mirror of
https://github.com/DCC-EX/CommandStation-EX.git
synced 2024-11-22 23:56:13 +01:00
3c4e4bb14d
Added IO_I2CDFPlayer.h to support DFPLayer over I2C connected to NXP SC16IS750/SC16IS752 (currently only single UART for SC16IS752) Added enhanced IO_I2CDFPLayer enum commands to EXRAIL2.h Added PLAYSOUND alias of ANOUT to EXRAILMacros.h EXRail additions as per advice from Chris
369 lines
14 KiB
C++
369 lines
14 KiB
C++
/*
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* © 2023, Neil McKechnie
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* © 2022 Paul M Antoine
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* All rights reserved.
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*
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* This file is part of CommandStation-EX
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*
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* This is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* It is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with CommandStation. If not, see <https://www.gnu.org/licenses/>.
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*/
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#include <stdarg.h>
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#include "I2CManager.h"
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#include "DIAG.h"
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// Include target-specific portions of I2CManager class
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#if defined(I2C_USE_WIRE)
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#include "I2CManager_Wire.h"
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#elif defined(ARDUINO_ARCH_AVR)
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#include "I2CManager_NonBlocking.h"
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#include "I2CManager_AVR.h" // Uno/Nano/Mega2560
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#elif defined(ARDUINO_ARCH_MEGAAVR)
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#include "I2CManager_NonBlocking.h"
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#include "I2CManager_Mega4809.h" // NanoEvery/UnoWifi
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#elif defined(ARDUINO_ARCH_SAMD)
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#include "I2CManager_NonBlocking.h"
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#include "I2CManager_SAMD.h" // SAMD21 for now... SAMD51 as well later
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#elif defined(ARDUINO_ARCH_STM32)
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#include "I2CManager_NonBlocking.h"
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#include "I2CManager_STM32.h" // STM32F411RE for now... more later
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#else
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#define I2C_USE_WIRE
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#include "I2CManager_Wire.h" // Other platforms
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#endif
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// Helper function for listing device types
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static const FSH * guessI2CDeviceType(uint8_t address) {
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if (address >= 0x20 && address <= 0x26)
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return F("GPIO Expander");
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else if (address == 0x27)
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return F("GPIO Expander or LCD Display");
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else if (address == 0x29)
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return F("Time-of-flight sensor");
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else if (address >= 0x3c && address <= 0x3d)
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return F("OLED Display");
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else if (address >= 0x48 && address <= 0x57) // SC16IS752x UART detection
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return F("SC16IS75x UART");
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else if (address >= 0x48 && address <= 0x4f)
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return F("Analogue Inputs or PWM");
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else if (address >= 0x40 && address <= 0x4f)
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return F("PWM");
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else if (address >= 0x50 && address <= 0x5f)
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return F("EEPROM");
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else if (address == 0x68)
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return F("Real-time clock");
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else if (address >= 0x70 && address <= 0x77)
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return F("I2C Mux");
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else
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return F("?");
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}
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// If not already initialised, initialise I2C
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void I2CManagerClass::begin(void) {
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if (!_beginCompleted) {
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_beginCompleted = true;
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// Check for short-circuit or floating lines (no pull-up) on I2C before enabling I2C
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const FSH *message = F("WARNING: Check I2C %S line for short/pullup");
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pinMode(SDA, INPUT);
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if (!digitalRead(SDA))
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DIAG(message, F("SDA"));
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pinMode(SCL, INPUT);
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if (!digitalRead(SCL))
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DIAG(message, F("SCL"));
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// Now initialise I2C
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_initialise();
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#if defined(I2C_USE_WIRE)
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DIAG(F("I2CManager: Using Wire library"));
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#endif
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// Probe and list devices. Use standard mode
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// (clock speed 100kHz) for best device compatibility.
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_setClock(100000);
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uint32_t originalTimeout = _timeout;
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setTimeout(1000); // use 1ms timeout for probes
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#if defined(I2C_EXTENDED_ADDRESS)
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// First count the multiplexers and switch off all subbuses
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_muxCount = 0;
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for (uint8_t muxNo=I2CMux_0; muxNo <= I2CMux_7; muxNo++) {
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if (I2CManager.muxSelectSubBus({(I2CMux)muxNo, SubBus_None})==I2C_STATUS_OK)
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_muxCount++;
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}
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#endif
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// Enumerate devices that are visible
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bool found = false;
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for (uint8_t addr=0x08; addr<0x78; addr++) {
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if (exists(addr)) {
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found = true;
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DIAG(F("I2C Device found at 0x%x, %S?"), addr, guessI2CDeviceType(addr));
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}
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}
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#if defined(I2C_EXTENDED_ADDRESS)
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// Enumerate all I2C devices that are connected via multiplexer,
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// i.e. that respond when only one multiplexer has one subBus enabled
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// and the device doesn't respond when the mux subBus is disabled.
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// If any probes time out, then assume that the subbus is dead and
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// don't do any more on that subbus.
