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libraries/FirmataWithDeviceFeature/examples/ConfigurableFirmata/ConfigurableFirmata.ino Normal file
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/*
Firmata is a generic protocol for communicating with microcontrollers
from software on a host computer. It is intended to work with
any host computer software package.
To download a host software package, please clink on the following link
to open the download page in your default browser.
https://github.com/firmata/ConfigurableFirmata#firmata-client-libraries
Copyright (C) 2006-2008 Hans-Christoph Steiner. All rights reserved.
Copyright (C) 2010-2011 Paul Stoffregen. All rights reserved.
Copyright (C) 2009 Shigeru Kobayashi. All rights reserved.
Copyright (C) 2013 Norbert Truchsess. All rights reserved.
Copyright (C) 2014 Nicolas Panel. All rights reserved.
Copyright (C) 2009-2016 Jeff Hoefs. All rights reserved.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
See file LICENSE.txt for further informations on licensing terms.
Last updated by Jeff Hoefs: January 23rd, 2016
*/
/*
README
This is an example use of ConfigurableFirmata. The easiest way to create a configuration is to
use http://firmatabuilder.com and select the communication transport and the firmata features
to include and an Arduino sketch (.ino) file will be generated and downloaded automatically.
To manually configure a sketch, copy this file and follow the instructions in the
ETHERNET CONFIGURATION OPTION (if you want to use Ethernet instead of Serial/USB) and
FIRMATA FEATURE CONFIGURATION sections in this file.
*/
#include "ConfigurableFirmata.h"
/*==============================================================================
* ETHERNET CONFIGURATION OPTION
*
* By default Firmata uses the Serial-port (over USB) of the Arduino. ConfigurableFirmata may also
* comunicate over ethernet using tcp/ip. To configure this sketch to use Ethernet instead of
* Serial, uncomment the approprate includes for your particular hardware. See STEPS 1 - 5 below.
* If you want to use Serial (over USB) then skip ahead to the FIRMATA FEATURE CONFIGURATION
* section further down in this file.
*
* If you enable Ethernet, you will need a Firmata client library with a network transport that can
* act as a server in order to establish a connection between ConfigurableFirmataEthernet and the
* Firmata host application (your application).
*
* To use ConfigurableFirmata with Ethernet you will need to have one of the following
* boards or shields:
*
* - Arduino Ethernet shield (or clone)
* - Arduino Ethernet board (or clone)
* - Arduino Yun
*
* If you are using an Arduino Ethernet shield you cannot use the following pins on
* the following boards. Firmata will ignore any requests to use these pins:
*
* - Arduino Uno or other ATMega328 boards: (D4, D10, D11, D12, D13)
* - Arduino Mega: (D4, D10, D50, D51, D52, D53)
* - Arduino Leonardo: (D4, D10)
* - Arduino Due: (D4, D10)
* - Arduino Zero: (D4, D10)
*
* If you are using an ArduinoEthernet board, the following pins cannot be used (same as Uno):
* - D4, D10, D11, D12, D13
*============================================================================*/
// STEP 1 [REQUIRED]
// Uncomment / comment the appropriate set of includes for your hardware (OPTION A, B or C)
/*
* OPTION A: Configure for Arduino Ethernet board or Arduino Ethernet shield (or clone)
*
* To configure ConfigurableFirmata to use the an Arduino Ethernet Shield or Arduino Ethernet
* Board (both use the same WIZ5100-based Ethernet controller), uncomment the SPI and Ethernet
* includes below.
*/
//#include <SPI.h>
//#include <Ethernet.h>
/*
* OPTION B: Configure for a board or shield using an ENC28J60-based Ethernet controller,
* uncomment out the UIPEthernet include below.
*
* The UIPEthernet-library can be downloaded
* from: https://github.com/ntruchsess/arduino_uip
*/
//#include <UIPEthernet.h>
/*
* OPTION C: Configure for Arduino Yun
*
* The Ethernet port on the Arduino Yun board can be used with Firmata in this configuration.
* To execute StandardFirmataEthernet on Yun uncomment the Bridge and YunClient includes below.
*
* NOTE: in order to compile for the Yun you will also need to comment out some of the includes
* and declarations in the FIRMATA FEATURE CONFIGURATION section later in this file. Including all
* features exceeds the RAM and Flash memory of the Yun. Comment out anything you don't need.
*
* On Yun there's no need to configure local_ip and mac address as this is automatically
* configured on the linux-side of Yun.
*
* Establishing a connection with the Yun may take several seconds.
*/
//#include <Bridge.h>
//#include <YunClient.h>
#if defined ethernet_h || defined UIPETHERNET_H || defined _YUN_CLIENT_H_
#define NETWORK_FIRMATA
// STEP 2 [REQUIRED for all boards and shields]
// replace with IP of the server you want to connect to, comment out if using 'remote_host'
#define remote_ip IPAddress(192, 168, 0, 1)
// OR replace with hostname of server you want to connect to, comment out if using 'remote_ip'
// #define remote_host "server.local"
// STEP 3 [REQUIRED unless using Arduino Yun]
// Replace with the port that your server is listening on
#define remote_port 3030
// STEP 4 [REQUIRED unless using Arduino Yun OR if not using DHCP]
// Replace with your board or Ethernet shield's IP address
// Comment out if you want to use DHCP
#define local_ip IPAddress(192, 168, 0, 6)
// STEP 5 [REQUIRED unless using Arduino Yun]
// replace with Ethernet shield mac. Must be unique for your network
const byte mac[] = {0x90, 0xA2, 0xDA, 0x0D, 0x07, 0x02};
#endif
/*==============================================================================
* FIRMATA FEATURE CONFIGURATION
*
* Comment out the include and declaration for any features that you do not need
* below.
*
* WARNING: Including all of the following features (especially if also using
* Ethernet) may exceed the Flash and/or RAM of lower memory boards such as the
* Arduino Uno or Leonardo.
