rf24-pio/RF24.h

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/*
Copyright (C) 2011 James Coliz, Jr. <maniacbug@ymail.com>
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
version 2 as published by the Free Software Foundation.
*/
#ifndef __RF24_H__
#define __RF24_H__
#include <inttypes.h>
/**
* Driver for nRF24L01 2.4GHz Wireless Transceiver
*/
class RF24
{
private:
uint8_t ce_pin; /**< "Chip Enable" pin, activates the RX or TX role */
uint8_t csn_pin; /**< SPI Chip select */
uint8_t payload_size; /**< Fixed size of payloads */
boolean ack_packet_available; /**< Whether there is an ack packet waiting */
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protected:
/**
* @name Low-level internal interface.
*
* Protected methods that address the chip directly.
*/
/**@{*/
/**
* Set chip select pin
*
* @param mode HIGH to take this unit off the SPI bus, LOW to put it on
*/
void csn(int mode) ;
/**
* Set chip enable
*
* @param mode HIGH to actively begin transmission or LOW to put in standby. Please see data sheet
* for a much more detailed description of this pin.
*/
void ce(int mode);
/**
* Read a chunk of data in from a register
*
* @param reg Which register. Use constants from nRF24L01.h
* @param buf Where to put the data
* @param len How many bytes of data to transfer
* @return Current value of status register
*/
uint8_t read_register(uint8_t reg, uint8_t* buf, uint8_t len) ;
uint8_t read_register(uint8_t reg) ;
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/**
* Write a chunk of data to a register
*
* @param reg Which register. Use constants from nRF24L01.h
* @param buf Where to get the data
* @param len How many bytes of data to transfer
* @return Current value of status register
*/
uint8_t write_register(uint8_t reg, const uint8_t* buf, uint8_t len);
/**
* Write a single byte to a register
*
* @param reg Which register. Use constants from nRF24L01.h
* @param value The new value to write
* @return Current value of status register
*/
uint8_t write_register(uint8_t reg, uint8_t value);
/**
* Write the transmit payload
*
* The size of data written is the fixed payload size, see getPayloadSize()
*
* @param buf Where to get the data
* @param len Number of bytes to be sent
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* @return Current value of status register
*/
uint8_t write_payload(const void* buf, uint8_t len);
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/**
* Read the receive payload
*
* The size of data read is the fixed payload size, see getPayloadSize()
*
* @param buf Where to put the data
* @param len Maximum number of bytes to read
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* @return Current value of status register
*/
uint8_t read_payload(void* buf, uint8_t len) ;
public:
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/**
* Empty the receive buffer
*
* @return Current value of status register
*/
uint8_t flush_rx(void);
/**
* Empty the transmit buffer
*
* @return Current value of status register
*/
uint8_t flush_tx(void);
protected:
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/**
* Retrieve the current status of the chip
*
* @return Current value of status register
*/
uint8_t get_status(void) ;
/**
* Decode and print the given status to stdout
*
* @param status Status value to print
*
* @warning Does nothing if stdout is not defined. See fdevopen in stdio.h
*/
void print_status(uint8_t status) ;
/**
* Decode and print the given 'observe_tx' value to stdout
*
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* @param value The observe_tx value to print
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*
* @warning Does nothing if stdout is not defined. See fdevopen in stdio.h
*/
void print_observe_tx(uint8_t value) ;
void toggle_features(void);
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/**@}*/
public:
/**
* Constructor
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*
* Creates a new instance of this driver. Before using, you create an instance
* and send in the unique pins that this chip is connected to.
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*
* @param _cepin The pin attached to Chip Enable on the RF module
* @param _cspin The pin attached to Chip Select
*/
RF24(uint8_t _cepin, uint8_t _cspin);
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/**
* Begin operation of the chip
*
* Call this in setup(), before calling any other methods.
*/
void begin(void);
/**
* Set RF communication channel
*
* @param channel Which RF channel to communicate on, 0-127
*/
void setChannel(uint8_t channel);
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/**
* Set Payload Size
*
* This implementation uses a pre-stablished fixed payload size for all
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* transmissions. If this method is never called, the driver will always
* transmit the maximum payload size (32 bytes), no matter how much
* was sent to write().
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*
* @todo Implement variable-sized payloads feature
*
* @param size The number of bytes in the payload
*/
void setPayloadSize(uint8_t size);
/**
* Get Payload Size
*
* @see setPayloadSize()
*
* @return The number of bytes in the payload
*/
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uint8_t getPayloadSize(void) ;
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/**
* Print a giant block of debugging information to stdout
*
* @warning Does nothing if stdout is not defined. See fdevopen in stdio.h
*/
void printDetails(void) ;
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/**
* Start listening on the pipes opened for reading.
*
* Be sure to open some pipes for reading first. Do not call 'write'
* while in this mode, without first calling 'stopListening'.
*/
void startListening(void);
/**
* Stop listening for incoming messages
*
* Necessary to do this before writing.