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for (uint8_t muxNo=I2CMux_0; muxNo <= I2CMux_7; muxNo++) {
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uint8_t muxAddr = I2C_MUX_BASE_ADDRESS + muxNo;
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if (exists(muxAddr)) {
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// Select Mux Subbus
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for (uint8_t subBus=0; subBus<=SubBus_No; subBus++) {
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muxSelectSubBus({(I2CMux)muxNo, (I2CSubBus)subBus});
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for (uint8_t addr=0x08; addr<0x78; addr++) {
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uint8_t status = checkAddress(addr);
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if (status == I2C_STATUS_OK) {
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// De-select subbus
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muxSelectSubBus({(I2CMux)muxNo, SubBus_None});
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if (!exists(addr)) {
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// Device responds when subbus selected but not when
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// subbus disabled - ergo it must be on subbus!
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found = true;
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DIAG(F("I2C Device found at {I2CMux_%d,SubBus_%d,0x%x}, %S?"),
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muxNo, subBus, addr, guessI2CDeviceType(addr));
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}
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// Re-select subbus
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muxSelectSubBus({(I2CMux)muxNo, (I2CSubBus)subBus});
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} else if (status == I2C_STATUS_TIMEOUT) {
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// Bus stuck, skip to next one.
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break;
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}
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}
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}
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// Deselect all subBuses for this mux. Otherwise its devices will continue to
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// respond when other muxes are being probed.
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I2CManager.muxSelectSubBus({(I2CMux)muxNo, SubBus_None}); // Deselect Mux
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}
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}
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#endif
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if (!found) DIAG(F("No I2C Devices found"));
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_setClock(_clockSpeed);
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setTimeout(originalTimeout); // set timeout back to original
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}
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}
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// Set clock speed to the lowest requested one. If none requested,
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// the Wire default is 100kHz.
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void I2CManagerClass::setClock(uint32_t speed) {
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if (speed < _clockSpeed && !_clockSpeedFixed) {
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_clockSpeed = speed;
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DIAG(F("I2C clock speed set to %l Hz"), _clockSpeed);
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}
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_setClock(_clockSpeed);
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}
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// Force clock speed to that specified.
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void I2CManagerClass::forceClock(uint32_t speed) {
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_clockSpeed = speed;
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_clockSpeedFixed = true;
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_setClock(_clockSpeed);
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DIAG(F("I2C clock speed forced to %l Hz"), _clockSpeed);
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}
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// Check if specified I2C address is responding (blocking operation)
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// Returns I2C_STATUS_OK (0) if OK, or error code.
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// Suppress retries. If it doesn't respond first time it's out of the running.
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uint8_t I2CManagerClass::checkAddress(I2CAddress address) {
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I2CRB rb;
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rb.setWriteParams(address, NULL, 0);
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rb.suppressRetries(true);
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queueRequest(&rb);
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return rb.wait();
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}
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/***************************************************************************
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* Write a transmission to I2C using a list of data (blocking operation)
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***************************************************************************/
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uint8_t I2CManagerClass::write(I2CAddress address, uint8_t nBytes, ...) {
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uint8_t buffer[nBytes];
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va_list args;
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va_start(args, nBytes);
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for (uint8_t i=0; i<nBytes; i++)
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buffer[i] = va_arg(args, int);
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va_end(args);
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return write(address, buffer, nBytes);
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}
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/***************************************************************************
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* Initiate a write to an I2C device (blocking operation)
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***************************************************************************/
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uint8_t I2CManagerClass::write(I2CAddress i2cAddress, const uint8_t writeBuffer[], uint8_t writeLen) {
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I2CRB req;
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uint8_t status = write(i2cAddress, writeBuffer, writeLen, &req);
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return finishRB(&req, status);
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}
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/***************************************************************************
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* Initiate a write from PROGMEM (flash) to an I2C device (blocking operation)
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***************************************************************************/
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uint8_t I2CManagerClass::write_P(I2CAddress i2cAddress, const uint8_t * data, uint8_t dataLen) {
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I2CRB req;
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uint8_t status = write_P(i2cAddress, data, dataLen, &req);
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return finishRB(&req, status);
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}
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/***************************************************************************
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* Initiate a write (optional) followed by a read from the I2C device (blocking operation)
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***************************************************************************/
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uint8_t I2CManagerClass::read(I2CAddress i2cAddress, uint8_t *readBuffer, uint8_t readLen,
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const uint8_t *writeBuffer, uint8_t writeLen)
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{
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I2CRB req;
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uint8_t status = read(i2cAddress, readBuffer, readLen, writeBuffer, writeLen, &req);
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return finishRB(&req, status);
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}
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/***************************************************************************
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* Overload of read() to allow command to be specified as a series of bytes (blocking operation)
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***************************************************************************/
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uint8_t I2CManagerClass::read(I2CAddress address, uint8_t readBuffer[], uint8_t readSize,
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uint8_t writeSize, ...) {
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va_list args;
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// Copy the series of bytes into an array.
