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/*
Firmata.cpp - Firmata library v2.5.3 - 2016-06-18
Copyright (c) 2006-2008 Hans-Christoph Steiner. 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.
*/
//******************************************************************************
//* Includes
//******************************************************************************
#include "CP_Firmata.h"
#include "HardwareSerial.h"
extern "C" {
#include <string.h>
#include <stdlib.h>
}
//******************************************************************************
//* Support Functions
//******************************************************************************
/**
* Split a 16-bit byte into two 7-bit values and write each value.
* @param value The 16-bit value to be split and written separately.
*/
void FirmataClass::sendValueAsTwo7bitBytes(int value)
{
FirmataStream->write(value & 0x7F); // LSB
FirmataStream->write(value >> 7 & 0x7F); // MSB
}
/**
* A helper method to write the beginning of a Sysex message transmission.
*/
void FirmataClass::startSysex(void)
{
FirmataStream->write(START_SYSEX);
}
/**
* A helper method to write the end of a Sysex message transmission.
*/
void FirmataClass::endSysex(void)
{
FirmataStream->write(END_SYSEX);
}
//******************************************************************************
//* Constructors
//******************************************************************************
/**
* The Firmata class.
* An instance named "Firmata" is created automatically for the user.
*/
FirmataClass::FirmataClass()
{
firmwareVersionCount = 0;
firmwareVersionVector = 0;
systemReset();
}
//******************************************************************************
//* Public Methods
//******************************************************************************
/**
* Initialize the default Serial transport at the default baud of 57600.
*/
void FirmataClass::begin(void)
{
begin(57600);
}
/**
* Initialize the default Serial transport and override the default baud.
* Sends the protocol version to the host application followed by the firmware version and name.
* blinkVersion is also called. To skip the call to blinkVersion, call Firmata.disableBlinkVersion()
* before calling Firmata.begin(baud).
* @param speed The baud to use. 57600 baud is the default value.
*/
void FirmataClass::begin(long speed)
{
Serial.begin(speed);
FirmataStream = &Serial;
blinkVersion();
printVersion(); // send the protocol version
printFirmwareVersion(); // send the firmware name and version
}
/**
* Reassign the Firmata stream transport.
* @param s A reference to the Stream transport object. This can be any type of
* transport that implements the Stream interface. Some examples include Ethernet, WiFi
* and other UARTs on the board (Serial1, Serial2, etc).
*/
void FirmataClass::begin(Stream &s)
{
FirmataStream = &s;
// do not call blinkVersion() here because some hardware such as the
// Ethernet shield use pin 13
printVersion();
printFirmwareVersion();
}
/**
* Send the Firmata protocol version to the Firmata host application.
*/
void FirmataClass::printVersion(void)
{
FirmataStream->write(REPORT_VERSION);
FirmataStream->write(FIRMATA_PROTOCOL_MAJOR_VERSION);
FirmataStream->write(FIRMATA_PROTOCOL_MINOR_VERSION);
}
/**
* Blink the Firmata protocol version to the onboard LEDs (if the board has an onboard LED).
* If VERSION_BLINK_PIN is not defined in Boards.h for a particular board, then this method
* does nothing.
* The first series of flashes indicates the firmware major version (2 flashes = 2).
* The second series of flashes indicates the firmware minor version (5 flashes = 5).
*/
void FirmataClass::blinkVersion(void)
{
#if defined(VERSION_BLINK_PIN)
if (blinkVersionDisabled) return;
// flash the pin with the protocol version
pinMode(VERSION_BLINK_PIN, OUTPUT);
strobeBlinkPin(VERSION_BLINK_PIN, FIRMATA_FIRMWARE_MAJOR_VERSION, 40, 210);
delay(250);
strobeBlinkPin(VERSION_BLINK_PIN, FIRMATA_FIRMWARE_MINOR_VERSION, 40, 210);
delay(125);
#endif
}
/**
* Provides a means to disable the version blink sequence on the onboard LED, trimming startup
* time by a couple of seconds.
* Call this before Firmata.begin(). It only applies when using the default Serial transport.
