//////////////////////////////////////////////////////////////////////////////////// // © 2020, Chris Harlow. All rights reserved. // // This file is a demonstattion of setting up a DCC-EX // Command station with optional support for direct connection of WiThrottle devices // such as "Engine Driver". If you contriol your layout through JMRI // then DON'T connect throttles to this wifi, connect them to JMRI. // // THE WIFI FEATURE IS NOT SUPPORTED ON ARDUINO DEVICES WITH ONLY 2KB RAM. //////////////////////////////////////////////////////////////////////////////////// #include "config.h" #include "DCCEX.h" // Create a serial command parser for the USB connection, // This supports JMRI or manual diagnostics and commands // to be issued from the USB serial console. DCCEXParser serialParser; // (0) Declare NetworkInterfaces // NetworkInterface wifi; NetworkInterface eth; // (0) Declared NetworkInterfaces // (1) Start NetworkInterface - HTTP callback void httpRequestHandler(ParsedRequest *req, Client* client) { DIAG(F("\nParsed Request:")); DIAG(F("\nMethod: [%s]"), req->method); DIAG(F("\nURI: [%s]"), req->uri); DIAG(F("\nHTTP version: [%s]"), req->version); DIAG(F("\nParameter count:[%d]\n"), *req->paramCount); } // (1) End NetworkInterface - HTTP callback void setup() { // The main sketch has responsibilities during setup() // Responsibility 1: Start the usb connection for diagnostics // This is normally Serial but uses SerialUSB on a SAMD processor Serial.begin(115200); DIAG(F("DCC++ EX v%S"),F(VERSION)); CONDITIONAL_LCD_START { // This block is ignored if LCD not in use LCD(0,F("DCC++ EX v%S"),F(VERSION)); LCD(1,F("Starting")); } // Start the WiFi interface on a MEGA, Uno cannot currently handle WiFi #if WIFI_ON WifiInterface::setup(WIFI_SERIAL_LINK_SPEED, F(WIFI_SSID), F(WIFI_PASSWORD), F(WIFI_HOSTNAME), IP_PORT); #endif // WIFI_ON // Responsibility 3: Start the DCC engine. // Note: this provides DCC with two motor drivers, main and prog, which handle the motor shield(s) // Standard supported devices have pre-configured macros but custome hardware installations require // detailed pin mappings and may also require modified subclasses of the MotorDriver to implement specialist logic. // STANDARD_MOTOR_SHIELD, POLOLU_MOTOR_SHIELD, FIREBOX_MK1, FIREBOX_MK1S are pre defined in MotorShields.h // Optionally a Timer number (1..4) may be passed to DCC::begin to override the default Timer1 used for the // waveform generation. e.g. DCC::begin(STANDARD_MOTOR_SHIELD,2); to use timer 2 DCC::begin(MOTOR_SHIELD_TYPE); // (2) Start NetworkInterface - The original WifiInterface is still there but disabled DIAG(F("\nFree RAM before network init: [%d]\n"),freeMemory()); DIAG(F("\nNetwork Setup In Progress ...\n")); // wifi.setup(WIFI); // WIFI, TCP on Port 2560 eth.setup(ETHERNET, TCP, 8888); // ETHERNET, TCP on Port 8888 eth.setHttpCallback(httpRequestHandler); // HTTP callback DIAG(F("\nNetwork Setup done ...")); DIAG(F("\nFree RAM after network init: [%d]\n"),freeMemory()); // (2) End starting NetworkInterface LCD(1,F("Ready")); } void loop() { // The main sketch has responsibilities during loop() // Responsibility 1: Handle DCC background processes // (loco reminders and power checks) DCC::loop(); // Responsibility 2: handle any incoming commands on USB connection serialParser.loop(Serial); // Responsibility 3: Optionally handle any incoming WiFi traffic #if WIFI_ON WifiInterface::loop(); #endif // (3) Start Loop NetworkInterface // wifi.loop(); eth.loop(); // (3) End Loop NetworkInterface LCDDisplay::loop(); // ignored if LCD not in use // Optionally report any decrease in memory (will automatically trigger on first call) #if ENABLE_FREE_MEM_WARNING static int ramLowWatermark = 32767; // replaced on first loop int freeNow = freeMemory(); if (freeNow < ramLowWatermark) { ramLowWatermark = freeNow; LCD(2,F("Free RAM=%5db"), ramLowWatermark); } #endif }