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RH_MRF89.h
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RH_MRF89.h
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// RH_MRF89.h
//
// Definitions for Microchip MRF89XA family radios radios per:
// http://ww1.microchip.com/downloads/en/DeviceDoc/70622C.pdf
// http://ww1.microchip.com/downloads/en/DeviceDoc/75017B.pdf
//
// Author: Mike McCauley ([email protected])
// Copyright (C) 2015 Mike McCauley
// $Id: RH_MRF89.h,v 1.7 2017/07/25 05:26:50 mikem Exp $
//
#ifndef RH_RF95_h
#define RH_RF95_h
#include <RHNRFSPIDriver.h>
// This is the maximum number of interrupts the driver can support
// Most Arduinos can handle 2, Megas can handle more
#define RH_MRF89_NUM_INTERRUPTS 3
// Max number of octets the MRF89XA Rx/Tx FIFO can hold
#define RH_MRF89_FIFO_SIZE 64
// This is the maximum number of bytes that can be carried by the MRF89XA.
// We use some for headers, keeping fewer for RadioHead messages
#define RH_MRF89_MAX_PAYLOAD_LEN RH_MRF89_FIFO_SIZE
// The length of the headers we add.
// The headers are inside the MRF89XA payload
#define RH_MRF89_HEADER_LEN 4
// This is the maximum user message length that can be supported by this driver.
// Can be pre-defined to a smaller size (to save SRAM) prior to including this header
// Here we allow for 4 bytes headers, user data. Message length and CRC are automatically encoded and decoded by
// the MRF89XA
#ifndef RH_MRF89_MAX_MESSAGE_LEN
#define RH_MRF89_MAX_MESSAGE_LEN (RH_MRF89_MAX_PAYLOAD_LEN - RH_MRF89_HEADER_LEN)
#endif
// Bits that must be set to do a SPI read
#define RH_MRF89_SPI_READ_MASK 0x40
// The MRF89XA crystal frequency in MHz
#define RH_MRF89_XTAL_FREQ 12.8
// Register names from Figure 2-18
#define RH_MRF89_REG_00_GCONREG 0x00
#define RH_MRF89_REG_01_DMODREG 0x01
#define RH_MRF89_REG_02_FDEVREG 0x02
#define RH_MRF89_REG_03_BRSREG 0x03
#define RH_MRF89_REG_04_FLTHREG 0x04
#define RH_MRF89_REG_05_FIFOCREG 0x05
#define RH_MRF89_REG_06_R1CREG 0x06
#define RH_MRF89_REG_07_P1CREG 0x07
#define RH_MRF89_REG_08_S1CREG 0x08
#define RH_MRF89_REG_09_R2CREG 0x09
#define RH_MRF89_REG_0A_P2CREG 0x0a
#define RH_MRF89_REG_0B_S2CREG 0x0b
#define RH_MRF89_REG_0C_PACREG 0x0c
#define RH_MRF89_REG_0D_FTXRXIREG 0x0d
#define RH_MRF89_REG_0E_FTPRIREG 0x0e
#define RH_MRF89_REG_0F_RSTHIREG 0x0f
#define RH_MRF89_REG_10_FILCREG 0x10
#define RH_MRF89_REG_11_PFCREG 0x11
#define RH_MRF89_REG_12_SYNCREG 0x12
// Hmm the addresses of the next 2 is ambiguous in the docs
// this seems to agree with whats in the chip:
