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CommandStation-EX/I2CManager_SAMD.h

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/*
* © 2022 Paul M Antoine
* © 2021, Neil McKechnie
* All rights reserved.
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*
* 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_SAMD_H
#define I2CMANAGER_SAMD_H
#include <Arduino.h>
#include "I2CManager.h"
//#include <avr/io.h>
//#include <avr/interrupt.h>
#include <wiring_private.h>
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/***************************************************************************
* Interrupt handler.
* IRQ handler for SERCOM3 which is the default I2C definition for Arduino Zero
* compatible variants such as the Sparkfun SAMD21 Dev Breakout etc.
* Later we may wish to allow use of an alternate I2C bus, or more than one I2C
* bus on the SAMD architecture
***************************************************************************/
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#if defined(I2C_USE_INTERRUPTS) && defined(ARDUINO_SAMD_ZERO)
void SERCOM3_Handler() {
I2CManagerClass::handleInterrupt();
}
#endif
// Assume SERCOM3 for now - default I2C bus on Arduino Zero and variants of same
Sercom *s = SERCOM3;
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/***************************************************************************
* Set I2C clock speed register.
***************************************************************************/
void I2CManagerClass::I2C_setClock(uint32_t i2cClockSpeed) {
// Calculate a rise time appropriate to the requested bus speed
int t_rise;
if (i2cClockSpeed < 200000L) {
i2cClockSpeed = 100000L;
t_rise = 1000;
} else if (i2cClockSpeed < 800000L) {
i2cClockSpeed = 400000L;
t_rise = 300;
} else if (i2cClockSpeed < 1200000L) {
i2cClockSpeed = 1000000L;
t_rise = 120;
} else {
i2cClockSpeed = 100000L;
t_rise = 1000;
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}
// Disable the I2C master mode and wait for sync
s->I2CM.CTRLA.bit.ENABLE = 0 ;
while (s->I2CM.SYNCBUSY.bit.ENABLE != 0);
// Calculate baudrate - using a rise time appropriate for the speed
s->I2CM.BAUD.bit.BAUD = SystemCoreClock / (2 * i2cClockSpeed) - 5 - (((SystemCoreClock / 1000000) * t_rise) / (2 * 1000));
// Enable the I2C master mode and wait for sync
s->I2CM.CTRLA.bit.ENABLE = 1 ;
while (s->I2CM.SYNCBUSY.bit.ENABLE != 0);
// Setting bus idle mode and wait for sync
s->I2CM.STATUS.bit.BUSSTATE = 1 ;
while (s->I2CM.SYNCBUSY.bit.SYSOP != 0);
return;
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}
/***************************************************************************
* Initialise I2C registers.
***************************************************************************/
void I2CManagerClass::I2C_init()
{
//Setting clock
GCLK->CLKCTRL.reg = GCLK_CLKCTRL_ID(GCM_SERCOM3_CORE) | // Generic Clock 0 (SERCOM3)
GCLK_CLKCTRL_GEN_GCLK0 | // Generic Clock Generator 0 is source
GCLK_CLKCTRL_CLKEN ;
/* Wait for peripheral clock synchronization */
while ( GCLK->STATUS.reg & GCLK_STATUS_SYNCBUSY );
// Software reset the SERCOM
s->I2CM.CTRLA.bit.SWRST = 1;
//Wait both bits Software Reset from CTRLA and SYNCBUSY are equal to 0
while(s->I2CM.CTRLA.bit.SWRST || s->I2CM.SYNCBUSY.bit.SWRST);
// Set master mode and enable SCL Clock Stretch mode (stretch after ACK bit)
s->I2CM.CTRLA.reg = SERCOM_I2CM_CTRLA_MODE( I2C_MASTER_OPERATION )/* |
SERCOM_I2CM_CTRLA_SCLSM*/ ;
// Enable Smart mode and Quick Command
s->I2CM.CTRLB.reg = SERCOM_I2CM_CTRLB_SMEN | SERCOM_I2CM_CTRLB_QCEN;
#if defined(I2C_USE_INTERRUPTS)
// Setting NVIC
NVIC_EnableIRQ(SERCOM3_IRQn);
NVIC_SetPriority (SERCOM3_IRQn, 0); /* set Priority */
// Enable all interrupts
s->I2CM.INTENSET.reg = SERCOM_I2CM_INTENSET_MB | SERCOM_I2CM_INTENSET_SB | SERCOM_I2CM_INTENSET_ERROR;
#endif
// Calculate baudrate and set default rate for now
s->I2CM.BAUD.bit.BAUD = SystemCoreClock / ( 2 * I2C_FREQ) - 7 / (2 * 1000);
// Enable the I2C master mode and wait for sync
s->I2CM.CTRLA.bit.ENABLE = 1 ;
while (s->I2CM.SYNCBUSY.bit.ENABLE != 0);
// Setting bus idle mode and wait for sync
s->I2CM.STATUS.bit.BUSSTATE = 1 ;
while (s->I2CM.SYNCBUSY.bit.SYSOP != 0);
// Set SDA/SCL pins as outputs and enable pullups, at present we assume these are
// the default ones for SERCOM3 (see assumption above)
pinPeripheral(PIN_WIRE_SDA, g_APinDescription[PIN_WIRE_SDA].ulPinType);
pinPeripheral(PIN_WIRE_SCL, g_APinDescription[PIN_WIRE_SCL].ulPinType);
// Enable the SCL and SDA pins on the sercom: includes increased driver strength,
// pull-up resistors and pin multiplexer
PORT->Group[g_APinDescription[PIN_WIRE_SCL].ulPort].PINCFG[g_APinDescription[PIN_WIRE_SCL].ulPin].reg =
PORT_PINCFG_DRVSTR | PORT_PINCFG_PULLEN | PORT_PINCFG_PMUXEN;
PORT->Group[g_APinDescription[PIN_WIRE_SDA].ulPort].PINCFG[g_APinDescription[PIN_WIRE_SDA].ulPin].reg =
PORT_PINCFG_DRVSTR | PORT_PINCFG_PULLEN | PORT_PINCFG_PMUXEN;
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}
/***************************************************************************
* Initiate a start bit for transmission.
