Brunno Oliveira
Driver for SX1272 connected to Pulga devices using only DIO0 pins and polling (error states and timeout).
Dependents: pulga-mbed-lorawan-gps mbed-lorawan-pulga mbed-lorawan-pulga-testing-channel mbed-lorawan-pulga-serial_rx ... more
SX1276/SX1276_LoRaRadio.h
- Committer:
- brunnobbco
- Date:
- 2021-03-30
- Revision:
- 5:3da1a3924c65
- Parent:
- 0:561d07a737bc
File content as of revision 5:3da1a3924c65:
/**
/ _____) _ | |
( (____ _____ ____ _| |_ _____ ____| |__
\____ \| ___ | (_ _) ___ |/ ___) _ \
_____) ) ____| | | || |_| ____( (___| | | |
(______/|_____)_|_|_| \__)_____)\____)_| |_|
(C)2013 Semtech
___ _____ _ ___ _ _____ ___ ___ ___ ___
/ __|_ _/_\ / __| |/ / __/ _ \| _ \/ __| __|
\__ \ | |/ _ \ (__| ' <| _| (_) | / (__| _|
|___/ |_/_/ \_\___|_|\_\_| \___/|_|_\\___|___|
embedded.connectivity.solutions===============
Description: LoRaWAN stack layer that controls both MAC and PHY underneath
License: Revised BSD License, see LICENSE.TXT file include in the project
Maintainer: Miguel Luis ( Semtech ), Gregory Cristian ( Semtech ) and Daniel Jaeckle ( STACKFORCE )
Copyright (c) 2017, Arm Limited and affiliates.
SPDX-License-Identifier: BSD-3-Clause
*/
#ifndef SX1276_LORARADIO_H_
#define SX1276_LORARADIO_H_
#include "PinNames.h"
#include "InterruptIn.h"
#include "DigitalOut.h"
#include "DigitalInOut.h"
#include "SPI.h"
#include "platform/PlatformMutex.h"
#ifdef MBED_CONF_RTOS_PRESENT
#include "rtos/Thread.h"
#endif
#include "lorawan/LoRaRadio.h"
#ifdef MBED_CONF_SX1276_LORA_DRIVER_BUFFER_SIZE
#define MAX_DATA_BUFFER_SIZE_SX1276 MBED_CONF_SX1276_LORA_DRIVER_BUFFER_SIZE
#else
#define MAX_DATA_BUFFER_SIZE_SX1276 255
#endif
#if DEVICE_LPTICKER
#include "LowPowerTimeout.h"
#define ALIAS_LORAWAN_TIMER mbed::LowPowerTimeout
#else
#include "Timeout.h"
#define ALIAS_LORAWAN_TIMER mbed::Timeout
#endif
/**
* Radio driver implementation for Semtech SX1272 plus variants.
* Supports only SPI at the moment. Implements pure virtual LoRaRadio class.
*/
class SX1276_LoRaRadio: public LoRaRadio {
public:
/**
* Use this constructor if pin definitions are provided manually.
* The pins that are marked NC are optional. It is assumed that these
* pins are not connected until/unless configured otherwise.
*
* Note: Pin ant_switch is equivalent to RxTx pin at
* https://developer.mbed.org/components/SX1276MB1xAS/.
* Reading the state of this pin indicates if the radio module type is
* SX1276MB1LAS(North American frequency band supported) or SX1276MAS
* (European frequency band supported).
* Pin dio4 can be mapped to multiple pins on the board, please refer to
* schematic of your board. For reference look at
* https://developer.mbed.org/components/SX1276MB1xAS/
*
* Most of the radio module control pins are not being used at the moment as
* the SX1276MB1xAS shield has not connected them. For consistency and future
* use we are leaving the pins in the constructor. For example, if in some
* setting SX1276 radio module gets connected to an external power amplifier
* or radio latch controls are connected.