#define RH_MRF89_REG_13_RSVREG 0x13
#define RH_MRF89_REG_14_RSTSREG 0x14
#define RH_MRF89_REG_15_OOKCREG 0x15
#define RH_MRF89_REG_16_SYNCV31REG 0x16
#define RH_MRF89_REG_17_SYNCV23REG 0x17
#define RH_MRF89_REG_18_SYNCV15REG 0x18
#define RH_MRF89_REG_19_SYNCV07REG 0x19
#define RH_MRF89_REG_1A_TXCONREG 0x1a
#define RH_MRF89_REG_1B_CLKOREG 0x1b
#define RH_MRF89_REG_1C_PLOADREG 0x1c
#define RH_MRF89_REG_1D_NADDSREG 0x1d
#define RH_MRF89_REG_1E_PKTCREG 0x1e
#define RH_MRF89_REG_1F_FCRCREG 0x1f
// Register bitfield definitions
//#define RH_MRF89_REG_00_GCONREG 0x00
#define RH_MRF89_CMOD 0xe0
#define RH_MRF89_CMOD_TRANSMIT 0x80
#define RH_MRF89_CMOD_RECEIVE 0x60
#define RH_MRF89_CMOD_FS 0x40
#define RH_MRF89_CMOD_STANDBY 0x20
#define RH_MRF89_CMOD_SLEEP 0x00
#define RH_MRF89_FBS 0x18
#define RH_MRF89_FBS_950_960 0x10
#define RH_MRF89_FBS_915_928 0x08
#define RH_MRF89_FBS_902_915 0x00
#define RH_MRF89_VCOT 0x06
#define RH_MRF89_VCOT_180MV 0x06
#define RH_MRF89_VCOT_120MV 0x04
#define RH_MRF89_VCOT_60MV 0x02
#define RH_MRF89_VCOT_TANK 0x00
#define RH_MRF89_RPS 0x01
//#define RH_MRF89_REG_01_DMODREG 0x01
#define RH_MRF89_MODSEL 0xc0
#define RH_MRF89_MODSEL_FSK 0x80
#define RH_MRF89_MODSEL_OOK 0x40
#define RH_MRF89_DMODE0 0x20
#define RH_MRF89_OOKTYP 0x18
#define RH_MRF89_OOKTYP_AVERAGE 0x10
#define RH_MRF89_OOKTYP_PEAK 0x08
#define RH_MRF89_OOKTYP_FIXED 0x00
#define RH_MRF89_DMODE1 0x04
#define RH_MRF89_IFGAIN 0x03
#define RH_MRF89_IFGAIN_M13P5 0x03
#define RH_MRF89_IFGAIN_M9 0x02
#define RH_MRF89_IFGAIN_M4P5 0x01
#define RH_MRF89_IFGAIN_0 0x00
// DMODE1 and DMODE1:
#define RH_MRF89_OPMODE_CONTINUOUS 0x00
#define RH_MRF89_OPMODE_BUFFER RH_MRF89_DMODE0
#define RH_MRF89_OPMODE_PACKET RH_MRF89_DMODE1
//#define RH_MRF89_REG_03_BRSREG 0x03
#define RH_MRF89_BRVAL 0x7f
//#define RH_MRF89_REG_05_FIFOCREG 0x05
#define RH_MRF89_FSIZE 0xc0
#define RH_MRF89_FSIZE_64 0xc0
#define RH_MRF89_FSIZE_48 0x80
#define RH_MRF89_FSIZE_32 0x40
#define RH_MRF89_FSIZE_16 0x00
#define RH_MRF89_FTINT 0x3f
//#define RH_MRF89_REG_0C_PACREG 0x0c
#define RH_MRF89_PARC 0x18
#define RH_MRF89_PARC_23 0x18
#define RH_MRF89_PARC_15 0x10
#define RH_MRF89_PARC_8P5 0x08
#define RH_MRF89_PARC_3 0x00
//#define RH_MRF89_REG_0D_FTXRXIREG 0x0d
#define RH_MRF89_IRQ0RXS 0xc0
#define RH_MRF89_IRQ0RXS_CONT_RSSI 0x40
#define RH_MRF89_IRQ0RXS_CONT_SYNC 0x00
#define RH_MRF89_IRQ0RXS_BUFFER_SYNC 0xc0
#define RH_MRF89_IRQ0RXS_BUFFER_FIFOEMPTY 0x80
#define RH_MRF89_IRQ0RXS_BUFFER_WRITEBYTE 0x40
#define RH_MRF89_IRQ0RXS_BUFFER_NONE 0x00