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va_start(args, writeSize);
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uint8_t writeBuffer[writeSize];
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for (uint8_t i=0; i<writeSize; i++)
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writeBuffer[i] = va_arg(args, int);
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va_end(args);
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return read(address, readBuffer, readSize, writeBuffer, writeSize);
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}
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/***************************************************************************
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* Finish off request block by posting status, etc. (blocking operation)
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***************************************************************************/
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uint8_t I2CManagerClass::finishRB(I2CRB *rb, uint8_t status) {
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if ((status == I2C_STATUS_OK) && rb)
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status = rb->wait();
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return status;
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}
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/***************************************************************************
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* Get a message corresponding to the error status
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***************************************************************************/
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const FSH *I2CManagerClass::getErrorMessage(uint8_t status) {
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switch (status) {
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case I2C_STATUS_OK: return F("OK");
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case I2C_STATUS_TRUNCATED: return F("Transmission truncated");
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case I2C_STATUS_NEGATIVE_ACKNOWLEDGE: return F("No response from device (address NAK)");
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case I2C_STATUS_TRANSMIT_ERROR: return F("Transmit error (data NAK)");
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case I2C_STATUS_OTHER_TWI_ERROR: return F("Other Wire/TWI error");
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case I2C_STATUS_TIMEOUT: return F("I2C bus timeout");
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case I2C_STATUS_ARBITRATION_LOST: return F("Arbitration lost");
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case I2C_STATUS_BUS_ERROR: return F("I2C bus error");
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case I2C_STATUS_UNEXPECTED_ERROR: return F("Unexpected error");
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case I2C_STATUS_PENDING: return F("Request pending");
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default: return F("Error code not recognised");
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}
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}
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/***************************************************************************
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* Declare singleton class instance.
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***************************************************************************/
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I2CManagerClass I2CManager = I2CManagerClass();
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// Buffer for conversion of I2CAddress to char*.
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/* static */ char I2CAddress::addressBuffer[30];
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/////////////////////////////////////////////////////////////////////////////
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// Helper functions associated with I2C Request Block
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/////////////////////////////////////////////////////////////////////////////
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/***************************************************************************
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* Block waiting for request to complete, and return completion status.
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* Timeout monitoring is performed in the I2CManager.loop() function.
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***************************************************************************/
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uint8_t I2CRB::wait() {
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while (status==I2C_STATUS_PENDING) {
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I2CManager.loop();
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};
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return status;
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}
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/***************************************************************************
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* Check whether request is still in progress.
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* Timeout monitoring is performed in the I2CManager.loop() function.
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***************************************************************************/
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bool I2CRB::isBusy() {
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if (status==I2C_STATUS_PENDING) {
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I2CManager.loop();
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return true;
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} else
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return false;
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}
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/***************************************************************************
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* Helper functions to fill the I2CRequest structure with parameters.
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***************************************************************************/
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void I2CRB::setReadParams(I2CAddress i2cAddress, uint8_t *readBuffer, uint8_t readLen) {
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this->i2cAddress = i2cAddress;
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this->writeLen = 0;
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this->readBuffer = readBuffer;
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this->readLen = readLen;
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this->operation = OPERATION_READ;
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this->status = I2C_STATUS_OK;
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}
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void I2CRB::setRequestParams(I2CAddress i2cAddress, uint8_t *readBuffer, uint8_t readLen,
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const uint8_t *writeBuffer, uint8_t writeLen) {
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this->i2cAddress = i2cAddress;
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this->writeBuffer = writeBuffer;
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this->writeLen = writeLen;
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this->readBuffer = readBuffer;
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this->readLen = readLen;
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this->operation = OPERATION_REQUEST;
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this->status = I2C_STATUS_OK;
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}
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void I2CRB::setWriteParams(I2CAddress i2cAddress, const uint8_t *writeBuffer, uint8_t writeLen) {
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this->i2cAddress = i2cAddress;
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this->writeBuffer = writeBuffer;
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this->writeLen = writeLen;
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this->readLen = 0;
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this->operation = OPERATION_SEND;
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this->status = I2C_STATUS_OK;
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}
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void I2CRB::suppressRetries(bool suppress) {
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if (suppress)
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this->operation |= OPERATION_NORETRY;
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else
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this->operation &= ~OPERATION_NORETRY;
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}
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// Helper function for converting a uint8_t to four characters (e.g. 0x23).
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void I2CAddress::toHex(const uint8_t value, char *buffer) {
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char *ptr = buffer;
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// Just display hex value, two digits.
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*ptr++ = '0';
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*ptr++ = 'x';
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uint8_t bits = (value >> 4) & 0xf;
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*ptr++ = bits > 9 ? bits-10+'a' : bits+'0';
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bits = value & 0xf;
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*ptr++ = bits > 9 ? bits-10+'a' : bits+'0';
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}
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#if !defined(I2C_EXTENDED_ADDRESS)
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/* static */ bool I2CAddress::_addressWarningDone = false;
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#endif
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