*============================================================================*/
#include <DigitalInputFirmata.h>
DigitalInputFirmata digitalInput;
#include <DigitalOutputFirmata.h>
DigitalOutputFirmata digitalOutput;
#include <AnalogInputFirmata.h>
AnalogInputFirmata analogInput;
#include <AnalogOutputFirmata.h>
AnalogOutputFirmata analogOutput;
#include <Servo.h>
#include <ServoFirmata.h>
ServoFirmata servo;
// ServoFirmata depends on AnalogOutputFirmata
#if defined ServoFirmata_h && ! defined AnalogOutputFirmata_h
#error AnalogOutputFirmata must be included to use ServoFirmata
#endif
#include <Wire.h>
#include <I2CFirmata.h>
I2CFirmata i2c;
#include <OneWireFirmata.h>
OneWireFirmata oneWire;
#include <StepperFirmata.h>
StepperFirmata stepper;
#include <SerialFirmata.h>
SerialFirmata serial;
#include <FirmataExt.h>
FirmataExt firmataExt;
#include <FirmataScheduler.h>
FirmataScheduler scheduler;
// To add Encoder support you must first install the FirmataEncoder and Encoder libraries:
// https://github.com/firmata/FirmataEncoder
// https://www.pjrc.com/teensy/td_libs_Encoder.html
// #include <Encoder.h>
// #include <FirmataEncoder.h>
// FirmataEncoder encoder;
/*===================================================================================
* END FEATURE CONFIGURATION - you should not need to change anything below this line
*==================================================================================*/
// dependencies. Do not comment out the following lines
#if defined AnalogOutputFirmata_h || defined ServoFirmata_h
#include <AnalogWrite.h>
#endif
#if defined AnalogInputFirmata_h || defined I2CFirmata_h || defined FirmataEncoder_h
#include <FirmataReporting.h>
FirmataReporting reporting;
#endif
// dependencies for Network Firmata. Do not comment out.
#ifdef NETWORK_FIRMATA
#if defined remote_ip && defined remote_host
#error "cannot define both remote_ip and remote_host at the same time!"
#endif
#include <EthernetClientStream.h>
#ifdef _YUN_CLIENT_H_
YunClient client;
#else
EthernetClient client;
#endif
#if defined remote_ip && !defined remote_host
#ifdef local_ip
EthernetClientStream stream(client, local_ip, remote_ip, NULL, remote_port);
#else
EthernetClientStream stream(client, IPAddress(0, 0, 0, 0), remote_ip, NULL, remote_port);
#endif
#endif
#if !defined remote_ip && defined remote_host
#ifdef local_ip
EthernetClientStream stream(client, local_ip, IPAddress(0, 0, 0, 0), remote_host, remote_port);
#else
EthernetClientStream stream(client, IPAddress(0, 0, 0, 0), IPAddress(0, 0, 0, 0), remote_host, remote_port);
#endif
#endif
#endif
/*==============================================================================
* FUNCTIONS
*============================================================================*/
void systemResetCallback()
{
// initialize a default state
// pins with analog capability default to analog input
// otherwise, pins default to digital output
for (byte i = 0; i < TOTAL_PINS; i++) {
if (IS_PIN_ANALOG(i)) {
#ifdef AnalogInputFirmata_h
// turns off pull-up, configures everything
Firmata.setPinMode(i, PIN_MODE_ANALOG);
#endif
} else if (IS_PIN_DIGITAL(i)) {
#ifdef DigitalOutputFirmata_h
// sets the output to 0, configures portConfigInputs
Firmata.setPinMode(i, OUTPUT);
#endif
}
}
#ifdef FirmataExt_h
firmataExt.reset();
#endif
}
/*==============================================================================
* SETUP()
*============================================================================*/
void setup()
{
/*
* ETHERNET SETUP
*/
#ifdef NETWORK_FIRMATA
#ifdef _YUN_CLIENT_H_
Bridge.begin();
#else
#ifdef local_ip
Ethernet.begin((uint8_t *)mac, local_ip); //start Ethernet
#else
Ethernet.begin((uint8_t *)mac); //start Ethernet using dhcp
#endif
#endif
delay(1000);
#endif
/*
* FIRMATA SETUP
*/
Firmata.setFirmwareVersion(FIRMATA_FIRMWARE_MAJOR_VERSION, FIRMATA_FIRMWARE_MINOR_VERSION);
#ifdef FirmataExt_h
#ifdef DigitalInputFirmata_h
firmataExt.addFeature(digitalInput);
#endif
#ifdef DigitalOutputFirmata_h
firmataExt.addFeature(digitalOutput);
#endif
#ifdef AnalogInputFirmata_h
firmataExt.addFeature(analogInput);
#endif
#ifdef AnalogOutputFirmata_h
firmataExt.addFeature(analogOutput);
#endif
#ifdef ServoFirmata_h
firmataExt.addFeature(servo);
#endif
#ifdef I2CFirmata_h
firmataExt.addFeature(i2c);
#endif
#ifdef OneWireFirmata_h
firmataExt.addFeature(oneWire);
#endif
#ifdef StepperFirmata_h
firmataExt.addFeature(stepper);
#endif
#ifdef SerialFirmata_h
firmataExt.addFeature(serial);
#endif
#ifdef FirmataReporting_h
firmataExt.addFeature(reporting);
#endif
#ifdef FirmataScheduler_h
firmataExt.addFeature(scheduler);
#endif
#ifdef FirmataEncoder_h
firmataExt.addFeature(encoder);
#endif
#endif
/* systemResetCallback is declared here (in ConfigurableFirmata.ino) */
Firmata.attach(SYSTEM_RESET, systemResetCallback);
// Network Firmata communicates with Ethernet-shields over SPI. Therefor all
// SPI-pins must be set to PIN_MODE_IGNORE. Otherwise Firmata would break SPI-communication.
// add Pin 10 and configure pin 53 as output if using a MEGA with Ethernetshield.
// No need to ignore pin 10 on MEGA with ENC28J60, as here pin 53 should be connected to SS:
#ifdef NETWORK_FIRMATA
#ifndef _YUN_CLIENT_H_
// ignore SPI and pin 4 that is SS for SD-Card on Ethernet-shield
for (byte i = 0; i < TOTAL_PINS; i++) {
if (IS_PIN_SPI(i)
|| 4 == i // SD Card on Ethernet shield uses pin 4 for SS
|| 10 == i // Ethernet-shield uses pin 10 for SS
) {
Firmata.setPinMode(i, PIN_MODE_IGNORE);
}
}
// pinMode(PIN_TO_DIGITAL(53), OUTPUT); configure hardware-SS as output on MEGA
pinMode(PIN_TO_DIGITAL(4), OUTPUT); // switch off SD-card bypassing Firmata
digitalWrite(PIN_TO_DIGITAL(4), HIGH); // SS is active low;
#endif
#if defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
pinMode(PIN_TO_DIGITAL(53), OUTPUT); // configure hardware SS as output on MEGA
#endif
// start up Network Firmata:
Firmata.begin(stream);
#else
// Uncomment to save a couple of seconds by disabling the startup blink sequence.