#define RH_MRF89_IRQ0RXS_PACKET_SYNC 0xc0
#define RH_MRF89_IRQ0RXS_PACKET_FIFOEMPTY 0x80
#define RH_MRF89_IRQ0RXS_PACKET_WRITEBYTE 0x40
#define RH_MRF89_IRQ0RXS_PACKET_PLREADY 0x00
#define RH_MRF89_IRQ1RXS 0x30
#define RH_MRF89_IRQ1RXS_CONT_DCLK 0x00
#define RH_MRF89_IRQ1RXS_BUFFER_FIFO_THRESH 0x30
#define RH_MRF89_IRQ1RXS_BUFFER_RSSI 0x20
#define RH_MRF89_IRQ1RXS_BUFFER_FIFOFULL 0x10
#define RH_MRF89_IRQ1RXS_BUFFER_NONE 0x00
#define RH_MRF89_IRQ1RXS_PACKET_FIFO_THRESH 0x30
#define RH_MRF89_IRQ1RXS_PACKET_RSSI 0x20
#define RH_MRF89_IRQ1RXS_PACKET_FIFOFULL 0x10
#define RH_MRF89_IRQ1RXS_PACKET_CRCOK 0x00
#define RH_MRF89_IRQ1TX 0x08
#define RH_MRF89_FIFOFULL 0x04
#define RH_MRF89_FIFOEMPTY 0x02
#define RH_MRF89_FOVRUN 0x01
//#define RH_MRF89_REG_0E_FTPRIREG 0x0e
#define RH_MRF89_FIFOFM 0x80
#define RH_MRF89_FIFOFSC 0x40
#define RH_MRF89_TXDONE 0x20
#define RH_MRF89_IRQ0TXST 0x10
#define RH_MRF89_RIRQS 0x04
#define RH_MRF89_LSTSPLL 0x02
#define RH_MRF89_LENPLL 0x01
//#define RH_MRF89_REG_10_FILCREG 0x10
#define RH_MRF89_PASFILV 0xf0
#define RH_MRF89_PASFILV_987KHZ 0xf0
#define RH_MRF89_PASFILV_676KHZ 0xe0
#define RH_MRF89_PASFILV_514KHZ 0xd0
#define RH_MRF89_PASFILV_458KHZ 0xc0
#define RH_MRF89_PASFILV_414KHZ 0xb0
#define RH_MRF89_PASFILV_378KHZ 0xa0
#define RH_MRF89_PASFILV_321KHZ 0x90
#define RH_MRF89_PASFILV_262KHZ 0x80
#define RH_MRF89_PASFILV_234KHZ 0x70
#define RH_MRF89_PASFILV_211KHZ 0x60
#define RH_MRF89_PASFILV_184KHZ 0x50
#define RH_MRF89_PASFILV_157KHZ 0x40
#define RH_MRF89_PASFILV_137KHZ 0x30
#define RH_MRF89_PASFILV_109KHZ 0x20
#define RH_MRF89_PASFILV_82KHZ 0x10
#define RH_MRF89_PASFILV_65KHZ 0x00
#define RH_MRF89_BUTFILV 0x0f
#define RH_MRF89_BUTFILV_25KHZ 0x00
#define RH_MRF89_BUTFILV_50KHZ 0x01
#define RH_MRF89_BUTFILV_75KHZ 0x02
#define RH_MRF89_BUTFILV_100KHZ 0x03
#define RH_MRF89_BUTFILV_125KHZ 0x04
#define RH_MRF89_BUTFILV_150KHZ 0x05
#define RH_MRF89_BUTFILV_175KHZ 0x06
#define RH_MRF89_BUTFILV_200KHZ 0x07
#define RH_MRF89_BUTFILV_225KHZ 0x08
#define RH_MRF89_BUTFILV_250KHZ 0x09
#define RH_MRF89_BUTFILV_275KHZ 0x0a
#define RH_MRF89_BUTFILV_300KHZ 0x0b
#define RH_MRF89_BUTFILV_325KHZ 0x0c
#define RH_MRF89_BUTFILV_350KHZ 0x0d
#define RH_MRF89_BUTFILV_375KHZ 0x0e
#define RH_MRF89_BUTFILV_400KHZ 0x0f
//#define RH_MRF89_REG_11_PFCREG 0x11
#define RH_MRF89_POLCFV 0xf0
//#define RH_MRF89_REG_12_SYNCREG 0x12
#define RH_MRF89_POLFILEN 0x80
#define RH_MRF89_BSYNCEN 0x40
#define RH_MRF89_SYNCREN 0x20
#define RH_MRF89_SYNCWSZ 0x18
#define RH_MRF89_SYNCWSZ_32 0x18
