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CommandStation-EX/I2CManager_Wire.h

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/*
* © 2023, Neil McKechnie. All rights reserved.
*
* This file is part of CommandStation-EX
*
* 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 I2CMANAGER_WIRE_H
#define I2CMANAGER_WIRE_H
#include <Arduino.h>
#include <Wire.h>
#include "I2CManager.h"
// This module is only compiled if I2C_USE_WIRE is defined, so define it here
// to get intellisense to work correctly.
#if !defined(I2C_USE_WIRE)
#define I2C_USE_WIRE
#endif
// Older versions of Wire don't have setWireTimeout function. AVR does.
#ifdef ARDUINO_ARCH_AVR
#define WIRE_HAS_TIMEOUT
#endif
/***************************************************************************
* Initialise I2C interface software
***************************************************************************/
void I2CManagerClass::_initialise() {
Wire.begin();
#if defined(WIRE_HAS_TIMEOUT)
Wire.setWireTimeout(_timeout, true);
#endif
}
/***************************************************************************
* Set I2C clock speed. Normally 100000 (Standard) or 400000 (Fast)
* on Arduino. Mega4809 supports 1000000 (Fast+) too.
***************************************************************************/
void I2CManagerClass::_setClock(unsigned long i2cClockSpeed) {
Wire.setClock(i2cClockSpeed);
}
/***************************************************************************
* Set I2C timeout value in microseconds. The timeout applies to each
* Wire call separately, i.e. in a write+read, the timer is reset before the
* read is started.
***************************************************************************/
void I2CManagerClass::setTimeout(unsigned long value) {
_timeout = value;
#if defined(WIRE_HAS_TIMEOUT)
Wire.setWireTimeout(value, true);
#endif
}
/********************************************************
* Helper function for I2C Multiplexer operations
********************************************************/
#ifdef I2C_EXTENDED_ADDRESS
static uint8_t muxSelect(I2CAddress address) {
// Select MUX sub bus.
I2CMux muxNo = address.muxNumber();
I2CSubBus subBus = address.subBus();
if (muxNo != I2CMux_None) {
Wire.beginTransmission(I2C_MUX_BASE_ADDRESS+muxNo);
uint8_t data = (subBus == SubBus_All) ? 0xff :
(subBus == SubBus_None) ? 0x00 :
(1 << subBus);
Wire.write(&data, 1);
return Wire.endTransmission(true); // have to release I2C bus for it to work
}
return I2C_STATUS_OK;
}
#endif
/***************************************************************************
* Initiate a write to an I2C device (blocking operation on Wire)
***************************************************************************/
uint8_t I2CManagerClass::write(I2CAddress address, const uint8_t buffer[], uint8_t size, I2CRB *rb) {
uint8_t status, muxStatus;
uint8_t retryCount = 0;
// If request fails, retry up to the defined limit, unless the NORETRY flag is set
// in the request block.
do {
status = muxStatus = I2C_STATUS_OK;
#ifdef I2C_EXTENDED_ADDRESS
if (address.muxNumber() != I2CMux_None)
muxStatus = muxSelect(address);
#endif
// Only send new transaction if address is non-zero.
if (muxStatus == I2C_STATUS_OK && address != 0) {
Wire.beginTransmission(address);
if (size > 0) Wire.write(buffer, size);
status = Wire.endTransmission();
}
#ifdef I2C_EXTENDED_ADDRESS
// Deselect MUX if there's more than one MUX present, to avoid having multiple ones selected
if (_muxCount > 1 && muxStatus == I2C_STATUS_OK
&& address.deviceAddress() != 0 && address.muxNumber() != I2CMux_None) {
muxSelect({address.muxNumber(), SubBus_None});
}
if (muxStatus != I2C_STATUS_OK) status = muxStatus;
#endif
} while (!(status == I2C_STATUS_OK
|| ++retryCount > MAX_I2C_RETRIES || rb->operation & OPERATION_NORETRY));
rb->status = status;
return I2C_STATUS_OK;
}
/***************************************************************************
* Initiate a write from PROGMEM (flash) to an I2C device (blocking operation on Wire)
***************************************************************************/
uint8_t I2CManagerClass::write_P(I2CAddress address, const uint8_t buffer[], uint8_t size, I2CRB *rb) {
uint8_t ramBuffer[size];
const uint8_t *p1 = buffer;
for (uint8_t i=0; i<size; i++)
ramBuffer[i] = GETFLASH(p1++);
return write(address, ramBuffer, size, rb);
}
/***************************************************************************
* Initiate a write (optional) followed by a read from the I2C device (blocking operation on Wire)
* If fewer than the number of requested bytes are received, status is I2C_STATUS_TRUNCATED.