// Firmata.disableBlinkVersion();
// start up the default Firmata using Serial interface:
Firmata.begin(57600);
#endif
systemResetCallback(); // reset to default config
}
/*==============================================================================
* LOOP()
*============================================================================*/
void loop()
{
#ifdef DigitalInputFirmata_h
/* DIGITALREAD - as fast as possible, check for changes and output them to the
* stream buffer using Firmata.write() */
digitalInput.report();
#endif
/* STREAMREAD - processing incoming message as soon as possible, while still
* checking digital inputs. */
while (Firmata.available()) {
Firmata.processInput();
#ifdef FirmataScheduler_h
if (!Firmata.isParsingMessage()) {
goto runtasks;
}
}
if (!Firmata.isParsingMessage()) {
runtasks: scheduler.runTasks();
#endif
}
/* SEND STREAM WRITE BUFFER - TO DO: make sure that the stream buffer doesn't go over
* 60 bytes. use a timer to sending an event character every 4 ms to
* trigger the buffer to dump. */
#ifdef FirmataReporting_h
if (reporting.elapsed()) {
#ifdef AnalogInputFirmata_h
/* ANALOGREAD - do all analogReads() at the configured sampling interval */
analogInput.report();
#endif
#ifdef I2CFirmata_h
// report i2c data for all device with read continuous mode enabled
i2c.report();
#endif
#ifdef FirmataEncoder_h
// report encoders positions if reporting enabled.
encoder.report();
#endif
}
#endif
#ifdef StepperFirmata_h
stepper.update();
#endif
#ifdef SerialFirmata_h
serial.update();
#endif
#if defined NETWORK_FIRMATA && !defined local_ip &&!defined _YUN_CLIENT_H_
// only necessary when using DHCP, ensures local IP is updated appropriately if it changes
if (Ethernet.maintain()) {
stream.maintain(Ethernet.localIP());
}
#endif
}

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libraries/FirmataWithDeviceFeature/examples/ConfigurableFirmataDeviceDriver/ConfigurableFirmataDeviceDriver.ino Normal file
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/*
Firmata is a generic protocol for communicating with microcontrollers
from software on a host computer. It is intended to work with
any host computer software package.
To download a host software package, please clink on the following link
to open the download page in your default browser.
https://github.com/firmata/ConfigurableFirmata#firmata-client-libraries
Copyright (C) 2006-2008 Hans-Christoph Steiner. All rights reserved.
Copyright (C) 2010-2011 Paul Stoffregen. All rights reserved.
Copyright (C) 2009 Shigeru Kobayashi. All rights reserved.
Copyright (C) 2013 Norbert Truchsess. All rights reserved.
Copyright (C) 2014 Nicolas Panel. All rights reserved.
Copyright (C) 2009-2016 Jeff Hoefs. All rights reserved.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
See file LICENSE.txt for further informations on licensing terms.
Last updated by Jeff Hoefs: January 23rd, 2016
This ConfigurableFirmataDeviceDriver.ino has been edited to include the
DeviceFirmata feature. None of the other features are installed.
Doug Johnson, June 2016
*/
/*
README
This is an example use of ConfigurableFirmata. The easiest way to create a configuration is to
use http://firmatabuilder.com and select the communication transport and the firmata features
to include and an Arduino sketch (.ino) file will be generated and downloaded automatically.
To manually configure a sketch, copy this file and follow the instructions in the
ETHERNET CONFIGURATION OPTION (if you want to use Ethernet instead of Serial/USB) and
FIRMATA FEATURE CONFIGURATION sections in this file.
*/
#include <ConfigurableFirmata.h>
/*==============================================================================
* ETHERNET CONFIGURATION OPTION
*
* By default Firmata uses the Serial-port (over USB) of the Arduino. ConfigurableFirmata may also
* comunicate over ethernet using tcp/ip. To configure this sketch to use Ethernet instead of
* Serial, uncomment the approprate includes for your particular hardware. See STEPS 1 - 5 below.
* If you want to use Serial (over USB) then skip ahead to the FIRMATA FEATURE CONFIGURATION
* section further down in this file.
*
* If you enable Ethernet, you will need a Firmata client library with a network transport that can
* act as a server in order to establish a connection between ConfigurableFirmataEthernet and the
* Firmata host application (your application).
*
* To use ConfigurableFirmata with Ethernet you will need to have one of the following
* boards or shields:
*
* - Arduino Ethernet shield (or clone)
* - Arduino Ethernet board (or clone)
* - Arduino Yun
*
* If you are using an Arduino Ethernet shield you cannot use the following pins on
* the following boards. Firmata will ignore any requests to use these pins:
*
* - Arduino Uno or other ATMega328 boards: (D4, D10, D11, D12, D13)
* - Arduino Mega: (D4, D10, D50, D51, D52, D53)
* - Arduino Leonardo: (D4, D10)
* - Arduino Due: (D4, D10)
* - Arduino Zero: (D4, D10)
*
* If you are using an ArduinoEthernet board, the following pins cannot be used (same as Uno):
* - D4, D10, D11, D12, D13
*============================================================================*/
// STEP 1 [REQUIRED]
// Uncomment / comment the appropriate set of includes for your hardware (OPTION A, B or C)
/*
* OPTION A: Configure for Arduino Ethernet board or Arduino Ethernet shield (or clone)
*
* To configure ConfigurableFirmata to use the an Arduino Ethernet Shield or Arduino Ethernet
* Board (both use the same WIZ5100-based Ethernet controller), uncomment the SPI and Ethernet
* includes below.
*/
//#include <SPI.h>
//#include <Ethernet.h>
/*
* OPTION B: Configure for a board or shield using an ENC28J60-based Ethernet controller,
* uncomment out the UIPEthernet include below.
*
* The UIPEthernet-library can be downloaded
* from: https://github.com/ntruchsess/arduino_uip
*/
//#include <UIPEthernet.h>
/*
* OPTION C: Configure for Arduino Yun
*
* The Ethernet port on the Arduino Yun board can be used with Firmata in this configuration.
* To execute StandardFirmataEthernet on Yun uncomment the Bridge and YunClient includes below.
*
* NOTE: in order to compile for the Yun you will also need to comment out some of the includes
* and declarations in the FIRMATA FEATURE CONFIGURATION section later in this file. Including all
* features exceeds the RAM and Flash memory of the Yun. Comment out anything you don't need.
*
* On Yun there's no need to configure local_ip and mac address as this is automatically
* configured on the linux-side of Yun.
*
* Establishing a connection with the Yun may take several seconds.