*/
void FirmataClass::disableBlinkVersion()
{
blinkVersionDisabled = true;
}
/**
* Sends the firmware name and version to the Firmata host application. The major and minor version
* numbers are the first 2 bytes in the message. The following bytes are the characters of the
* firmware name.
*/
void FirmataClass::printFirmwareVersion(void)
{
byte i;
if (firmwareVersionCount) { // make sure that the name has been set before reporting
startSysex();
FirmataStream->write(REPORT_FIRMWARE);
FirmataStream->write(firmwareVersionVector[0]); // major version number
FirmataStream->write(firmwareVersionVector[1]); // minor version number
for (i = 2; i < firmwareVersionCount; ++i) {
sendValueAsTwo7bitBytes(firmwareVersionVector[i]);
}
endSysex();
}
}
/**
* Sets the name and version of the firmware. This is not the same version as the Firmata protocol
* (although at times the firmware version and protocol version may be the same number).
* @param name A pointer to the name char array
* @param major The major version number
* @param minor The minor version number
*/
void FirmataClass::setFirmwareNameAndVersion(const char *name, byte major, byte minor)
{
const char *firmwareName;
const char *extension;
// parse out ".cpp" and "applet/" that comes from using __FILE__
extension = strstr(name, ".cpp");
firmwareName = strrchr(name, '/');
if (!firmwareName) {
// windows
firmwareName = strrchr(name, '\\');
}
if (!firmwareName) {
// user passed firmware name
firmwareName = name;
} else {
firmwareName ++;
}
if (!extension) {
firmwareVersionCount = strlen(firmwareName) + 2;
} else {
firmwareVersionCount = extension - firmwareName + 2;
}
// in case anyone calls setFirmwareNameAndVersion more than once
free(firmwareVersionVector);
firmwareVersionVector = (byte *) malloc(firmwareVersionCount + 1);
firmwareVersionVector[firmwareVersionCount] = 0;
firmwareVersionVector[0] = major;
firmwareVersionVector[1] = minor;
strncpy((char *)firmwareVersionVector + 2, firmwareName, firmwareVersionCount - 2);
}
//------------------------------------------------------------------------------
// Serial Receive Handling
/**
* A wrapper for Stream::available()
* @return The number of bytes remaining in the input stream buffer.
*/
int FirmataClass::available(void)
{
return FirmataStream->available();
}
/**
* Process incoming sysex messages. Handles REPORT_FIRMWARE and STRING_DATA internally.
* Calls callback function for STRING_DATA and all other sysex messages.
* @private
*/
void FirmataClass::processSysexMessage(void)
{
switch (storedInputData[0]) { //first byte in buffer is command
case REPORT_FIRMWARE:
printFirmwareVersion();
break;
case STRING_DATA:
if (currentStringCallback) {
byte bufferLength = (sysexBytesRead - 1) / 2;
byte i = 1;
byte j = 0;
while (j < bufferLength) {
// The string length will only be at most half the size of the
// stored input buffer so we can decode the string within the buffer.
storedInputData[j] = storedInputData[i];
i++;
storedInputData[j] += (storedInputData[i] << 7);
i++;
j++;
}
// Make sure string is null terminated. This may be the case for data
// coming from client libraries in languages that don't null terminate
// strings.
if (storedInputData[j - 1] != '\0') {
storedInputData[j] = '\0';
}
(*currentStringCallback)((char *)&storedInputData[0]);
}
break;
default:
if (currentSysexCallback)
(*currentSysexCallback)(storedInputData[0], sysexBytesRead - 1, storedInputData + 1);
}
}
/**
* Read a single int from the input stream. If the value is not = -1, pass it on to parse(byte)
*/
void FirmataClass::processInput(void)
{
int inputData = FirmataStream->read(); // this is 'int' to handle -1 when no data
if (inputData != -1) {
parse(inputData);
}
}
/**
* Parse data from the input stream.
* @param inputData A single byte to be added to the parser.