***************************************************************************/
uint8_t I2CManagerClass::read(I2CAddress address, uint8_t readBuffer[], uint8_t readSize,
const uint8_t writeBuffer[], uint8_t writeSize, I2CRB *rb)
{
uint8_t status, muxStatus;
uint8_t nBytes = 0;
uint8_t retryCount = 0;
// If request fails, retry up to the defined limit, unless the NORETRY flag is set
// in the request block.
do {
status = muxStatus = I2C_STATUS_OK;
#ifdef I2C_EXTENDED_ADDRESS
if (address.muxNumber() != I2CMux_None) {
muxStatus = muxSelect(address);
}
#endif
// Only start new transaction if address is non-zero.
if (muxStatus == I2C_STATUS_OK && address != 0) {
if (writeSize > 0) {
Wire.beginTransmission(address);
Wire.write(writeBuffer, writeSize);
status = Wire.endTransmission(false); // Don't free bus yet
}
if (status == I2C_STATUS_OK) {
#ifdef WIRE_HAS_TIMEOUT
Wire.clearWireTimeoutFlag();
Wire.requestFrom(address, (size_t)readSize);
if (!Wire.getWireTimeoutFlag()) {
while (Wire.available() && nBytes < readSize)
readBuffer[nBytes++] = Wire.read();
if (nBytes < readSize) status = I2C_STATUS_TRUNCATED;
} else {
status = I2C_STATUS_TIMEOUT;
}
#else
Wire.requestFrom(address, (size_t)readSize);
while (Wire.available() && nBytes < readSize)
readBuffer[nBytes++] = Wire.read();
if (nBytes < readSize) status = I2C_STATUS_TRUNCATED;
#endif
}
}
#ifdef I2C_EXTENDED_ADDRESS
// Deselect MUX if there's more than one MUX present, to avoid having multiple ones selected
if (_muxCount > 1 && muxStatus == I2C_STATUS_OK && address != 0 && address.muxNumber() != I2CMux_None) {
muxSelect({address.muxNumber(), SubBus_None});
}
if (muxStatus != I2C_STATUS_OK) status = muxStatus;
#endif
} while (!((status == I2C_STATUS_OK)
|| ++retryCount > MAX_I2C_RETRIES || rb->operation & OPERATION_NORETRY));
rb->nBytes = nBytes;
rb->status = status;
return I2C_STATUS_OK;
}
/***************************************************************************
* Function to queue a request block and initiate operations.
*
* For the Wire version, this executes synchronously.
* The read/write/write_P functions return I2C_STATUS_OK always, and the
* completion status of the operation is in the request block, as for
* the non-blocking version.
***************************************************************************/
void I2CManagerClass::queueRequest(I2CRB *req) {
switch (req->operation & OPERATION_MASK) {
case OPERATION_READ:
read(req->i2cAddress, req->readBuffer, req->readLen, NULL, 0, req);
break;
case OPERATION_SEND:
write(req->i2cAddress, req->writeBuffer, req->writeLen, req);
break;
case OPERATION_SEND_P:
write_P(req->i2cAddress, req->writeBuffer, req->writeLen, req);
break;
case OPERATION_REQUEST:
read(req->i2cAddress, req->readBuffer, req->readLen, req->writeBuffer, req->writeLen, req);
break;
}
}
/***************************************************************************
* Loop function, for general background work
***************************************************************************/
void I2CManagerClass::loop() {}
#endif