#define RH_MRF89_SYNCWSZ_24 0x10
#define RH_MRF89_SYNCWSZ_16 0x08
#define RH_MRF89_SYNCWSZ_8 0x00
#define RH_MRF89_SYNCTEN 0x06
#define RH_MRF89_SYNCTEN_3 0x06
#define RH_MRF89_SYNCTEN_2 0x04
#define RH_MRF89_SYNCTEN_1 0x02
#define RH_MRF89_SYNCTEN_0 0x00
//#define RH_MRF89_REG_15_OOKCREG 0x15
#define RH_MRF89_OOTHSV 0xe0
#define RH_MRF89_OOTHSV_6P0DB 0xe0
#define RH_MRF89_OOTHSV_5P0DB 0xc0
#define RH_MRF89_OOTHSV_4P0DB 0xa0
#define RH_MRF89_OOTHSV_3P0DB 0x80
#define RH_MRF89_OOTHSV_2P0DB 0x60
#define RH_MRF89_OOTHSV_1P5DB 0x40
#define RH_MRF89_OOTHSV_1P0DB 0x20
#define RH_MRF89_OOTHSV_0P5DB 0x00
#define RH_MRF89_OOKTHPV 0x1c
#define RH_MRF89_OOKTHPV_16 0x1c
#define RH_MRF89_OOKTHPV_8 0x18
#define RH_MRF89_OOKTHPV_4 0x14
#define RH_MRF89_OOKTHPV_2 0x10
#define RH_MRF89_OOKTHPV_1_IN_8 0x0c
#define RH_MRF89_OOKTHPV_1_IN_4 0x08
#define RH_MRF89_OOKTHPV_1_IN_2 0x04
#define RH_MRF89_OOKTHPV_1_IN_1 0x00
#define RH_MRF89_OOKATHC 0x03
#define RH_MRF89_OOKATHC_32PI 0x03
#define RH_MRF89_OOKATHC_8PI 0x00
//#define RH_MRF89_REG_1A_TXCONREG 0x1a
#define RH_MRF89_TXIPOLFV 0xf0
#define RH_MRF89_TXOPVAL 0x0e
#define RH_MRF89_TXOPVAL_M8DBM 0x0e
#define RH_MRF89_TXOPVAL_M5DBM 0x0c
#define RH_MRF89_TXOPVAL_M2DBM 0x0a
#define RH_MRF89_TXOPVAL_1DBM 0x08
#define RH_MRF89_TXOPVAL_4DBM 0x06
#define RH_MRF89_TXOPVAL_7DBM 0x04
#define RH_MRF89_TXOPVAL_10DBM 0x02
#define RH_MRF89_TXOPVAL_13DBM 0x00
//#define RH_MRF89_REG_1B_CLKOREG 0x1b
#define RH_MRF89_CLKOCNTRL 0x80
#define RH_MRF89_CLKOFREQ 0x7c
//#define RH_MRF89_REG_1C_PLOADREG 0x1c
#define RH_MRF89_MCHSTREN 0x80
#define RH_MRF89_PLDPLEN 0x7f
//#define RH_MRF89_REG_1E_PKTCREG 0x1e
#define RH_MRF89_PKTLENF 0x80
#define RH_MRF89_PRESIZE 0x60
#define RH_MRF89_PRESIZE_4 0x60
#define RH_MRF89_PRESIZE_3 0x40
#define RH_MRF89_PRESIZE_2 0x20
#define RH_MRF89_PRESIZE_1 0x00
#define RH_MRF89_WHITEON 0x10
#define RH_MRF89_CHKCRCEN 0x08
#define RH_MRF89_ADDFIL 0x06
#define RH_MRF89_ADDFIL_NODEADDR_00_FF 0x06
#define RH_MRF89_ADDFIL_NODEADDR_00 0x04
#define RH_MRF89_ADDFIL_NODEADDR 0x02
#define RH_MRF89_ADDFIL_OFF 0x00
#define RH_MRF89_STSCRCEN 0x01
//#define RH_MRF89_REG_1F_FCRCREG 0x1f
#define RH_MRF89_ACFCRC 0x80
#define RH_MRF89_FRWAXS 0x40
/////////////////////////////////////////////////////////////////////
/// \class RH_MRF89 RH_MRF89.h <RH_MRF89.h>
/// \brief Send and receive unaddressed, unreliable datagrams by Microchip MRF89XA and compatible transceivers.
/// and modules.
///
/// The Microchip MRF89XA http://ww1.microchip.com/downloads/en/DeviceDoc/70622C.pdf is a low cost 900MHz