*/
//#include <Bridge.h>
//#include <YunClient.h>
#if defined ethernet_h || defined UIPETHERNET_H || defined _YUN_CLIENT_H_
#define NETWORK_FIRMATA
// STEP 2 [REQUIRED for all boards and shields]
// replace with IP of the server you want to connect to, comment out if using 'remote_host'
#define remote_ip IPAddress(192, 168, 0, 1)
// OR replace with hostname of server you want to connect to, comment out if using 'remote_ip'
// #define remote_host "server.local"
// STEP 3 [REQUIRED unless using Arduino Yun]
// Replace with the port that your server is listening on
#define remote_port 3030
// STEP 4 [REQUIRED unless using Arduino Yun OR if not using DHCP]
// Replace with your board or Ethernet shield's IP address
// Comment out if you want to use DHCP
#define local_ip IPAddress(192, 168, 0, 6)
// STEP 5 [REQUIRED unless using Arduino Yun]
// replace with Ethernet shield mac. Must be unique for your network
const byte mac[] = {0x90, 0xA2, 0xDA, 0x0D, 0x07, 0x02};
#endif
/*==============================================================================
* FIRMATA FEATURE CONFIGURATION
*
* Comment out the include and declaration for any features that you do not need
* below.
*
* WARNING: Including all of the following features (especially if also using
* Ethernet) may exceed the Flash and/or RAM of lower memory boards such as the
* Arduino Uno or Leonardo.
*============================================================================*/
//#include <DigitalInputFirmata.h>
//DigitalInputFirmata digitalInput;
//#include <DigitalOutputFirmata.h>
//DigitalOutputFirmata digitalOutput;
//#include <AnalogInputFirmata.h>
//AnalogInputFirmata analogInput;
//#include <AnalogOutputFirmata.h>
//AnalogOutputFirmata analogOutput;
//#include <Servo.h>
//#include <ServoFirmata.h>
//ServoFirmata servo;
//// ServoFirmata depends on AnalogOutputFirmata
//#if defined ServoFirmata_h && ! defined AnalogOutputFirmata_h
//#error AnalogOutputFirmata must be included to use ServoFirmata
//#endif
//
//#include <Wire.h>
//#include <I2CFirmata.h>
//I2CFirmata i2c;
//#include <OneWireFirmata.h>
//OneWireFirmata oneWire;
//#include <StepperFirmata.h>
//StepperFirmata stepper;
//#include <SerialFirmata.h>
//SerialFirmata serial;
#include <FirmataExt.h>
FirmataExt firmataExt;
//#include <FirmataScheduler.h>
//FirmataScheduler scheduler;
// To add Encoder support you must first install the FirmataEncoder and Encoder libraries:
// https://github.com/firmata/FirmataEncoder
// https://www.pjrc.com/teensy/td_libs_Encoder.html
// #include <Encoder.h>
// #include <FirmataEncoder.h>
// FirmataEncoder encoder;
#include "SelectedDeviceDrivers.h"
#include <DeviceFirmata.h>
DeviceFirmata deviceMgr;
/*===================================================================================
* END FEATURE CONFIGURATION - you should not need to change anything below this line
*==================================================================================*/
// dependencies. Do not comment out the following lines
#if defined AnalogOutputFirmata_h || defined ServoFirmata_h
#include <AnalogWrite.h>
#endif
#if defined AnalogInputFirmata_h || defined I2CFirmata_h || defined FirmataEncoder_h
#include <FirmataReporting.h>
FirmataReporting reporting;
#endif
// dependencies for Network Firmata. Do not comment out.
#ifdef NETWORK_FIRMATA
#if defined remote_ip && defined remote_host
#error "cannot define both remote_ip and remote_host at the same time!"
#endif
#include <EthernetClientStream.h>
#ifdef _YUN_CLIENT_H_
YunClient client;
#else
EthernetClient client;
#endif
#if defined remote_ip && !defined remote_host
#ifdef local_ip
EthernetClientStream stream(client, local_ip, remote_ip, NULL, remote_port);
#else
EthernetClientStream stream(client, IPAddress(0, 0, 0, 0), remote_ip, NULL, remote_port);
#endif
#endif
#if !defined remote_ip && defined remote_host
#ifdef local_ip
EthernetClientStream stream(client, local_ip, IPAddress(0, 0, 0, 0), remote_host, remote_port);
#else
EthernetClientStream stream(client, IPAddress(0, 0, 0, 0), IPAddress(0, 0, 0, 0), remote_host, remote_port);
#endif
#endif
#endif
/*==============================================================================
* FUNCTIONS
*============================================================================*/
void systemResetCallback()
{
// initialize a default state
// pins with analog capability default to analog input
// otherwise, pins default to digital output
for (byte i = 0; i < TOTAL_PINS; i++) {
if (IS_PIN_ANALOG(i)) {
#ifdef AnalogInputFirmata_h
// turns off pull-up, configures everything
Firmata.setPinMode(i, PIN_MODE_ANALOG);
#endif
} else if (IS_PIN_DIGITAL(i)) {
#ifdef DigitalOutputFirmata_h
// sets the output to 0, configures portConfigInputs
Firmata.setPinMode(i, OUTPUT);
#endif
}
}
#ifdef FirmataExt_h
firmataExt.reset();
#endif
}
/*==============================================================================
* SETUP()
*============================================================================*/
void setup()
{
/*
* ETHERNET SETUP
*/
#ifdef NETWORK_FIRMATA
#ifdef _YUN_CLIENT_H_
Bridge.begin();
#else
#ifdef local_ip
Ethernet.begin((uint8_t *)mac, local_ip); //start Ethernet
#else
Ethernet.begin((uint8_t *)mac); //start Ethernet using dhcp
#endif
#endif
delay(1000);
#endif
/*
* FIRMATA SETUP
*/
Firmata.setFirmwareVersion(FIRMATA_FIRMWARE_MAJOR_VERSION, FIRMATA_FIRMWARE_MINOR_VERSION);
#ifdef FirmataExt_h
#ifdef DigitalInputFirmata_h
firmataExt.addFeature(digitalInput);
#endif
#ifdef DigitalOutputFirmata_h
firmataExt.addFeature(digitalOutput);
#endif
#ifdef AnalogInputFirmata_h
firmataExt.addFeature(analogInput);
#endif
#ifdef AnalogOutputFirmata_h
firmataExt.addFeature(analogOutput);
#endif
#ifdef ServoFirmata_h
firmataExt.addFeature(servo);
#endif
#ifdef I2CFirmata_h
firmataExt.addFeature(i2c);
#endif
#ifdef OneWireFirmata_h
firmataExt.addFeature(oneWire);
#endif
#ifdef StepperFirmata_h
firmataExt.addFeature(stepper);
#endif
#ifdef SerialFirmata_h
firmataExt.addFeature(serial);
#endif
#ifdef FirmataReporting_h
firmataExt.addFeature(reporting);
#endif
#ifdef FirmataScheduler_h
firmataExt.addFeature(scheduler);
#endif
#ifdef FirmataEncoder_h
firmataExt.addFeature(encoder);
#endif
#ifdef DeviceFirmata_h
firmataExt.addFeature(deviceMgr);
#endif
#endif
/* systemResetCallback is declared here (in ConfigurableFirmata.ino) */
Firmata.attach(SYSTEM_RESET, systemResetCallback);
// Network Firmata communicates with Ethernet-shields over SPI. Therefor all
// SPI-pins must be set to PIN_MODE_IGNORE. Otherwise Firmata would break SPI-communication.
