/* * © 2023, Neil McKechnie * © 2022 Paul M Antoine * 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 . */ #include #include "I2CManager.h" #include "DIAG.h" // Include target-specific portions of I2CManager class #if defined(I2C_USE_WIRE) #include "I2CManager_Wire.h" #elif defined(ARDUINO_ARCH_AVR) #include "I2CManager_NonBlocking.h" #include "I2CManager_AVR.h" // Uno/Nano/Mega2560 #elif defined(ARDUINO_ARCH_MEGAAVR) #include "I2CManager_NonBlocking.h" #include "I2CManager_Mega4809.h" // NanoEvery/UnoWifi #elif defined(ARDUINO_ARCH_SAMD) #include "I2CManager_NonBlocking.h" #include "I2CManager_SAMD.h" // SAMD21 for now... SAMD51 as well later #else #define I2C_USE_WIRE #include "I2CManager_Wire.h" // Other platforms #endif // If not already initialised, initialise I2C void I2CManagerClass::begin(void) { if (!_beginCompleted) { _beginCompleted = true; _initialise(); // Check for short-circuits on I2C if (!digitalRead(SDA)) DIAG(F("WARNING: Possible short-circuit on I2C SDA line")); if (!digitalRead(SCL)) DIAG(F("WARNING: Possible short-circuit on I2C SCL line")); // Probe and list devices. Use standard mode // (clock speed 100kHz) for best device compatibility. _setClock(100000); unsigned long originalTimeout = timeout; setTimeout(1000); // use 1ms timeout for probes #if defined(I2C_EXTENDED_ADDRESS) // First switch off all multiplexer subbuses. for (uint8_t muxNo=I2CMux_0; muxNo <= I2CMux_7; muxNo++) { I2CManager.muxSelectSubBus({(I2CMux)muxNo, SubBus_None}); // Deselect Mux } #endif bool found = false; for (uint8_t addr=0x08; addr<0x78; addr++) { if (exists(addr)) { found = true; DIAG(F("I2C Device found at x%x"), addr); } } #if defined(I2C_EXTENDED_ADDRESS) // Enumerate all I2C devices that are connected via multiplexer, // i.e. respond when only one multiplexer has one subBus enabled // and the device doesn't respond when the mux subBus is disabled. for (uint8_t muxNo=I2CMux_0; muxNo <= I2CMux_7; muxNo++) { uint8_t muxAddr = I2C_MUX_BASE_ADDRESS + muxNo; if (exists(muxAddr)) { for (uint8_t subBus=0; subBus<=7; subBus++) { for (uint8_t addr=0x08; addr<0x78; addr++) { if (exists({(I2CMux)muxNo, (I2CSubBus)subBus, addr}) && !exists({(I2CMux)muxNo, SubBus_None, addr})) { found = true; DIAG(F("I2C Device found at {I2CMux_%d,SubBus_%d,x%x}"), muxNo, subBus, addr); } } } // Probe mux address again with SubBus_None to deselect all // subBuses for that mux. Otherwise its devices will continue to // respond when other muxes are being probed. I2CManager.muxSelectSubBus({(I2CMux)muxNo, SubBus_None}); // Deselect Mux } } #endif if (!found) DIAG(F("No I2C Devices found")); _setClock(_clockSpeed); setTimeout(originalTimeout); // set timeout back to original } } // Set clock speed to the lowest requested one. If none requested, // the Wire default is 100kHz. void I2CManagerClass::setClock(uint32_t speed) { if (speed < _clockSpeed && !_clockSpeedFixed) { _clockSpeed = speed; DIAG(F("I2C clock speed set to %l Hz"), _clockSpeed); } _setClock(_clockSpeed); } // Force clock speed to that specified. void I2CManagerClass::forceClock(uint32_t speed) { _clockSpeed = speed; _clockSpeedFixed = true; _setClock(_clockSpeed); DIAG(F("I2C clock speed forced to %l Hz"), _clockSpeed); } // Check if specified I2C address is responding (blocking operation) // Returns I2C_STATUS_OK (0) if OK, or error code. // Suppress retries. If it doesn't respond first time it's out of the running. uint8_t I2CManagerClass::checkAddress(I2CAddress address) { I2CRB rb; rb.setWriteParams(address, NULL, 0); rb.suppressRetries(true); queueRequest(&rb); return rb.wait(); } /*************************************************************************** * Write a transmission to I2C using a list of data (blocking operation) ***************************************************************************/ uint8_t I2CManagerClass::write(I2CAddress address, uint8_t nBytes, ...) { uint8_t