*/
void FirmataClass::parse(byte inputData)
{
int command;
if (parsingSysex) {
if (inputData == END_SYSEX) {
//stop sysex byte
parsingSysex = false;
//fire off handler function
processSysexMessage();
} else {
//normal data byte - add to buffer
storedInputData[sysexBytesRead] = inputData;
sysexBytesRead++;
}
} else if ( (waitForData > 0) && (inputData < 128) ) {
waitForData--;
storedInputData[waitForData] = inputData;
if ( (waitForData == 0) && executeMultiByteCommand ) { // got the whole message
switch (executeMultiByteCommand) {
case ANALOG_MESSAGE:
if (currentAnalogCallback) {
(*currentAnalogCallback)(multiByteChannel,
(storedInputData[0] << 7)
+ storedInputData[1]);
}
break;
case DIGITAL_MESSAGE:
if (currentDigitalCallback) {
(*currentDigitalCallback)(multiByteChannel,
(storedInputData[0] << 7)
+ storedInputData[1]);
}
break;
case SET_PIN_MODE:
if (currentPinModeCallback)
(*currentPinModeCallback)(storedInputData[1], storedInputData[0]);
break;
case SET_DIGITAL_PIN_VALUE:
if (currentPinValueCallback)
(*currentPinValueCallback)(storedInputData[1], storedInputData[0]);
break;
case REPORT_ANALOG:
if (currentReportAnalogCallback)
(*currentReportAnalogCallback)(multiByteChannel, storedInputData[0]);
break;
case REPORT_DIGITAL:
if (currentReportDigitalCallback)
(*currentReportDigitalCallback)(multiByteChannel, storedInputData[0]);
break;
}
executeMultiByteCommand = 0;
}
} else {
// remove channel info from command byte if less than 0xF0
if (inputData < 0xF0) {
command = inputData & 0xF0;
multiByteChannel = inputData & 0x0F;
} else {
command = inputData;
// commands in the 0xF* range don't use channel data
}
switch (command) {
case ANALOG_MESSAGE:
case DIGITAL_MESSAGE:
case SET_PIN_MODE:
case SET_DIGITAL_PIN_VALUE:
waitForData = 2; // two data bytes needed
executeMultiByteCommand = command;
break;
case REPORT_ANALOG:
case REPORT_DIGITAL:
waitForData = 1; // one data byte needed
executeMultiByteCommand = command;
break;
case START_SYSEX:
parsingSysex = true;
sysexBytesRead = 0;
break;
case SYSTEM_RESET:
systemReset();
break;
case REPORT_VERSION:
Firmata.printVersion();
break;
}
}
}
/**
* @return Returns true if the parser is actively parsing data.
*/
boolean FirmataClass::isParsingMessage(void)
{
return (waitForData > 0 || parsingSysex);
}
//------------------------------------------------------------------------------
// Output Stream Handling
/**
* Send an analog message to the Firmata host application. The range of pins is limited to [0..15]
* when using the ANALOG_MESSAGE. The maximum value of the ANALOG_MESSAGE is limited to 14 bits
* (16384). To increase the pin range or value, see the documentation for the EXTENDED_ANALOG
* message.
* @param pin The analog pin to send the value of (limited to pins 0 - 15).
* @param value The value of the analog pin (0 - 1024 for 10-bit analog, 0 - 4096 for 12-bit, etc).
* The maximum value is 14-bits (16384).
*/
void FirmataClass::sendAnalog(byte pin, int value)
{
// pin can only be 0-15, so chop higher bits
FirmataStream->write(ANALOG_MESSAGE | (pin & 0xF));
sendValueAsTwo7bitBytes(value);
}
/* (intentionally left out asterix here)
* STUB - NOT IMPLEMENTED
* Send a single digital pin value to the Firmata host application.
* @param pin The digital pin to send the value of.
* @param value The value of the pin.
*/
void FirmataClass::sendDigital(byte pin, int value)
{
/* TODO add single pin digital messages to the protocol, this needs to
* track the last digital data sent so that it can be sure to change just
* one bit in the packet. This is complicated by the fact that the
* numbering of the pins will probably differ on Arduino, Wiring, and
* other boards.