/// bancd transceiver chip.
/// It is commonly used on preassembled modules with supporting circcuits and antennas, such as
/// the MRF89XAM9A http://www.microchip.com/wwwproducts/Devices.aspx?product=MRF89XAM9A
/// This class supports all such modules
///
/// This base class provides basic functions for sending and receiving unaddressed, unreliable datagrams
/// of arbitrary length to 59 octets per packet. Use one of the Manager classes to get addressing and
/// acknowledgement reliability, routing, meshes etc.
///
/// Several MRF89XA modules can be connected to an Arduino, permitting the construction of translators
/// and frequency changers, etc. Each instance requires 2 chip select pins, and interrupt pin the standard 3 SPI pins.
///
/// Naturally, for any 2 radios to communicate that must be configured to use the same frequency and
/// data rate, and with identical network addresses.
///
/// Example Arduino programs are included to show the main modes of use.
///
/// All messages sent and received by this class conform to this packet format:
///
/// - 3 octets PREAMBLE
/// - 2 to 4 octets NETWORK ADDRESS (also call Sync Word)
/// - 1 octet message length bits packet control field
/// - 4 to 63 octets PAYLOAD, consisting of:
/// - 1 octet TO header
/// - 1 octet FROM header
/// - 1 octet ID header
/// - 1 octet FLAGS header
/// - 0 to 59 octets of user message
/// - 2 octets CRC
///
/// The payload is whitened. No Manchester encoding is used.
///
/// \par Connecting MRF89XA to Arduino
///
/// The electrical connection between the MRF89XA and the Arduino require 3.3V, the 3 x SPI pins (SCK, SDI, SDO),
/// a 2 Chip Select pins (/CSCON and /CSDAT) and an interrupt.
///
/// Caution: the MRF89XA is a 3.3V part and is not tolerant of 5V inputs. Connecting MRF89XA directly to a 5V
/// MCU such as most Arduinos will damage the MRF89XA.
///
/// Connect the MRF89XA to most 3.3V Arduinos or Teensy 3.1 like this (use 3.3V not 5V).
/// \code
/// Teensy MRF89XAM9A
/// 3.3V-----------VIN (3.3V in)
/// pin D9-----------/CSDAT (data chip select in)
/// SS pin D10----------/CSCON (configuration chip select in)
/// SCK pin D13----------SCK (SPI clock in)
/// MOSI pin D11----------SDI (SPI Data in)
/// MISO pin D12----------SDO (SPI data out)
/// D2-----------IRQ1 (Interrupt 1 output)
/// IRQ0 (Interrupt 0 output, not connected)
/// GND----------GND (ground in)
/// \endcode
/// You can use other pins for /CSDAT, /CSCON, IRQ1 by passing appropriate arguments to the constructor.