buffer[nBytes]; va_list args; va_start(args, nBytes); for (uint8_t i=0; iwait(); return status; } /*************************************************************************** * Get a message corresponding to the error status ***************************************************************************/ const FSH *I2CManagerClass::getErrorMessage(uint8_t status) { switch (status) { case I2C_STATUS_OK: return F("OK"); case I2C_STATUS_TRUNCATED: return F("Transmission truncated"); case I2C_STATUS_NEGATIVE_ACKNOWLEDGE: return F("No response from device (address NAK)"); case I2C_STATUS_TRANSMIT_ERROR: return F("Transmit error (data NAK)"); case I2C_STATUS_OTHER_TWI_ERROR: return F("Other Wire/TWI error"); case I2C_STATUS_TIMEOUT: return F("Timeout"); case I2C_STATUS_ARBITRATION_LOST: return F("Arbitration lost"); case I2C_STATUS_BUS_ERROR: return F("I2C bus error"); case I2C_STATUS_UNEXPECTED_ERROR: return F("Unexpected error"); case I2C_STATUS_PENDING: return F("Request pending"); default: return F("Error code not recognised"); } } /*************************************************************************** * Declare singleton class instance. ***************************************************************************/ I2CManagerClass I2CManager = I2CManagerClass(); // Default timeout 100ms on I2C request block completion. // A full 32-byte transmission takes about 8ms at 100kHz, // so this value allows lots of headroom. // It can be modified by calling I2CManager.setTimeout() function. // When retries are enabled, the timeout applies to each // try, and failure from timeout does not get retried. unsigned long I2CManagerClass::timeout = 100000UL; ///////////////////////////////////////////////////////////////////////////// // Helper functions associated with I2C Request Block ///////////////////////////////////////////////////////////////////////////// /*************************************************************************** * Block waiting for request to complete, and return completion status. * Timeout monitoring is performed in the I2CManager.loop() function. ***************************************************************************/ uint8_t I2CRB::wait() { while (status==I2C_STATUS_PENDING) { I2CManager.loop(); }; return status; } /*************************************************************************** * Check whether request is still in progress. * Timeout monitoring is performed in the I2CManager.loop() function. ***************************************************************************/ bool I2CRB::isBusy() { if (status==I2C_STATUS_PENDING) { I2CManager.loop(); return true; } else return false; } /*************************************************************************** * Helper functions to fill the I2CRequest structure with parameters. ***************************************************************************/ void I2CRB::setReadParams(I2CAddress i2cAddress, uint8_t *readBuffer, uint8_t readLen) { this->i2cAddress = i2cAddress; this->writeLen = 0; this->readBuffer = readBuffer; this->readLen = readLen; this->operation = OPERATION_READ; this->status = I2C_STATUS_OK; } void I2CRB::setRequestParams(I2CAddress i2cAddress, uint8_t *readBuffer, uint8_t readLen, const uint8_t *writeBuffer, uint8_t writeLen) { this->i2cAddress = i2cAddress; this->writeBuffer = writeBuffer; this->writeLen = writeLen; this->readBuffer = readBuffer; this->readLen = readLen; this->operation = OPERATION_REQUEST; this->status = I2C_STATUS_OK; } void I2CRB::setWriteParams(I2CAddress i2cAddress, const uint8_t *writeBuffer, uint8_t writeLen) { this->i2cAddress = i2cAddress; this->writeBuffer = writeBuffer; this->writeLen = writeLen; this->readLen = 0; this->operation = OPERATION_SEND; this->status = I2C_STATUS_OK; } void I2CRB::suppressRetries(bool suppress) { if (suppress) this->operation |= OPERATION_NORETRY; else this->operation &= ~OPERATION_NORETRY; }