*/
// TODO: the digital message should not be sent on the serial port every
// time sendDigital() is called. Instead, it should add it to an int
// which will be sent on a schedule. If a pin changes more than once
// before the digital message is sent on the serial port, it should send a
// digital message for each change.
// if(value == 0)
// sendDigitalPortPair();
}
/**
* Send an 8-bit port in a single digital message (protocol v2 and later).
* Send 14-bits in a single digital message (protocol v1).
* @param portNumber The port number to send. Note that this is not the same as a "port" on the
* physical microcontroller. Ports are defined in order per every 8 pins in ascending order
* of the Arduino digital pin numbering scheme. Port 0 = pins D0 - D7, port 1 = pins D8 - D15, etc.
* @param portData The value of the port. The value of each pin in the port is represented by a bit.
*/
void FirmataClass::sendDigitalPort(byte portNumber, int portData)
{
FirmataStream->write(DIGITAL_MESSAGE | (portNumber & 0xF));
FirmataStream->write((byte)portData % 128); // Tx bits 0-6 (protocol v1 and higher)
FirmataStream->write(portData >> 7); // Tx bits 7-13 (bit 7 only for protocol v2 and higher)
}
/**
* Send a sysex message where all values after the command byte are packet as 2 7-bit bytes
* (this is not always the case so this function is not always used to send sysex messages).
* @param command The sysex command byte.
* @param bytec The number of data bytes in the message (excludes start, command and end bytes).
* @param bytev A pointer to the array of data bytes to send in the message.
*/
void FirmataClass::sendSysex(byte command, byte bytec, byte *bytev)
{
byte i;
startSysex();
FirmataStream->write(command);
for (i = 0; i < bytec; i++) {
sendValueAsTwo7bitBytes(bytev[i]);
}
endSysex();
}
/**
* Send a string to the Firmata host application.
* @param command Must be STRING_DATA
* @param string A pointer to the char string
*/
void FirmataClass::sendString(byte command, const char *string)
{
if (command == STRING_DATA) {
sendSysex(command, strlen(string), (byte *)string);
}
}
/**
* Send a string to the Firmata host application.
* @param string A pointer to the char string
*/
void FirmataClass::sendString(const char *string)
{
sendString(STRING_DATA, string);
}
/**
* A wrapper for Stream::available().
* Write a single byte to the output stream.
* @param c The byte to be written.
*/
void FirmataClass::write(byte c)
{
FirmataStream->write(c);
}
/**
* Attach a generic sysex callback function to a command (options are: ANALOG_MESSAGE,
* DIGITAL_MESSAGE, REPORT_ANALOG, REPORT DIGITAL, SET_PIN_MODE and SET_DIGITAL_PIN_VALUE).
* @param command The ID of the command to attach a callback function to.
* @param newFunction A reference to the callback function to attach.
*/
void FirmataClass::attach(byte command, callbackFunction newFunction)
{
switch (command) {
case ANALOG_MESSAGE: currentAnalogCallback = newFunction; break;
case DIGITAL_MESSAGE: currentDigitalCallback = newFunction; break;
case REPORT_ANALOG: currentReportAnalogCallback = newFunction; break;
case REPORT_DIGITAL: currentReportDigitalCallback = newFunction; break;
case SET_PIN_MODE: currentPinModeCallback = newFunction; break;
case SET_DIGITAL_PIN_VALUE: currentPinValueCallback = newFunction; break;
}
}
/**
* Attach a callback function for the SYSTEM_RESET command.
* @param command Must be set to SYSTEM_RESET or it will be ignored.
* @param newFunction A reference to the system reset callback function to attach.
*/
void FirmataClass::attach(byte command, systemResetCallbackFunction newFunction)
{
switch (command) {
case SYSTEM_RESET: currentSystemResetCallback = newFunction; break;
}
}
/**
* Attach a callback function for the STRING_DATA command.
* @param command Must be set to STRING_DATA or it will be ignored.
* @param newFunction A reference to the string callback function to attach.