*/
SX1276_LoRaRadio(PinName mosi,
PinName miso,
PinName sclk,
PinName nss,
PinName reset,
PinName dio0,
PinName dio1,
PinName dio2,
PinName dio3,
PinName dio4,
PinName dio5,
PinName rf_switch_ctl1 = NC,
PinName rf_switch_ctl2 = NC,
PinName txctl = NC,
PinName rxctl = NC,
PinName ant_switch = NC,
PinName pwr_amp_ctl = NC,
PinName tcxo = NC);
/**
* Destructor
*/
virtual ~SX1276_LoRaRadio();
/**
* Registers radio events with the Mbed LoRaWAN stack and
* undergoes initialization steps if any
*
* @param events Structure containing the driver callback functions
*/
virtual void init_radio(radio_events_t *events);
/**
* Resets the radio module
*/
virtual void radio_reset();
/**
* Put the RF module in sleep mode
*/
virtual void sleep(void);
/**
* Sets the radio in standby mode
*/
virtual void standby(void);
/**
* Sets the reception parameters
*
* @param modem Radio modem to be used [0: FSK, 1: LoRa]
* @param bandwidth Sets the bandwidth
* FSK : >= 2600 and <= 250000 Hz
* LoRa: [0: 125 kHz, 1: 250 kHz,
* 2: 500 kHz, 3: Reserved]
* @param datarate Sets the Datarate
* FSK : 600..300000 bits/s
* LoRa: [6: 64, 7: 128, 8: 256, 9: 512,
* 10: 1024, 11: 2048, 12: 4096 chips]
* @param coderate Sets the coding rate ( LoRa only )
* FSK : N/A ( set to 0 )
* LoRa: [1: 4/5, 2: 4/6, 3: 4/7, 4: 4/8]
* @param bandwidth_afc Sets the AFC Bandwidth ( FSK only )
* FSK : >= 2600 and <= 250000 Hz
* LoRa: N/A ( set to 0 )
* @param preamble_len Sets the Preamble length ( LoRa only )
* FSK : N/A ( set to 0 )
* LoRa: Length in symbols ( the hardware adds 4 more symbols )
* @param symb_timeout Sets the RxSingle timeout value
* FSK : timeout number of bytes
* LoRa: timeout in symbols
* @param fixLen Fixed length packets [0: variable, 1: fixed]
* @param payload_len Sets payload length when fixed lenght is used
* @param crc_on Enables/Disables the CRC [0: OFF, 1: ON]
* @param freq_hop_on Enables disables the intra-packet frequency hopping [0: OFF, 1: ON] (LoRa only)
* @param hop_period Number of symbols bewteen each hop (LoRa only)
* @param iq_inverted Inverts IQ signals ( LoRa only )
* FSK : N/A ( set to 0 )
* LoRa: [0: not inverted, 1: inverted]
* @param rx_continuous Sets the reception in continuous mode
* [false: single mode, true: continuous mode]
*/
virtual void set_rx_config (radio_modems_t modem, uint32_t bandwidth,
uint32_t datarate, uint8_t coderate,
uint32_t bandwidth_afc, uint16_t preamble_len,
uint16_t symb_timeout, bool fix_len,
uint8_t payload_len,
bool crc_on, bool freq_hop_on, uint8_t hop_period,
bool iq_inverted, bool rx_continuous);
/**
* Sets the transmission parameters
*
* @param modem Radio modem to be used [0: FSK, 1: LoRa]
* @param power Sets the output power [dBm]
* @param fdev Sets the frequency deviation ( FSK only )
* FSK : [Hz]
* LoRa: 0
* @param bandwidth Sets the bandwidth ( LoRa only )
* FSK : 0
* LoRa: [0: 125 kHz, 1: 250 kHz,
* 2: 500 kHz, 3: Reserved]
* @param datarate Sets the Datarate
* FSK : 600..300000 bits/s
* LoRa: [6: 64, 7: 128, 8: 256, 9: 512,
