This project is a fork of raspi-lora project.
pyLoraRFM9x is a interrupt based Python library for using HopeRF RFM95/96/97/98 LoRa radios with a Raspberry Pi. The design was inspired by the RadioHead project that is popular on Arduino-based platforms. Several handy features offered by RadioHead are present here, including encryption, addressing, optional acknowledgments and retransmission. The motivation of this project is to allow Raspberry Pis to communicate with devices using the RadioHead RF95 driver.
This fork fixes bugs in the interrupt handling, and supports both acknowledged and unacknowledged transfers with the use of flags in the packet header.
Requires Python >= 3.5. RPi.GPIO and spidev will be installed as requirements
pip install --upgrade pyLoraRFM9x
Example wiring for the HopeRF RFM95W and the Raspberry Pi:
RFM module pin | Raspberry Pi GPIO pin |
---|---|
MISO | MISO |
MOSI | MOSI |
NSS/CS | CE1 |
CLK | SCK |
RESET | GPIO 25 |
DIO0 | GPIO 5 |
3.3V | 3.3V |
GND | GND |
Remember to connect an antenna or a quarter wavelength wire to the RFM modules ANT pin.
First ensure that SPI is enabled on your Raspberry Pi:
sudo raspi-config
Go to 5 Interfacing Options, select P4 SPI and select Yes to enable.
Reboot and verify that you see two devices when writing
ls -l /dev/spidev*
in the terminal.
Next, here is a quick example that sets things up and sends a message:
from pyLoraRFM9x import LoRa, ModemConfig
# This is our callback function that runs when a message is received
def on_recv(payload):
print("From:", payload.header_from)
print("Received:", payload.message)
print("RSSI: {}; SNR: {}".format(payload.rssi, payload.snr))
# Use chip select 1. GPIO pin 5 will be used for interrupts and set reset pin to 25
# The address of this device will be set to 2
lora = LoRa(1, 5, 2, reset_pin = 25, modem_config=ModemConfig.Bw125Cr45Sf128, tx_power=14, acks=True)
lora.on_recv = on_recv
# Send a message to a recipient device with address 10
# Retry sending the message twice if we don't get an acknowledgment from the recipient
message = "Hello there!"
status = lora.send_to_wait(message, 10, retries=2)
if status is True:
print("Message sent!")
else:
print("No acknowledgment from recipient")
If you'd like to send and receive encrypted packets, you'll need to install the PyCrypto package. If you're working with devices running RadioHead with RHEncryptedDriver, I recommend using the AES cipher.
pip install pycrypto
and in your code:
from Crypto.Cipher import AES
crypto = AES.new("my-secret-encryption-key")
then pass in crypto
when instantiating the LoRa
object:
lora = LoRa(0, 17, 2, crypto=crypto)
LoRa(channel, interrupt, this_address, reset_pin=reset_pin, freq=915, tx_power=14,
modem_config=ModemConfig.Bw125Cr45Sf128, acks=False, crypto=None)
channel
SPI channel to use (either 0 or 1, if your LoRa radio if connected to CE0 or CE1, respectively)
interrupt
GPIO pin (BCM-style numbering) to use for the interrupt
this_address
The address number (0-254) your device will use when sending and receiving packets.
reset_pin
The pin that resets the module. Defaults to None
freq
Frequency used by your LoRa radio. Defaults to 915Mhz
tx_power
Transmission power level from 5 to 23. Keep this as low as possible. Defaults to 14
model_config
Modem configuration. See RadioHead docs. Default to Bw125Cr45Sf128.
acks
If True
, send an acknowledgment packet when a message is received and wait for an acknowledgment when transmitting a message. This is equivalent to using RadioHead's RHReliableDatagram
crypto
An instance of PyCrypto Cipher.AES (see above example)
A LoRa
instance also has the following attributes that can be changed:
- cad_timeout Timeout for channel activity detection. Default is 1 second
- retry_timeout Time to wait for an acknowledgment before attempting a retry. Defaults to 0.5 seconds
- wait_packet_sent_timeout Timeout for waiting for a packet to transmit. Default is 0.5 seconds
Send a message and block until an acknowledgment is received or a timeout occurs. Returns True
if successful
data
Your message. Can be a string or byte stringheader_to
Address of recipient (0-255). If address is 255, the message will be broadcast to all devices andsend_to_wait
will returnTrue
without waiting for acknowledgmentsheader_flags
Bitmask that can contain flags specific to your application
Similar to send_to_wait
but does not block or wait for acknowledgments and will always return True
data
Your message. Can be a string or byte stringheader_id
Unique ID of message (0-255)header_to
Address of recipient (0-255). If address is 255, the message will be broadcast to all devicesheader_flags
Bitmask that can contain flags specific to your application
Set radio to RX continuous mode
Set radio to TX mode
Set radio to idle (disabling receiving or transmitting)
Set radio to low-power sleep mode
Blocks until a packet has finished transmitting. Returns False
if a timeout occurs
Cleans up GPIO pins and closes the SPI connection. This should be called when your program exits.
on_recv(payload)
Callback function that runs when a message is received
payload
has the following attributes:
header_from
, header_to
, header_id
, header_flags
, message
, rssi
, snr
RadioHead - The RadioHead project. Very useful source of information on working with LoRa radios.
Forked version of RadioHead for Raspberry Pi - A fork of the original RadioHead project that better accommodates the Raspberry Pi. Currently is a few years out of date.
pySX127x - Another Python LoRa library that allows for a bit more configuration.
Adafruit CircuitPython module for the RFM95/6/7/8 - LoRa library for CircuitPython