*/
void stopListening(void);
/**
* Write to the open writing pipe
*
* This blocks until the message is successfully acknowledged by
* the receiver or the timeout/retransmit maxima are reached. In
* the current configuration, the max delay here is 60ms.
*
* The maximum size of data written is the fixed payload size, see
* getPayloadSize(). However, you can write less, and the remainder
* will just be filled with zeroes.
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*
* @param buf Pointer to the data to be sent
* @param len Number of bytes to be sent
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* @return True if the payload was delivered successfully false if not
*/
boolean write( const void* buf, uint8_t len );
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/**
* Test whether there are bytes available to be read
*
* @return True if there is a payload available, false if none is
*/
boolean available(void) ;
/**
* Test whether there are bytes available to be read
*
* @param[out] pipe_num Which pipe has the payload available
* @return True if there is a payload available, false if none is
*/
boolean available(uint8_t* pipe_num);
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/**
* Read the payload
*
* Return the last payload received
*
* The size of data read is the fixed payload size, see getPayloadSize()
*
* @note I specifically chose 'void*' as a data type to make it easier
* for beginners to use. No casting needed.
*
* @param buf Pointer to a buffer where the data should be written
* @param len Maximum number of bytes to read into the buffer
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* @return True if the payload was delivered successfully false if not
*/
boolean read( void* buf, uint8_t len ) ;
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/**
* Open a pipe for writing
*
* Only one pipe can be open at once, but you can change the pipe
* you'll listen to. Do not call this while actively listening.
* Remember to stopListening() first.
*
* Addresses are 40-bit hex values, e.g.:
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*
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* @code
* openWritingPipe(0xF0F0F0F0F0);
* @endcode
*
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* @param address The 40-bit address of the pipe to open. This can be
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* any value whatsoever, as long as you are the only one writing to it
* and only one other radio is listening to it. Coordinate these pipe
* addresses amongst nodes on the network.
*/
void openWritingPipe(uint64_t address);
/**
* Open a pipe for reading
*
* Up to 5 pipes can be open for reading at once. Open all the
* reading pipes, and then call startListening().
*
* @see openWritingPipe
*
* @warning all 5 reading pipes should share the first 32 bits.
* Only the least significant byte should be unique, e.g.
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*
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* @code
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* openReadingPipe(1,0xF0F0F0F0AA);
* openReadingPipe(2,0xF0F0F0F066);
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* @endcode
*
* @todo Enforce the restriction that all pipes must share the top 32 bits
*
* @param number Which pipe# to open, 1-5.
* @param address The 40-bit address of the pipe to open.
*/
void openReadingPipe(uint8_t number, uint64_t address);
void enableAckPayload(void);
void writeAckPayload(uint8_t pipe, const void* buf, uint8_t len);
boolean isAckPayloadAvailable(void);
};
/**
* @example pingpair.pde
*
* This is an example of how to use the RF24 class. Write this sketch to two different nodes,
* connect the role_pin to ground on one. The ping node sends the current time to the pong node,
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* which responds by sending the value back. The ping node can then see how long the whole cycle
* took.
*/
/**
* @example starping.pde
*
* This sketch is a more complex example of using the RF24 library for Arduino.
* Deploy this on up to six nodes. Set one as the 'pong receiver' by tying the
* role_pin low, and the others will be 'ping transmit' units. The ping units
* unit will send out the value of millis() once a second. The pong unit will
* respond back with a copy of the value. Each ping unit can get that response
* back, and determine how long the whole cycle took.
*
* This example requires a bit more complexity to determine which unit is which.
* The pong receiver is identified by having its role_pin tied to ground.
* The ping senders are further differentiated by a byte in eeprom.
*/
/**
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* @mainpage Driver for nRF24L01 2.4GHz Wireless Transceiver
*
* Design Goals: This library is designed to be...
* @li Maximally compliant with the intended operation of the chip
* @li Easy for beginners to use
* @li Consumed with a public interface that's similiar to other Arduino standard libraries
* @li Built against the standard SPI library.
*
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* Please refer to:
*
* @li <a href="http://maniacbug.github.com/RF24/">Documentation Main Page</a>
* @li <a href="http://maniacbug.github.com/RF24/classRF24.html">RF24 Class Documentation</a>
* @li <a href="https://github.com/maniacbug/RF24/">Source Code</a>
* @li <a href="https://github.com/maniacbug/RF24/archives/master">Downloads Page</a>
* @li <a href="http://www.nordicsemi.com/files/Product/data_sheet/nRF24L01_Product_Specification_v2_0.pdf">Chip Datasheet</a>
*
* This chip uses the SPI bus, plus two chip control pins. Remember that pin 10 must still remain an output, or
* the SPI hardware will go into 'slave' mode.
*/
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#endif // __RF24_H__
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// vim:ai:cin:sts=2 sw=2 ft=cpp
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