// add Pin 10 and configure pin 53 as output if using a MEGA with Ethernetshield.
// No need to ignore pin 10 on MEGA with ENC28J60, as here pin 53 should be connected to SS:
#ifdef NETWORK_FIRMATA
#ifndef _YUN_CLIENT_H_
// ignore SPI and pin 4 that is SS for SD-Card on Ethernet-shield
for (byte i = 0; i < TOTAL_PINS; i++) {
if (IS_PIN_SPI(i)
|| 4 == i // SD Card on Ethernet shield uses pin 4 for SS
|| 10 == i // Ethernet-shield uses pin 10 for SS
) {
Firmata.setPinMode(i, PIN_MODE_IGNORE);
}
}
// pinMode(PIN_TO_DIGITAL(53), OUTPUT); configure hardware-SS as output on MEGA
pinMode(PIN_TO_DIGITAL(4), OUTPUT); // switch off SD-card bypassing Firmata
digitalWrite(PIN_TO_DIGITAL(4), HIGH); // SS is active low;
#endif
#if defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
pinMode(PIN_TO_DIGITAL(53), OUTPUT); // configure hardware SS as output on MEGA
#endif
// start up Network Firmata:
Firmata.begin(stream);
#else
// Uncomment to save a couple of seconds by disabling the startup blink sequence.
// Firmata.disableBlinkVersion();
// start up the default Firmata using Serial interface:
Firmata.begin(57600);
#endif
systemResetCallback(); // reset to default config
}
/*==============================================================================
* LOOP()
*============================================================================*/
void loop()
{
#ifdef DigitalInputFirmata_h
/* DIGITALREAD - as fast as possible, check for changes and output them to the
* stream buffer using Firmata.write() */
digitalInput.report();
#endif
/* STREAMREAD - processing incoming message as soon as possible, while still
* checking digital inputs. */
while (Firmata.available()) {
Firmata.processInput();
#ifdef FirmataScheduler_h
if (!Firmata.isParsingMessage()) {
goto runtasks;
}
}
if (!Firmata.isParsingMessage()) {
runtasks: scheduler.runTasks();
#endif
}
/* SEND STREAM WRITE BUFFER - TO DO: make sure that the stream buffer doesn't go over
* 60 bytes. use a timer to sending an event character every 4 ms to
* trigger the buffer to dump. */
#ifdef FirmataReporting_h
if (reporting.elapsed()) {
#ifdef AnalogInputFirmata_h
/* ANALOGREAD - do all analogReads() at the configured sampling interval */
analogInput.report();
#endif
#ifdef I2CFirmata_h
// report i2c data for all device with read continuous mode enabled
i2c.report();
#endif
#ifdef FirmataEncoder_h
// report encoders positions if reporting enabled.
encoder.report();
#endif
}
#endif
#ifdef StepperFirmata_h
stepper.update();
#endif
#ifdef SerialFirmata_h
serial.update();
#endif
#ifdef DeviceFirmata_h
deviceMgr.update();
#endif
#if defined NETWORK_FIRMATA && !defined local_ip &&!defined _YUN_CLIENT_H_
// only necessary when using DHCP, ensures local IP is updated appropriately if it changes
if (Ethernet.maintain()) {
stream.maintain(Ethernet.localIP());
}
#endif
}

22
libraries/FirmataWithDeviceFeature/examples/ConfigurableFirmataDeviceDriver/SelectedDeviceDrivers.h Normal file
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@@ -0,0 +1,22 @@
#include <LuniLib.h>
// Device Drivers
//#include <DDMeta/DDMeta.h>
#include <DDHello/DDHello.h>
//#include <DDMCP9808/DDMCP9808.h>
//#include <DDServo/DDServo.h>
//#include <DDSensor/DDSensor.h>
//#include <DDStepper/DDStepper.h>
DeviceDriver *selectedDevices[] = {
// new DDMeta("Meta",1),
new DDHello("Hello",1),
// new DDMCP9808("MCP9808",1,0x18),
// new DDServo("Servo",2),
// new DDSensor("Chan",16),
// new DDStepper("Stepper",6),
0};

609
libraries/FirmataWithDeviceFeature/examples/ConfigurableFirmataWiFi/ConfigurableFirmataWiFi.ino Normal file
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@@ -0,0 +1,609 @@
/*
Firmata is a generic protocol for communicating with microcontrollers
from software on a host computer. It is intended to work with
any host computer software package.
To download a host software package, please clink on the following link
to open the download page in your default browser.
https://github.com/firmata/ConfigurableFirmata#firmata-client-libraries
Copyright (C) 2006-2008 Hans-Christoph Steiner. All rights reserved.
Copyright (C) 2010-2011 Paul Stoffregen. All rights reserved.
Copyright (C) 2009 Shigeru Kobayashi. All rights reserved.
Copyright (C) 2013 Norbert Truchsess. All rights reserved.
Copyright (C) 2014 Nicolas Panel. All rights reserved.
Copyright (C) 2015-2016 Jesse Frush. All rights reserved.
Copyright (C) 2009-2016 Jeff Hoefs. All rights reserved.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
See file LICENSE.txt for further informations on licensing terms.
Last updated by Jeff Hoefs: January 23rd, 2016
*/
/*
README
This is an example use of ConfigurableFirmata with WiFi. The easiest way to create a
configuration is use http://firmatabuilder.com and select the communication transport and the
firmata features to include and an Arduino sketch (.ino) file will be generated and downloaded
automatically.
To manually configure a sketch, follow the instructions in this file.
ConfigurableFirmataWiFi is a WiFi server application. You will need a Firmata client library with
a network transport in order to establish a connection with ConfigurableFirmataWiFi.
To use ConfigurableFirmataWiFi you will need to have one of the following
boards or shields:
- Arduino WiFi Shield (or clone)
- Arduino WiFi Shield 101
- Arduino MKR1000 board (built-in WiFi 101)
- Adafruit HUZZAH CC3000 WiFi Shield (support coming soon)
Follow the instructions in the WIFI CONFIGURATION section below to configure your particular
hardware.