///
/// \par Example programs
///
/// Several example programs are provided.
///
class RH_MRF89 : public RHNRFSPIDriver
{
public:
/// \brief Defines register configuration values for a desired modulation
///
/// Defines values for various configuration fields and registers to
/// achieve a desired modulation speed and frequency deviation.
typedef struct
{
uint8_t MODSEL; ///< Value for MODSEL in RH_MRF89_REG_01_DMODREG
uint8_t FDVAL; ///< Value for FDVAL in RH_MRF89_REG_02_FDEVREG
uint8_t BRVAL; ///< Value for BRVAL RH_MRF89_REG_03_BRSREG
uint8_t FILCREG; ///< Value for PASFILV | BUTFILV in RH_MRF89_REG_10_FILCREG
uint8_t TXIPOLFV; ///< Value for TXIPOLFV in RH_MRF89_REG_1A_TXCONREG
} ModemConfig;
/// Choices for setModemConfig() for a selected subset of common
/// data rates and frequency deviations.
/// Rb is the data rate in kbps. Fd is the FSK Frequency deviation in kHz.
/// These are indexes into MODEM_CONFIG_TABLE. We strongly recommend you use these symbolic
/// definitions and not their integer equivalents: its possible that new values will be
/// introduced in later versions (though we will try to avoid it).
/// OOK is not yet supported.
/// Based on sample configs in MRF89XA.h from Microchip
typedef enum
{
FSK_Rb2Fd33 = 0, ///< FSK, No Manchester, Whitened, Rb = 2kbs, Fd = 33kHz
FSK_Rb5Fd33, ///< FSK, No Manchester, Whitened, Rb = 5kbs, Fd = 33kHz
FSK_Rb10Fd33, ///< FSK, No Manchester, Whitened, Rb = 10kbs, Fd = 33kHz
FSK_Rb20Fd40, ///< FSK, No Manchester, Whitened, Rb = 20kbs, Fd = 40kHz
FSK_Rb40Fd80, ///< FSK, No Manchester, Whitened, Rb = 40kbs, Fd = 80kHz
FSK_Rb50Fd100, ///< FSK, No Manchester, Whitened, Rb = 50kbs, Fd = 100kHz
FSK_Rb66Fd133, ///< FSK, No Manchester, Whitened, Rb = 66kbs, Fd = 133kHz
FSK_Rb100Fd200, ///< FSK, No Manchester, Whitened, Rb = 100kbs, Fd = 200kHz
FSK_Rb200Fd200 ///< FSK, No Manchester, Whitened, Rb = 200kbs, Fd = 200kHz
} ModemConfigChoice;
/// Constructor.
/// Constructor. You can have multiple instances, but each instance must have its own
/// interrupt and 2 slave select pins. After constructing, you must call init() to initialise the interface
/// and the radio module. A maximum of 3 instances can co-exist on one processor, provided there are sufficient
/// distinct interrupt lines, one for each instance.
/// \param[in] csconPin the Arduino pin number connected to the CSCON pin of the MRF89XA.
/// Defaults to the normal SS pin for your Arduino (D10 for Diecimila, Uno etc, D53 for Mega, D10 for Maple)
/// \param[in] csdatPin the Arduino pin number connected to the CSDAT pin of the MRF89XA.
/// Defaults to 9.
/// \param[in] interruptPin The interrupt Pin number that is connected to the IRQ1 pin of the MRF89XA.
/// Defaults to pin 2. (IRQ0 pin of the MRF89XA does not need to be connected).
/// \param[in] spi Pointer to the SPI interface object to use.
/// Defaults to the standard Arduino hardware SPI interface
RH_MRF89(uint8_t csconPin = SS, uint8_t csdatPin = 9, uint8_t interruptPin = 2, RHGenericSPI& spi = hardware_spi);
/// Initialise the Driver transport hardware and software.