*/
void FirmataClass::attach(byte command, stringCallbackFunction newFunction)
{
switch (command) {
case STRING_DATA: currentStringCallback = newFunction; break;
}
}
/**
* Attach a generic sysex callback function to sysex command.
* @param command The ID of the command to attach a callback function to.
* @param newFunction A reference to the sysex callback function to attach.
*/
void FirmataClass::attach(byte command, sysexCallbackFunction newFunction)
{
currentSysexCallback = newFunction;
}
/**
* Detach a callback function for a specified command (such as SYSTEM_RESET, STRING_DATA,
* ANALOG_MESSAGE, DIGITAL_MESSAGE, etc).
* @param command The ID of the command to detatch the callback function from.
*/
void FirmataClass::detach(byte command)
{
switch (command) {
case SYSTEM_RESET: currentSystemResetCallback = NULL; break;
case STRING_DATA: currentStringCallback = NULL; break;
case START_SYSEX: currentSysexCallback = NULL; break;
default:
attach(command, (callbackFunction)NULL);
}
}
/**
* @param pin The pin to get the configuration of.
* @return The configuration of the specified pin.
*/
byte FirmataClass::getPinMode(byte pin)
{
return pinConfig[pin];
}
/**
* Set the pin mode/configuration. The pin configuration (or mode) in Firmata represents the
* current function of the pin. Examples are digital input or output, analog input, pwm, i2c,
* serial (uart), etc.
* @param pin The pin to configure.
* @param config The configuration value for the specified pin.
*/
void FirmataClass::setPinMode(byte pin, byte config)
{
if (pinConfig[pin] == PIN_MODE_IGNORE)
return;
pinConfig[pin] = config;
}
/**
* @param pin The pin to get the state of.
* @return The state of the specified pin.
*/
int FirmataClass::getPinState(byte pin)
{
return pinState[pin];
}
/**
* Set the pin state. The pin state of an output pin is the pin value. The state of an
* input pin is 0, unless the pin has it's internal pull up resistor enabled, then the value is 1.
* @param pin The pin to set the state of
* @param state Set the state of the specified pin
*/
void FirmataClass::setPinState(byte pin, int state)
{
pinState[pin] = state;
}
// sysex callbacks
/*
* this is too complicated for analogReceive, but maybe for Sysex?
void FirmataClass::attachSysex(sysexFunction newFunction)
{
byte i;
byte tmpCount = analogReceiveFunctionCount;
analogReceiveFunction* tmpArray = analogReceiveFunctionArray;
analogReceiveFunctionCount++;
analogReceiveFunctionArray = (analogReceiveFunction*) calloc(analogReceiveFunctionCount, sizeof(analogReceiveFunction));
for(i = 0; i < tmpCount; i++) {
analogReceiveFunctionArray[i] = tmpArray[i];
}
analogReceiveFunctionArray[tmpCount] = newFunction;
free(tmpArray);
}
*/
//******************************************************************************
//* Private Methods
//******************************************************************************
/**
* Resets the system state upon a SYSTEM_RESET message from the host software.
* @private
*/
void FirmataClass::systemReset(void)
{
byte i;
waitForData = 0; // this flag says the next serial input will be data
executeMultiByteCommand = 0; // execute this after getting multi-byte data
multiByteChannel = 0; // channel data for multiByteCommands
for (i = 0; i < MAX_DATA_BYTES; i++) {
storedInputData[i] = 0;
}
parsingSysex = false;
sysexBytesRead = 0;
if (currentSystemResetCallback)
(*currentSystemResetCallback)();
}
/**
* Flashing the pin for the version number
* @private
* @param pin The pin the LED is attached to.
* @param count The number of times to flash the LED.
* @param onInterval The number of milliseconds for the LED to be ON during each interval.
* @param offInterval The number of milliseconds for the LED to be OFF during each interval.
*/
void FirmataClass::strobeBlinkPin(byte pin, int count, int onInterval, int offInterval)
{
byte i;
for (i = 0; i < count; i++) {
delay(offInterval);
digitalWrite(pin, HIGH);
delay(onInterval);
digitalWrite(pin, LOW);
}
}
// make one instance for the user to use
FirmataClass Firmata;