Dependencies:
- WiFi Shield 101 requires version 0.7.0 or higher of the WiFi101 library (available in Arduino
1.6.8 or higher, or update the library via the Arduino Library Manager or clone from source:
https://github.com/arduino-libraries/WiFi101)
In order to use the WiFi Shield 101 with Firmata you will need a board with at least
35k of Flash memory. This means you cannot use the WiFi Shield 101 with an Arduino Uno
or any other ATmega328p-based microcontroller or with an Arduino Leonardo or other
ATmega32u4-based microcontroller. Some boards that will work are:
- Arduino Zero
- Arduino Due
- Arduino 101
- Arduino Mega
NOTE: If you are using an Arduino WiFi (legacy) shield you cannot use the following pins on
the following boards. Firmata will ignore any requests to use these pins:
- Arduino Uno or other ATMega328 boards: (D4, D7, D10, D11, D12, D13)
- Arduino Mega: (D4, D7, D10, D50, D51, D52, D53)
- Arduino Due, Zero or Leonardo: (D4, D7, D10)
If you are using an Arduino WiFi 101 shield you cannot use the following pins on the following
boards:
- Arduino Due or Zero: (D5, D7, D10)
- Arduino Mega: (D5, D7, D10, D50, D52, D53)
*/
#include "ConfigurableFirmata.h"
/*
* Uncomment the #define SERIAL_DEBUG line below to receive serial output messages relating to your
* connection that may help in the event of connection issues. If defined, some boards may not begin
* executing this sketch until the Serial console is opened.
*/
//#define SERIAL_DEBUG
#include "utility/firmataDebug.h"
#define WIFI_MAX_CONN_ATTEMPTS 3
/*==============================================================================
* WIFI CONFIGURATION
*
* You must configure your particular hardware. Follow the steps below.
*
* Currently ConfigurableFirmataWiFi is configured as a server. An option to
* configure as a client may be added in the future.
*============================================================================*/
// STEP 1 [REQUIRED]
// Uncomment / comment the appropriate set of includes for your hardware (OPTION A, B or C)
// Option A is enabled by default.
/*
* OPTION A: Configure for Arduino WiFi shield
*
* This will configure ConfigurableFirmataWiFi to use the original WiFi library (deprecated)
* provided with the Arduino IDE. It is supported by the Arduino WiFi shield (a discontinued
* product) and is compatible with 802.11 B/G networks.
*
* To configure ConfigurableFirmataWiFi to use the Arduino WiFi shield
* leave the #define below uncommented.
*/
#define ARDUINO_WIFI_SHIELD
//do not modify these next 4 lines
#ifdef ARDUINO_WIFI_SHIELD
#include "utility/WiFiStream.h"
WiFiStream stream;
#endif
/*
* OPTION B: Configure for WiFi 101
*
* This will configure ConfigurableFirmataWiFi to use the WiFi101 library, which works with the
* Arduino WiFi101 shield and devices that have the WiFi101 chip built in (such as the MKR1000). It
* is compatible with 802.11 B/G/N networks.
*
* To enable, uncomment the #define WIFI_101 below and verify the #define values under
* options A and C are commented out.
*
* IMPORTANT: You must have the WiFI 101 library installed. To easily install this library, open
* the library manager via: Arduino IDE Menus: Sketch > Include Library > Manage Libraries >
* filter search for "WiFi101" > Select the result and click 'install'
*/
//#define WIFI_101
//do not modify these next 4 lines
#ifdef WIFI_101
#include "utility/WiFi101Stream.h"
WiFi101Stream stream;
#endif
/*
* OPTION C: Configure for HUZZAH
*
* HUZZAH is not yet supported, this will be added in a later revision to ConfigurableFirmataWiFi
*/
//------------------------------
// TODO
//------------------------------
//#define HUZZAH_WIFI
// STEP 2 [REQUIRED for all boards and shields]
// replace this with your wireless network SSID
char ssid[] = "your_network_name";
// STEP 3 [OPTIONAL for all boards and shields]
// If you want to use a static IP (v4) address, uncomment the line below. You can also change the IP.
// If this line is commented out, the WiFi shield will attempt to get an IP from the DHCP server
// #define STATIC_IP_ADDRESS 192,168,1,113
// STEP 4 [REQUIRED for all boards and shields]
// define your port number here, you will need this to open a TCP connection to your Arduino
#define SERVER_PORT 3030
// STEP 5 [REQUIRED for all boards and shields]
// determine your network security type (OPTION A, B, or C). Option A is the most common, and the default.
/*
* OPTION A: WPA / WPA2
*
* WPA is the most common network security type. A passphrase is required to connect to this type.
*
* To enable, leave #define WIFI_WPA_SECURITY uncommented below, set your wpa_passphrase value
* appropriately, and do not uncomment the #define values under options B and C
*/
#define WIFI_WPA_SECURITY
#ifdef WIFI_WPA_SECURITY
char wpa_passphrase[] = "your_wpa_passphrase";
#endif //WIFI_WPA_SECURITY
/*
* OPTION B: WEP
*
* WEP is a less common (and regarded as less safe) security type. A WEP key and its associated
* index are required to connect to this type.
*
* To enable, Uncomment the #define below, set your wep_index and wep_key values appropriately, and
* verify the #define values under options A and C are commented out.
*/
//#define WIFI_WEP_SECURITY
#ifdef WIFI_WEP_SECURITY
//The wep_index below is a zero-indexed value.
//Valid indices are [0-3], even if your router/gateway numbers your keys [1-4].
byte wep_index = 0;
char wep_key[] = "your_wep_key";
#endif //WIFI_WEP_SECURITY
/*
* OPTION C: Open network (no security)
*
* Open networks have no security, can be connected to by any device that knows the ssid, and are
* unsafe.
*
* To enable, uncomment #define WIFI_NO_SECURITY below and verify the #define values
* under options A and B are commented out.
*/
//#define WIFI_NO_SECURITY
/*==============================================================================
* CONFIGURATION ERROR CHECK (don't change anything here)
*============================================================================*/
#if ((defined(ARDUINO_WIFI_SHIELD) && (defined(WIFI_101) || defined(HUZZAH_WIFI))) || (defined(WIFI_101) && defined(HUZZAH_WIFI)))
#error "you may not define more than one wifi device type in wifiConfig.h."
#endif //WIFI device type check
#if !(defined(ARDUINO_WIFI_SHIELD) || defined(WIFI_101) || defined(HUZZAH_WIFI))
#error "you must define a wifi device type in wifiConfig.h."
#endif
#if ((defined(WIFI_NO_SECURITY) && (defined(WIFI_WEP_SECURITY) || defined(WIFI_WPA_SECURITY))) || (defined(WIFI_WEP_SECURITY) && defined(WIFI_WPA_SECURITY)))
#error "you may not define more than one security type at the same time in wifiConfig.h."