/// Make sure the Driver is properly configured before calling init().
/// \return true if initialisation succeeded.
virtual bool init();
/// Prints the value of all chip registers
/// to the Serial device if RH_HAVE_SERIAL is defined for the current platform
/// For debugging purposes only.
/// \return true on success
bool printRegisters();
/// Sets the radio into low-power sleep mode.
/// If successful, the transport will stay in sleep mode until woken by
/// changing mode to idle, transmit or receive (eg by calling send(), recv(), available() etc)
/// Caution: there is a time penalty as the radio takes a finite time to wake from sleep mode.
/// \return true if sleep mode was successfully entered.
virtual bool sleep();
/// If current mode is Rx or Tx changes it to Idle. If the transmitter or receiver is running,
/// disables them.
void setModeIdle();
/// If current mode is Tx or Idle, changes it to Rx.
/// Starts the receiver in the radio.
// the next valid packet received will cause available() to be true.
void setModeRx();
/// If current mode is Rx or Idle, changes it to Rx. F
/// Starts the transmitter in the radio.
void setModeTx();
/// Sets the transmitter power output level in register RH_MRF89_REG_1A_TXCONREG.
/// Be a good neighbour and set the lowest power level you need.
/// After init(), the power will be set to RH_MRF89_TXOPVAL_1DBM (1dBm)
/// The highest power available is RH_MRF89_TXOPVAL_13DBM (13dBm)
/// Caution: In some countries you may only select certain higher power levels if you
/// are also using frequency hopping. Make sure you are aware of the legal
/// limitations and regulations in your region.
/// Caution: in some countries the maximum permitted power level may depend on the Bit rate
/// \param[in] power Transmitter power level, one of RH_MRF89_TXOPVAL*
void setTxPower(uint8_t power);
/// Select one of the predefined modem configurations. If you need a modem configuration not provided
/// here, use setModemRegisters() with your own ModemConfig.
/// \param[in] index The configuration choice.
/// \return true if index is a valid choice.
bool setModemConfig(ModemConfigChoice index);
/// Tests whether a new message is available
/// from the Driver.
/// On most drivers, this will also put the Driver into RHModeRx mode until
/// a message is actually received by the transport, when it will be returned to RHModeIdle.
/// This can be called multiple times in a timeout loop
/// \return true if a new, complete, error-free uncollected message is available to be retreived by recv()
virtual bool available();
/// Turns the receiver on if it not already on.
/// If there is a valid message available, copy it to buf and return true
/// else return false.
/// If a message is copied, *len is set to the length (Caution, 0 length messages are permitted).
/// You should be sure to call this function frequently enough to not miss any messages
/// It is recommended that you call it in your main loop.
/// \param[in] buf Location to copy the received message
/// \param[in,out] len Pointer to available space in buf. Set to the actual number of octets copied.
/// \return true if a valid message was copied to buf
virtual bool recv(uint8_t* buf, uint8_t* len);
/// Waits until any previous transmit packet is finished being transmitted with waitPacketSent().
/// Then loads a message into the transmitter and starts the transmitter. Note that a message length
/// of 0 is permitted.
/// \param[in] data Array of data to be sent
/// \param[in] len Number of bytes of data to send
/// \return true if the message length was valid and it was correctly queued for transmit
virtual bool send(const uint8_t* data, uint8_t len);
/// Returns the maximum message length
/// available in this Driver.
/// \return The maximum legal message length
virtual uint8_t maxMessageLength();
/// Sets the centre frequency in MHz.
/// Permitted ranges are: 902.0 to 928.0 and 950.0 to 960.0 (inclusive)
/// Caution not all freqs are supported on all modules: check your module specifications
/// Caution: not all available and supported frequencies are legal in every country: check
/// Regulatory Approval eg for MRF89XAM9A (in 75015B.pdf)
/// Australia 915.0 to 928.0
bool setFrequency(float centre);
/// Sets the length of the preamble
/// in bytes.
