we don't care, don't go offline
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_command1Buffer[0] = EXIOVER;
I2CManager.read(_i2cAddress, _versionBuffer, 3, _command1Buffer, 1);
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_command1Buffer[0] = EXIOVER;
I2CManager.read(_i2cAddress, _versionBuffer, 3, _command1Buffer, 1);
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_majorVer = _versionBuffer[0];
_minorVer = _versionBuffer[1];
_patchVer = _versionBuffer[2];
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DIAG(F("EX-IOExpander device found, I2C:x%x, Version v%d.%d.%d"),
_i2cAddress, _versionBuffer[0], _versionBuffer[1], _versionBuffer[2]);
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#ifdef DIAG_IO
_display();
#endif
} else {
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DIAG(F("EX-IOExpander device not found, I2C:x%x"), _i2cAddress);
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_deviceState = DEVSTATE_FAILED;
}
}
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// Digital input pin configuration, used to enable on EX-IOExpander device and set pullups if in use
bool _configure(VPIN vpin, ConfigTypeEnum configType, int paramCount, int params[]) override {
if (paramCount != 1) return false;
int pin = vpin - _firstVpin;
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if (configType == CONFIGURE_INPUT) {
bool pullup = params[0];
_digitalOutBuffer[0] = EXIODPUP;
_digitalOutBuffer[1] = pin;
_digitalOutBuffer[2] = pullup;
I2CManager.write(_i2cAddress, _digitalOutBuffer, 3);
return true;
} else {
return false;
}
}
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// Analogue input pin configuration, used to enable on EX-IOExpander device
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int _configureAnalogIn(VPIN vpin) override {
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int pin = vpin - _firstVpin;
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_command2Buffer[0] = EXIOENAN;
_command2Buffer[1] = pin;
I2CManager.write(_i2cAddress, _command2Buffer, 2);
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return true;
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}
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// Main loop, collect both digital and analogue pin states continuously (faster sensor/input reads)
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void _loop(unsigned long currentMicros) override {
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(void)currentMicros; // remove warning
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_command1Buffer[0] = EXIORDD;
I2CManager.read(_i2cAddress, _digitalInputStates, _digitalPinBytes, _command1Buffer, 1);
_command1Buffer[0] = EXIORDAN;
I2CManager.read(_i2cAddress, _analogueInputStates, _analoguePinBytes, _command1Buffer, 1);
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}
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// Obtain the correct analogue input value
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int _readAnalogue(VPIN vpin) override {
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int pin = vpin - _firstVpin;
uint8_t _pinLSBByte;
for (uint8_t aPin = 0; aPin < _numAnaloguePins; aPin++) {
if (_analoguePinMap[aPin] == pin) {
_pinLSBByte = aPin * 2;
}
}
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uint8_t _pinMSBByte = _pinLSBByte + 1;
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return (_analogueInputStates[_pinMSBByte] << 8) + _analogueInputStates[_pinLSBByte];
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}
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// Obtain the correct digital input value
int _read(VPIN vpin) override {
int pin = vpin - _firstVpin;
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uint8_t pinByte = pin / 8;
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bool value = _digitalInputStates[pinByte] >> (pin - pinByte * 8);
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return value;
}
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void _write(VPIN vpin, int value) override {
int pin = vpin - _firstVpin;
_digitalOutBuffer[0] = EXIOWRD;
_digitalOutBuffer[1] = pin;
_digitalOutBuffer[2] = value;
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I2CManager.write(_i2cAddress, _digitalOutBuffer, 3);
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}
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void _writeAnalogue(VPIN vpin, int value, uint8_t param1, uint16_t param2) override {
int pin = vpin - _firstVpin;
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_command4Buffer[0] = EXIOWRAN;
_command4Buffer[1] = pin;
_command4Buffer[2] = value & 0xFF;
_command4Buffer[3] = value >> 8;
I2CManager.write(_i2cAddress, _command4Buffer, 4);
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}
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void _display() override {
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DIAG(F("EX-IOExpander I2C:x%x v%d.%d.%d Vpins %d-%d %S"),
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_i2cAddress, _majorVer, _minorVer, _patchVer,
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(int)_firstVpin, (int)_firstVpin+_nPins-1,
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_deviceState == DEVSTATE_FAILED ? F("OFFLINE") : F(""));
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}
uint8_t _i2cAddress;
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uint8_t _numDigitalPins = 0;
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uint8_t _numAnaloguePins = 0;
byte _digitalOutBuffer[3];
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uint8_t _versionBuffer[3];
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uint8_t _majorVer = 0;
uint8_t _minorVer = 0;
uint8_t _patchVer = 0;
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byte* _digitalInputStates;
byte* _analogueInputStates;
uint8_t _digitalPinBytes = 0;
uint8_t _analoguePinBytes = 0;
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byte _command1Buffer[1];
byte _command2Buffer[2];
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byte _command4Buffer[4];
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byte _receive3Buffer[3];
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uint8_t* _analoguePinMap;
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enum {
EXIOINIT = 0xE0, // Flag to initialise setup procedure
EXIORDY = 0xE1, // Flag we have completed setup procedure, also for EX-IO to ACK setup
EXIODPUP = 0xE2, // Flag we're sending digital pin pullup configuration
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EXIOVER = 0xE3, // Flag to get version
EXIORDAN = 0xE4, // Flag to read an analogue input
EXIOWRD = 0xE5, // Flag for digital write
EXIORDD = 0xE6, // Flag to read digital input
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EXIOENAN = 0xE7, // Flag to enable an analogue pin
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EXIOINITA = 0xE8, // Flag we're receiving analogue pin mappings
EXIOPINS = 0xE9, // Flag we're receiving pin counts for buffers
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EXIOWRAN = 0xEA, // Flag we're sending an analogue write (PWM)
EXIOERR = 0xEF, // Flag we've received an error
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};
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};
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#endif