#endif //WIFI_* security define check
#if !(defined(WIFI_NO_SECURITY) || defined(WIFI_WEP_SECURITY) || defined(WIFI_WPA_SECURITY))
#error "you must define a wifi security type in wifiConfig.h."
#endif //WIFI_* security define check
/*==============================================================================
* PIN IGNORE MACROS (don't change anything here)
*============================================================================*/
// ignore SPI pins, pin 5 (reset WiFi101 shield), pin 7 (WiFi handshake) and pin 10 (WiFi SS)
// also don't ignore SS pin if it's not pin 10
// TODO - need to differentiate between Arduino WiFi1 101 Shield and Arduino MKR1000
#define IS_IGNORE_WIFI101_SHIELD(p) ((p) == 10 || (IS_PIN_SPI(p) && (p) != SS) || (p) == 5 || (p) == 7)
// ignore SPI pins, pin 4 (SS for SD-Card on WiFi-shield), pin 7 (WiFi handshake) and pin 10 (WiFi SS)
#define IS_IGNORE_WIFI_SHIELD(p) ((IS_PIN_SPI(p) || (p) == 4) || (p) == 7 || (p) == 10)
/*==============================================================================
* FIRMATA FEATURE CONFIGURATION
*
* Comment out the include and declaration for any features that you do not need
* below.
*
* WARNING: Including all of the following features (especially if also using
* Ethernet) may exceed the Flash and/or RAM of lower memory boards such as the
* Arduino Uno or Leonardo.
*============================================================================*/
#include <DigitalInputFirmata.h>
DigitalInputFirmata digitalInput;
#include <DigitalOutputFirmata.h>
DigitalOutputFirmata digitalOutput;
#include <AnalogInputFirmata.h>
AnalogInputFirmata analogInput;
#include <AnalogOutputFirmata.h>
AnalogOutputFirmata analogOutput;
#include <Servo.h>
#include <ServoFirmata.h>
ServoFirmata servo;
// ServoFirmata depends on AnalogOutputFirmata
#if defined ServoFirmata_h && ! defined AnalogOutputFirmata_h
#error AnalogOutputFirmata must be included to use ServoFirmata
#endif
#include <Wire.h>
#include <I2CFirmata.h>
I2CFirmata i2c;
#include <OneWireFirmata.h>
OneWireFirmata oneWire;
#include <StepperFirmata.h>
StepperFirmata stepper;
#include <SerialFirmata.h>
SerialFirmata serial;
#include <FirmataExt.h>
FirmataExt firmataExt;
#include <FirmataScheduler.h>
FirmataScheduler scheduler;
// To add Encoder support you must first install the FirmataEncoder and Encoder libraries:
// https://github.com/firmata/FirmataEncoder
// https://www.pjrc.com/teensy/td_libs_Encoder.html
// #include <Encoder.h>
// #include <FirmataEncoder.h>
// FirmataEncoder encoder;
/*===================================================================================
* END FEATURE CONFIGURATION - you should not need to change anything below this line
*==================================================================================*/
// dependencies. Do not comment out the following lines
#if defined AnalogOutputFirmata_h || defined ServoFirmata_h
#include <AnalogWrite.h>
#endif
#if defined AnalogInputFirmata_h || defined I2CFirmata_h || defined FirmataEncoder_h
#include <FirmataReporting.h>
FirmataReporting reporting;
#endif
#ifdef STATIC_IP_ADDRESS
IPAddress local_ip(STATIC_IP_ADDRESS);
#endif
int wifiConnectionAttemptCounter = 0;
int wifiStatus = WL_IDLE_STATUS;
/*==============================================================================
* FUNCTIONS
*============================================================================*/
void systemResetCallback()
{
// initialize a default state
// pins with analog capability default to analog input
// otherwise, pins default to digital output
for (byte i = 0; i < TOTAL_PINS; i++) {
if (IS_PIN_ANALOG(i)) {
#ifdef AnalogInputFirmata_h
// turns off pull-up, configures everything
Firmata.setPinMode(i, PIN_MODE_ANALOG);
#endif
} else if (IS_PIN_DIGITAL(i)) {
#ifdef DigitalOutputFirmata_h
// sets the output to 0, configures portConfigInputs
Firmata.setPinMode(i, OUTPUT);
#endif
}
}
#ifdef FirmataExt_h
firmataExt.reset();
#endif
}
void printWifiStatus() {
#if defined(ARDUINO_WIFI_SHIELD) || defined(WIFI_101)
if ( WiFi.status() != WL_CONNECTED )
{
DEBUG_PRINT( "WiFi connection failed. Status value: " );
DEBUG_PRINTLN( WiFi.status() );
}
else
#endif //defined(ARDUINO_WIFI_SHIELD) || defined(WIFI_101)
{
// print the SSID of the network you're attached to:
DEBUG_PRINT( "SSID: " );
#if defined(ARDUINO_WIFI_SHIELD) || defined(WIFI_101)
DEBUG_PRINTLN( WiFi.SSID() );
#endif //defined(ARDUINO_WIFI_SHIELD) || defined(WIFI_101)
// print your WiFi shield's IP address:
DEBUG_PRINT( "IP Address: " );
#if defined(ARDUINO_WIFI_SHIELD) || defined(WIFI_101)
IPAddress ip = WiFi.localIP();
DEBUG_PRINTLN( ip );
#endif //defined(ARDUINO_WIFI_SHIELD) || defined(WIFI_101)
// print the received signal strength:
DEBUG_PRINT( "signal strength (RSSI): " );
#if defined(ARDUINO_WIFI_SHIELD) || defined(WIFI_101)
long rssi = WiFi.RSSI();
DEBUG_PRINT( rssi );
#endif //defined(ARDUINO_WIFI_SHIELD) || defined(WIFI_101)
DEBUG_PRINTLN( " dBm" );
}
}
/*==============================================================================
* SETUP()
*============================================================================*/
void setup()
{
/*
* WIFI SETUP
*/
DEBUG_BEGIN(9600);
/*
* This statement will clarify how a connection is being made
*/
DEBUG_PRINT( "ConfigurableFirmataWiFi will attempt a WiFi connection " );
#if defined(WIFI_101)
DEBUG_PRINTLN( "using the WiFi 101 library." );
#elif defined(ARDUINO_WIFI_SHIELD)
DEBUG_PRINTLN( "using the legacy WiFi library." );
#elif defined(HUZZAH_WIFI)
DEBUG_PRINTLN( "using the HUZZAH WiFi library." );
//else should never happen here as error-checking in wifiConfig.h will catch this
#endif //defined(WIFI_101)
/*
* Configure WiFi IP Address
*/
#ifdef STATIC_IP_ADDRESS
DEBUG_PRINT( "Using static IP: " );
DEBUG_PRINTLN( local_ip );
//you can also provide a static IP in the begin() functions, but this simplifies
//ifdef logic in this sketch due to support for all different encryption types.