/// Caution: this should be set to the same
/// value on all nodes in your network. Default is 4.
/// Sets the message preamble length in RH_MRF89_REG_1E_PKTCREG
/// \param[in] bytes Preamble length in bytes of 8 bits each.
void setPreambleLength(uint8_t bytes);
/// Sets the sync words for transmit and receive in registers RH_MRF89_REG_16_SYNCV31REG
/// et seq.
/// Caution: SyncWords should be set to the same
/// value on all nodes in your network. Nodes with different SyncWords set will never receive
/// each others messages, so different SyncWords can be used to isolate different
/// networks from each other. Default is { 0x69, 0x81, 0x7e, 0x96 }.
/// Caution, sync words of 2 bytes and less do not work well with this chip.
/// \param[in] syncWords Array of sync words, 1 to 4 octets long
/// \param[in] len Number of sync words to set, 1 to 4.
void setSyncWords(const uint8_t* syncWords = NULL, uint8_t len = 0);
protected:
/// Called automatically when a CRCOK or TXDONE interrupt occurs.
/// Handles the interrupt.
void handleInterrupt();
/// Reads a single register from the MRF89XA
/// \param[in] reg Register number, one of RH_MRF89_REG
/// \return The value of the register
uint8_t spiReadRegister(uint8_t reg);
/// Writes to a single single register on the MRF89XA
/// \param[in] reg Register number, one of RH_MRF89_REG_*
/// \param[in] val The value to write
/// \return the current value of RH_MRF89_REG_00_GCONREG (read while the command is sent)
uint8_t spiWriteRegister(uint8_t reg, uint8_t val);
/// Writes a single byte to the MRF89XA data FIFO.
/// \param[in] data The data value to write
/// \return 0
uint8_t spiWriteData(uint8_t data);
/// Write a number of bytes from a buffer to the MRF89XA data FIFO.
/// \param[in] data Pointer to a buffer containing the len bytes to be written
/// \param[in] len The number of bytes to write to teh FIFO
/// \return 0;
uint8_t spiWriteData(const uint8_t* data, uint8_t len);
/// Reads a single byte from the MRF89XA data FIFO.
/// \return The next data byte in the FIFO
uint8_t spiReadData();
/// Sets the operating mode in the CMOD bits in RH_MRF89_REG_00_GCONREG
/// which controls what mode the MRF89XA is running in
/// \param[in] mode One of RH_MRF89_CMOD_*
void setOpMode(uint8_t mode);
/// Verifies that the MRF89XA PLL has locked on the slected frequency.
/// This needs to be called if the frequency is changed
bool verifyPLLLock();
/// Examine the revceive buffer to determine whether the message is for this node
void validateRxBuf();
/// Clear our local receive buffer
void clearRxBuf();
private:
/// Low level interrupt service routine for device connected to interrupt 0
static void isr0();
/// Low level interrupt service routine for device connected to interrupt 1
static void isr1();
/// Low level interrupt service routine for device connected to interrupt 1
static void isr2();
/// Array of instances connected to interrupts 0 and 1
static RH_MRF89* _deviceForInterrupt[];
/// Index of next interrupt number to use in _deviceForInterrupt
static uint8_t _interruptCount;
// Sigh: this chip has 2 differnt chip selects.
// We have to set one or the other as the SPI slave select pin depending
// on which block of registers we are accessing
uint8_t _csconPin;
uint8_t _csdatPin;
/// The configured interrupt pin connected to this instance
uint8_t _interruptPin;
/// The index into _deviceForInterrupt[] for this device (if an interrupt is already allocated)
/// else 0xff
uint8_t _myInterruptIndex;
/// Number of octets in the buffer
volatile uint8_t _bufLen;
/// The receiver/transmitter buffer
uint8_t _buf[RH_MRF89_MAX_PAYLOAD_LEN];
/// True when there is a valid message in the buffer
volatile bool _rxBufValid;
};
/// @example mrf89_client.pde
/// @example mrf89_server.pde
#endif