/* * © 2023, Neil McKechnie. All rights reserved. * * This file is part of DCC++EX API * * 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 . */ /* * CMRIbus * ======= * To define a CMRI bus, example syntax: * CMRIbus::create(bus, serial, baud[, cycletime[, pin]]); * * bus = 0-255 * serial = serial port to be used (e.g. Serial3) * baud = baud rate (9600, 19200, 28800, 57600 or 115200) * cycletime = minimum time between successive updates/reads of a node in millisecs (default 500ms) * pin = pin number connected to RS485 module's DE and !RE terminals for half-duplex operation (default VPIN_NONE) * * Each bus must use a different serial port. * * IMPORTANT: If you are using ArduinoCMRI library code by Michael Adams, at the time of writing this library * is not compliant with the LCS-9.10.1 specification for CMRInet protocol. * Various work-arounds may be enabled within the driver by adding the following line to your config.h file, * to allow nodes running the ArduinoCMRI library to communicate: * * #define ARDUINOCMRI_COMPATIBLE * * CMRINode * ======== * To define a CMRI node and associate it with a CMRI bus, * CMRInode::create(firstVPIN, numVPINs, bus, nodeID, type [, inputs, outputs]); * * firstVPIN = first vpin in block allocated to this device * numVPINs = number of vpins (e.g. 72 for an SMINI node) * bus = 0-255 * nodeID = 0-127 * type = 'M' for SMINI (fixed 24 inputs and 48 outputs) * 'C' for CPNODE (16 to 144 inputs/outputs in groups of 8) * (other types are not supported at this time). * inputs = number of inputs (CPNODE only) * outputs = number of outputs (CPNODE only) * * Reference: "LCS-9.10.1 * Layout Control Specification: CMRInet Protocol * Version 1.1 December 2014." */ #ifndef IO_CMRI_H #define IO_CMRI_H #include "IODevice.h" /********************************************************************** * CMRInode class * * This encapsulates the state associated with a single CMRI node, * which includes the nodeID type, number of inputs and outputs, and * the states of the inputs and outputs. **********************************************************************/ class CMRInode : public IODevice { private: uint8_t _busNo; uint8_t _nodeID; char _type; CMRInode *_next = NULL; uint8_t *_inputStates = NULL; uint8_t *_outputStates = NULL; uint16_t _numInputs = 0; uint16_t _numOutputs = 0; bool _initialised = false; public: static void create(VPIN firstVpin, int nPins, uint8_t busNo, uint8_t nodeID, char type, uint16_t inputs=0, uint16_t outputs=0) { if (checkNoOverlap(firstVpin, nPins)) new CMRInode(firstVpin, nPins, busNo, nodeID, type, inputs, outputs); } CMRInode(VPIN firstVpin, int nPins, uint8_t busNo, uint8_t nodeID, char type, uint16_t inputs=0, uint16_t outputs=0); uint8_t getNodeID() { return _nodeID; } CMRInode *getNext() { return _next; } void setNext(CMRInode *node) { _next = node; } bool isInitialised() { return _initialised; } void setInitialised() { _initialised = true; } void _begin() { _initialised = false; } int _read(VPIN vpin) { // Return current state from this device uint16_t pin = vpin - _firstVpin; if (pin < _numInputs) { uint8_t mask = 1 << (pin & 0x7); int index = pin / 8; return (_inputStates[index] & mask) != 0; } else return 0; } void _write(VPIN vpin, int value) { // Update current state for this device, in preparation the bus transmission uint16_t pin = vpin - _firstVpin - _numInputs; if (pin < _numOutputs) { uint8_t mask = 1 << (pin & 0x7); int index = pin / 8; if (value) _outputStates[index] |= mask; else _outputStates[index] &= ~mask; } } void saveIncomingData(uint8_t index, uint8_t data) { if (index < (_numInputs+7)/8) _inputStates[index] = data; } uint8_t getOutputStates(uint8_t index) { if (index < (_numOutputs+7)/8) return _outputStates[index]; else return 0; } uint16_t getNumInputs() { return _numInputs; } uint16_t getNumOutputs() { return _numOutputs; } char getType() { return _type; } uint8_t getBusNumber() { return _busNo; } void _display() override { DIAG(F("CMRInode type:'%c' configured on bus:%d nodeID:%d