***************************************************************************/
void I2CManagerClass::I2C_sendStart() {
bytesToSend = currentRequest->writeLen;
bytesToReceive = currentRequest->readLen;
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// We may have initiated a stop bit before this without waiting for it.
// Wait for stop bit to be sent before sending start.
while (s->I2CM.STATUS.bit.BUSSTATE == 0x2);
// If anything to send, initiate write. Otherwise initiate read.
if (operation == OPERATION_READ || ((operation == OPERATION_REQUEST) && !bytesToSend))
{
// Send start and address with read/write flag or'd in
s->I2CM.ADDR.bit.ADDR = (currentRequest->i2cAddress << 1) | 1;
}
else {
// Wait while the I2C bus is BUSY
while (s->I2CM.STATUS.bit.BUSSTATE != 0x1);
s->I2CM.ADDR.bit.ADDR = (currentRequest->i2cAddress << 1ul) | 0;
}
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}
/***************************************************************************
* Initiate a stop bit for transmission (does not interrupt)
***************************************************************************/
void I2CManagerClass::I2C_sendStop() {
s->I2CM.CTRLB.bit.CMD = 3; // Stop condition
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}
/***************************************************************************
* Close I2C down
***************************************************************************/
void I2CManagerClass::I2C_close() {
I2C_sendStop();
}
/***************************************************************************
* Main state machine for I2C, called from interrupt handler or,
* if I2C_USE_INTERRUPTS isn't defined, from the I2CManagerClass::loop() function
* (and therefore, indirectly, from I2CRB::wait() and I2CRB::isBusy()).
***************************************************************************/
void I2CManagerClass::I2C_handleInterrupt() {
if (s->I2CM.STATUS.bit.ARBLOST) {
// Arbitration lost, restart
I2C_sendStart(); // Reinitiate request
} else if (s->I2CM.STATUS.bit.BUSERR) {
// Bus error
state = I2C_STATUS_BUS_ERROR;
} else if (s->I2CM.INTFLAG.bit.MB) {
// Master write completed
if (s->I2CM.STATUS.bit.RXNACK) {
// Nacked, send stop.
I2C_sendStop();
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state = I2C_STATUS_NEGATIVE_ACKNOWLEDGE;
} else if (bytesToSend) {
// Acked, so send next byte
if (currentRequest->operation == OPERATION_SEND_P)
s->I2CM.DATA.bit.DATA = GETFLASH(currentRequest->writeBuffer + (txCount++));
else
s->I2CM.DATA.bit.DATA = currentRequest->writeBuffer[txCount++];
bytesToSend--;
} else if (bytesToReceive) {
// Last sent byte acked and no more to send. Send repeated start, address and read bit.
s->I2CM.ADDR.bit.ADDR = (currentRequest->i2cAddress << 1) | 1;
} else {
// No more data to send/receive. Initiate a STOP condition.
I2C_sendStop();
state = I2C_STATUS_OK; // Done
}
} else if (s->I2CM.INTFLAG.bit.SB) {
// Master read completed without errors
if (bytesToReceive) {
currentRequest->readBuffer[rxCount++] = s->I2CM.DATA.bit.DATA; // Store received byte
bytesToReceive--;
} else {
// Buffer full, issue nack/stop
s->I2CM.CTRLB.bit.ACKACT = 1;
I2C_sendStop();
state = I2C_STATUS_OK;
}
if (bytesToReceive) {
// PMA - I think Smart Mode means we have nothing to do...
// More bytes to receive, issue ack and start another read
}
else
{
// Transaction finished, issue NACK and STOP.
s->I2CM.CTRLB.bit.ACKACT = 1;
I2C_sendStop();
state = I2C_STATUS_OK;
}
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}
}
#endif /* I2CMANAGER_SAMD_H */