* 10: 1024, 11: 2048, 12: 4096 chips]
* @param coderate Sets the coding rate ( LoRa only )
* FSK : N/A ( set to 0 )
* LoRa: [1: 4/5, 2: 4/6, 3: 4/7, 4: 4/8]
* @param preamble_len Sets the preamble length
* @param fix_len Fixed length packets [0: variable, 1: fixed]
* @param crc_on Enables disables the CRC [0: OFF, 1: ON]
* @param freq_hop_on Enables disables the intra-packet frequency hopping [0: OFF, 1: ON] (LoRa only)
* @param hop_period Number of symbols bewteen each hop (LoRa only)
* @param iq_inverted Inverts IQ signals ( LoRa only )
* FSK : N/A ( set to 0 )
* LoRa: [0: not inverted, 1: inverted]
* @param timeout Transmission timeout [ms]
*/
virtual void set_tx_config(radio_modems_t modem, int8_t power, uint32_t fdev,
uint32_t bandwidth, uint32_t datarate,
uint8_t coderate, uint16_t preamble_len,
bool fix_len, bool crc_on, bool freq_hop_on,
uint8_t hop_period, bool iq_inverted, uint32_t timeout);
/**
* Sends the buffer of size
*
* Prepares the packet to be sent and sets the radio in transmission
*
* @param buffer Buffer pointer
* @param size Buffer size
*/
virtual void send(uint8_t *buffer, uint8_t size);
/**
* For backwards compatibility
*/
virtual void receive(uint32_t timeout)
{
(void) timeout;
receive();
}
/**
* Sets the radio to receive
*
* All necessary configuration options for reception are set in
* 'set_rx_config(parameters)' API.
*/
virtual void receive(void);
/**
* Sets the carrier frequency
*
* @param freq Channel RF frequency
*/
virtual void set_channel(uint32_t freq);
/**
* Generates a 32 bits random value based on the RSSI readings
*
* Remark this function sets the radio in LoRa modem mode and disables
* all interrupts.
* After calling this function either Radio.SetRxConfig or
* Radio.SetTxConfig functions must be called.
*
* @return 32 bits random value
*/
virtual uint32_t random(void);
/**
* Get radio status
*
* @param status Radio status [RF_IDLE, RF_RX_RUNNING, RF_TX_RUNNING]
* @return Return current radio status
*/
virtual uint8_t get_status(void);
/**
* Sets the maximum payload length
*
* @param modem Radio modem to be used [0: FSK, 1: LoRa]
* @param max Maximum payload length in bytes
*/
virtual void set_max_payload_length(radio_modems_t modem, uint8_t max);
/**
* Sets the network to public or private
*
* Updates the sync byte. Applies to LoRa modem only
*
* @param enable if true, it enables a public network
*/
virtual void set_public_network(bool enable);
/**
* Computes the packet time on air for the given payload
*
* Remark can only be called once SetRxConfig or SetTxConfig have been called
*
* @param modem Radio modem to be used [0: FSK, 1: LoRa]
* @param pkt_len Packet payload length
* @return Computed airTime for the given packet payload length
*/
virtual uint32_t time_on_air(radio_modems_t modem, uint8_t pkt_len);
/**
* Perform carrier sensing
*
* Checks for a certain time if the RSSI is above a given threshold.
* This threshold determines if there is already a transmission going on
* in the channel or not.