VPINs:%u-%u (in) %u-%u (out)"), _type, _busNo, _nodeID, _firstVpin, _firstVpin+_numInputs-1, _firstVpin+_numInputs, _firstVpin+_numInputs+_numOutputs-1); } }; /********************************************************************** * CMRIbus class * * This encapsulates the properties state of the bus and the * transmission and reception of data across that bus. Each CMRIbus * object owns a set of CMRInode objects which represent the nodes * attached to that bus. **********************************************************************/ class CMRIbus : public IODevice { private: // Here we define the device-specific variables. uint8_t _busNo; HardwareSerial *_serial; unsigned long _baud; VPIN _transmitEnablePin = VPIN_NONE; CMRInode *_nodeListStart = NULL, *_nodeListEnd = NULL; CMRInode *_currentNode = NULL; // Transmitter state machine states enum {TD_IDLE, TD_PRETRANSMIT, TD_INIT, TD_TRANSMIT, TD_PROMPT, TD_RECEIVE}; uint8_t _transmitState = TD_IDLE; // Receiver state machine states. enum {RD_SYN1, RD_SYN2, RD_STX, RD_ADDR, RD_TYPE, RD_DATA, RD_ESCDATA, RD_SKIPDATA, RD_SKIPESCDATA, RD_ETX}; uint8_t _receiveState = RD_SYN1; uint16_t _receiveDataIndex = 0; // Index of next data byte to be received. CMRIbus *_nextBus = NULL; // Pointer to next bus instance in list. unsigned long _cycleStartTime = 0; unsigned long _timeoutStart = 0; unsigned long _cycleTime; // target time between successive read/write cycles, microseconds unsigned long _timeoutPeriod; // timeout on read responses, in microseconds. unsigned long _currentMicros; // last value of micros() from _loop function. unsigned long _postDelay; // delay time after transmission before switching off transmitter (in us) unsigned long _byteTransmitTime; // time in us for transmission of one byte static CMRIbus *_busList; // linked list of defined bus instances // Definition of special characters in CMRInet protocol enum : uint8_t { NUL = 0x00, STX = 0x02, ETX = 0x03, DLE = 0x10, SYN = 0xff, }; public: static void create(uint8_t busNo, HardwareSerial &serial, unsigned long baud, uint16_t cycleTimeMS=500, VPIN transmitEnablePin=VPIN_NONE) { new CMRIbus(busNo, serial, baud, cycleTimeMS, transmitEnablePin); } // Device-specific initialisation void _begin() override { // CMRInet spec states one stop bit, JMRI and ArduinoCMRI use two stop bits #if defined(ARDUINOCMRI_COMPATIBLE) _serial->begin(_baud, SERIAL_8N2); #else _serial->begin(_baud, SERIAL_8N1); #endif #if defined(DIAG_IO) _display(); #endif } // Loop function (overriding IODevice::_loop(unsigned long)) void _loop(unsigned long currentMicros) override; // Display information about the device void _display() override { DIAG(F("CMRIbus %d configured, speed=%d baud, cycle=%d ms"), _busNo, _baud, _cycleTime/1000); } // Locate CMRInode object with specified nodeID. CMRInode *findNode(uint8_t nodeID) { for (CMRInode *node = _nodeListStart; node != NULL; node = node->getNext()) { if (node->getNodeID() == nodeID) return node; } return NULL; } // Add new CMRInode to the list of nodes for this bus. void addNode(CMRInode *newNode) { if (!_nodeListStart) _nodeListStart = newNode; if (!_nodeListEnd) _nodeListEnd = newNode; else _nodeListEnd->setNext(newNode); DIAG(F("bus: 260h nodeID: _nodeListStart:%d _nodeListEnd:%d"), _nodeListStart, _nodeListEnd); } protected: CMRIbus(uint8_t busNo, HardwareSerial &serial, unsigned long baud, uint16_t cycleTimeMS, VPIN transmitEnablePin); uint16_t sendData(CMRInode *node); uint16_t requestData(CMRInode *node); uint16_t sendInitialisation(CMRInode *node); // Process any data bytes received from a CMRInode. void processIncoming(); // Process any outgoing traffic that is due. void processOutgoing(); // Enable transmitter void enableTransmitter(); // Disable transmitter and enable receiver void disableTransmitter(); public: uint8_t getBusNumber() { return _busNo; } static CMRIbus *findBus(uint8_t busNo) { for (CMRIbus *bus=_busList; bus!=NULL; bus=bus->_nextBus) { if (bus->_busNo == busNo) return bus; } return NULL; } }; #endif // IO_CMRI_H