stream.config( local_ip );
#else
DEBUG_PRINTLN( "IP will be requested from DHCP ..." );
#endif
/*
* Configure WiFi security
*/
#if defined(WIFI_WEP_SECURITY)
while (wifiStatus != WL_CONNECTED) {
DEBUG_PRINT( "Attempting to connect to WEP SSID: " );
DEBUG_PRINTLN(ssid);
wifiStatus = stream.begin( ssid, wep_index, wep_key, SERVER_PORT );
delay(5000); // TODO - determine minimum delay
if (++wifiConnectionAttemptCounter > WIFI_MAX_CONN_ATTEMPTS) break;
}
#elif defined(WIFI_WPA_SECURITY)
while (wifiStatus != WL_CONNECTED) {
DEBUG_PRINT( "Attempting to connect to WPA SSID: " );
DEBUG_PRINTLN(ssid);
wifiStatus = stream.begin(ssid, wpa_passphrase, SERVER_PORT);
delay(5000); // TODO - determine minimum delay
if (++wifiConnectionAttemptCounter > WIFI_MAX_CONN_ATTEMPTS) break;
}
#else //OPEN network
while (wifiStatus != WL_CONNECTED) {
DEBUG_PRINTLN( "Attempting to connect to open SSID: " );
DEBUG_PRINTLN(ssid);
wifiStatus = stream.begin(ssid, SERVER_PORT);
delay(5000); // TODO - determine minimum delay
if (++wifiConnectionAttemptCounter > WIFI_MAX_CONN_ATTEMPTS) break;
}
#endif //defined(WIFI_WEP_SECURITY)
DEBUG_PRINTLN( "WiFi setup done" );
printWifiStatus();
/*
* FIRMATA SETUP
*/
Firmata.setFirmwareVersion(FIRMATA_FIRMWARE_MAJOR_VERSION, FIRMATA_FIRMWARE_MINOR_VERSION);
#ifdef FirmataExt_h
#ifdef DigitalInputFirmata_h
firmataExt.addFeature(digitalInput);
#endif
#ifdef DigitalOutputFirmata_h
firmataExt.addFeature(digitalOutput);
#endif
#ifdef AnalogInputFirmata_h
firmataExt.addFeature(analogInput);
#endif
#ifdef AnalogOutputFirmata_h
firmataExt.addFeature(analogOutput);
#endif
#ifdef ServoFirmata_h
firmataExt.addFeature(servo);
#endif
#ifdef I2CFirmata_h
firmataExt.addFeature(i2c);
#endif
#ifdef OneWireFirmata_h
firmataExt.addFeature(oneWire);
#endif
#ifdef StepperFirmata_h
firmataExt.addFeature(stepper);
#endif
#ifdef SerialFirmata_h
firmataExt.addFeature(serial);
#endif
#ifdef FirmataReporting_h
firmataExt.addFeature(reporting);
#endif
#ifdef FirmataScheduler_h
firmataExt.addFeature(scheduler);
#endif
#ifdef FirmataEncoder_h
firmataExt.addFeature(encoder);
#endif
#endif
/* systemResetCallback is declared here (in ConfigurableFirmata.ino) */
Firmata.attach(SYSTEM_RESET, systemResetCallback);
// ConfigurableFirmataWiFi communicates with WiFi shields over SPI. Therefore all
// SPI pins must be set to IGNORE. Otherwise Firmata would break SPI communication.
// Additional pins may also need to be ignored depending on the particular board or
// shield in use.
for (byte i = 0; i < TOTAL_PINS; i++) {
#if defined(ARDUINO_WIFI_SHIELD)
if (IS_IGNORE_WIFI_SHIELD(i)
#if defined(__AVR_ATmega32U4__)
|| 24 == i // On Leonardo, pin 24 maps to D4 and pin 28 maps to D10
|| 28 == i
#endif //defined(__AVR_ATmega32U4__)
) {
#elif defined (WIFI_101)
if (IS_IGNORE_WIFI101_SHIELD(i)) {
#elif defined (HUZZAH_WIFI)
// TODO
if (false) {
#else
if (false) {
#endif
Firmata.setPinMode(i, PIN_MODE_IGNORE);
}
}
//Set up controls for the Arduino WiFi Shield SS for the SD Card
#ifdef ARDUINO_WIFI_SHIELD
// Arduino WiFi, Arduino WiFi Shield and Arduino Yun all have SD SS wired to D4
pinMode(PIN_TO_DIGITAL(4), OUTPUT); // switch off SD card bypassing Firmata
digitalWrite(PIN_TO_DIGITAL(4), HIGH); // SS is active low;
#if defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
pinMode(PIN_TO_DIGITAL(53), OUTPUT); // configure hardware SS as output on MEGA
#endif //defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
#endif //ARDUINO_WIFI_SHIELD
// start up Network Firmata:
Firmata.begin(stream);
systemResetCallback(); // reset to default config
}
/*==============================================================================
* LOOP()
*============================================================================*/
void loop()
{
#ifdef DigitalInputFirmata_h
/* DIGITALREAD - as fast as possible, check for changes and output them to the
* stream buffer using Firmata.write() */
digitalInput.report();
#endif
/* STREAMREAD - processing incoming message as soon as possible, while still
* checking digital inputs. */
while (Firmata.available()) {
Firmata.processInput();
#ifdef FirmataScheduler_h
if (!Firmata.isParsingMessage()) {
goto runtasks;
}
}
if (!Firmata.isParsingMessage()) {
runtasks: scheduler.runTasks();
#endif
}
// TODO - ensure that Stream buffer doesn't go over 60 bytes
#ifdef FirmataReporting_h
if (reporting.elapsed()) {
#ifdef AnalogInputFirmata_h
/* ANALOGREAD - do all analogReads() at the configured sampling interval */
analogInput.report();
#endif
#ifdef I2CFirmata_h
// report i2c data for all device with read continuous mode enabled
i2c.report();
#endif
#ifdef FirmataEncoder_h
// report encoders positions if reporting enabled.
encoder.report();
#endif
}
#endif
#ifdef StepperFirmata_h
stepper.update();
#endif
#ifdef SerialFirmata_h
serial.update();
#endif
// keep the WiFi connection live. Attempts to reconnect automatically if disconnected.
stream.maintain();
}