*
* @param modem Type of the radio modem
* @param freq Carrier frequency
* @param rssi_threshold Threshold value of RSSI
* @param max_carrier_sense_time time to sense the channel
*
* @return true if there is no active transmission
* in the channel, false otherwise
*/
virtual bool perform_carrier_sense(radio_modems_t modem,
uint32_t freq,
int16_t rssi_threshold,
uint32_t max_carrier_sense_time);
/**
* Sets the radio in CAD mode
*
*/
virtual void start_cad(void);
/**
* Check if the given RF is in range
*
* @param frequency frequency needed to be checked
*/
virtual bool check_rf_frequency(uint32_t frequency);
/** Sets the radio in continuous wave transmission mode
*
* @param freq Channel RF frequency
* @param power Sets the output power [dBm]
* @param time Transmission mode timeout [s]
*/
virtual void set_tx_continuous_wave(uint32_t freq, int8_t power, uint16_t time);
/**
* Acquire exclusive access
*/
virtual void lock(void);
/**
* Release exclusive access
*/
virtual void unlock(void);
private:
// SPI and chip select control
mbed::SPI _spi;
mbed::DigitalOut _chip_select;
// module rest control
mbed::DigitalInOut _reset_ctl;
// Interrupt controls
mbed::InterruptIn _dio0_ctl;
mbed::InterruptIn _dio1_ctl;
mbed::InterruptIn _dio2_ctl;
mbed::InterruptIn _dio3_ctl;
mbed::InterruptIn _dio4_ctl;
mbed::InterruptIn _dio5_ctl;
// Radio specific controls
mbed::DigitalOut _rf_switch_ctl1;
mbed::DigitalOut _rf_switch_ctl2;
mbed::DigitalOut _txctl;
mbed::DigitalOut _rxctl;
mbed::DigitalInOut _ant_switch;
mbed::DigitalOut _pwr_amp_ctl;
mbed::DigitalOut _tcxo;
// Contains all RF control pin names
// This storage is needed even after assigning the
// pins to corresponding object, as the driver needs to know
// which control pins are connected and which are not. This
// variation is inherent to driver because of target configuration.
rf_ctrls _rf_ctrls;
// We need these PinNames as not all modules have those connected
PinName _dio4_pin;
PinName _dio5_pin;
// Structure containing all user and network specified settings
// for radio module
radio_settings_t _rf_settings;
// Structure containing function pointers to the stack callbacks
radio_events_t *_radio_events;
// Data buffer used for both TX and RX
// Size of this buffer is configurable via Mbed config system
// Default is 255 bytes
uint8_t _data_buffer[MAX_DATA_BUFFER_SIZE_SX1276];
// TX timer in ms. This timer is used as a fail safe for TX.
// If the chip fails to transmit, its a fatal error, reflecting
// some catastrophic bus failure etc. We wish to have the control
// back from the driver in such a case.
ALIAS_LORAWAN_TIMER tx_timeout_timer;
#ifdef MBED_CONF_RTOS_PRESENT
// Thread to handle interrupts
rtos::Thread irq_thread;
#endif
// Access protection
PlatformMutex mutex;
uint8_t radio_variant;
// helper functions
void setup_registers();
void default_antenna_switch_ctrls();
void set_antenna_switch(uint8_t operation_mode);
void setup_spi();
void gpio_init();
void gpio_deinit();
void setup_interrupts();
void set_operation_mode(uint8_t operation_mode);
void set_low_power_mode();
void set_sx1276_variant_type();
uint8_t get_pa_conf_reg(uint32_t channel);
void set_rf_tx_power(int8_t power);
int16_t get_rssi(radio_modems_t modem);
uint8_t get_fsk_bw_reg_val(uint32_t bandwidth);
void write_to_register(uint8_t addr, uint8_t data);
void write_to_register(uint8_t addr, uint8_t *data, uint8_t size);
uint8_t read_register(uint8_t addr);
void read_register(uint8_t addr, uint8_t *buffer, uint8_t size);
void write_fifo(uint8_t *buffer, uint8_t size);
void read_fifo(uint8_t *buffer, uint8_t size);
void transmit(uint32_t timeout);
void rf_irq_task(void);
void set_modem(uint8_t modem);
void rx_chain_calibration(void);
// ISRs
void dio0_irq_isr();
void dio1_irq_isr();
void dio2_irq_isr();
void dio3_irq_isr();
void dio4_irq_isr();
void dio5_irq_isr();
void timeout_irq_isr();
// Handlers called by thread in response to signal
void handle_dio0_irq();
void handle_dio1_irq();
void handle_dio2_irq();
void handle_dio3_irq();
void handle_dio4_irq();
void handle_dio5_irq();
void handle_timeout_irq();
};
#endif // SX1276_LORARADIO_H_