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RIOT/examples/gnrc_lorawan
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Marian Buschsieweke d5839ca190
examples,tests: Bump Makefile.ci for MSP430 boards
2024-05-07 07:57:41 +02:00
..
main.c sys/shell_commands: convert to SHELL_COMMAND() 2022-06-07 09:25:04 +02:00
Makefile gnrc_netif: remove deprecated CONFIG_GNRC_NETIF_LORAWAN_NETIF_HDR 2024-03-28 09:19:33 +01:00
Makefile.ci examples,tests: Bump Makefile.ci for MSP430 boards 2024-05-07 07:57:41 +02:00
README.md examples/gnrc_lorawan: refactor 2021-06-16 14:50:47 +02:00

README.md

GNRC LoRaWAN application

This application is a showcase for testing GNRC LoRaWAN stack. You should be able to send and receive LoRaWAN packets and perform basic LoRaWAN commands (Link Check).

The MAC layers still doesn't implement any duty cycle restriction mechanism. However, it respects the retransmission procedure.

Only Class A in EU868 and IN865 regions are supported so far.

Usage

It's necessary to join the LoRaWAN network either via OTAA or ABP. All keys, addresses and EUIs are in network endian (big endian). Region need to be set in the Makefile.

OTAA

Join by OTAA is set by default. Set the Application Key, Device EUI and Application EUI using ifconfig. Assuming the interface pid is 3:

ifconfig 3 set deveui AAAAAAAAAAAAAAAA
ifconfig 3 set appeui BBBBBBBBBBBBBBBB
ifconfig 3 set appkey CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC
ifconfig 3 up

If Chirpstack is being used, the AppEUI is ignored.

Wait for 5-6 seconds. Type ifconfig. The link status should be up:

Iface  3  HWaddr: 26:01:27:2F  Frequency: 868500000Hz  BW: 125kHz  SF: 7
          CR: 4/5  Link: up
          TX-Power: 14dBm  State: SLEEP  Demod margin.: 0  Num gateways.: 0
          IQ_INVERT
          RX_SINGLE OTAA

ABP

Deactivate OTAA using ifconfig and set the AppSKey, NwkSKey and DevAddr;

ifconfig 3 -otaa
ifconfig 3 set appskey DDDDDDDDDDDDDDDD
ifconfig 3 set nwkskey EEEEEEEEEEEEEEEE
ifconfig 3 set addr FFFFFFFF
ifconfig 3 up

The join by ABP occurs immediately.

Alternatively all keys can be set using CFLAGS so it's only required to select join mode and type ifconfig <if_pid> up.

E.g in the application Makefile:

CFLAGS += -DCONFIG_LORAMAC_DEV_EUI_DEFAULT=\"AAAAAAAAAAAAAAAA\"
CFLAGS += -DCONFIG_LORAMAC_APP_EUI_DEFAULT=\"BBBBBBBBBBBBBBBB\"
CFLAGS += -DCONFIG_LORAMAC_APP_KEY_DEFAULT=\"CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC\"
CFLAGS += -DCONFIG_LORAMAC_APP_SKEY_DEFAULT=\"DDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDD\"
CFLAGS += -DCONFIG_LORAMAC_NWK_SKEY_DEFAULT=\"EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE\"
CFLAGS += -DCONFIG_LORAMAC_DEV_ADDR_DEFAULT=\"FFFFFFFF\"

Send data

After join, send data using txtsnd command:

txtsnd <if> <hex_port> <data>

E.g to send "Hello RIOT!" to LoRaWAN port 123 (hex 0x7B) via interface 3:

txtsnd 3 7B "Hello RIOT!"

Changing datarate of transmission

Use ifconfig to change the datarate of the transmission. E.g to set the DR to 2:

ifconfig 3 set dr 2

Perform a Link Check

Use ifconfig to request a Link Check on the next transmission:

ifconfig 3 link_check

Send some data. The result of the Link Check request can be seen with ifconfig.

ifconfig 3 link_check
txtsnd 3 01 "Join the RIOT!"

Check demodulation margin and number of gateways using ifconfig

ifconfig
Iface  3  HWaddr: 26:01:2C:EA  Frequency: 867500000Hz  BW: 125kHz  SF: 7
          CR: 4/5  Link: up
          TX-Power: 14dBm  State: SLEEP  Demod margin.: 14  Num gateways.: 2
          IQ_INVERT
          RX_SINGLE OTAA

Confirmable and unconfirmable messages

Use ifconfig to set the ack_req flag. With this flag on, messages are confirmable.

E.g send confirmable messages:

ifconfig 3 ack_req
txtsnd 3 01 "My confirmable message"

And unconfirmable messages:

ifconfig 3 -ack_req
txtsnd 3 01 "My unconfirmable message"

Receiving data

Schedule a downlink for the LoRaWAN node in the Application Server. If using TTN, this can be done under Applications > <APP> > Devices > <DEV> > Overview and then check the Downlink section.

After sending data, the LoRaWAN Network Server will reply with the downlink data. For simplicity, this application is configured to dump downlink data to GNRC pktdump.

E.g:

PKTDUMP: data received:
~~ SNIP  0 - size:   2 byte, type: NETTYPE_UNDEF (0)
00000000  AA  AA
~~ SNIP  1 - size:   9 byte, type: NETTYPE_NETIF (-1)
if_pid: 3  rssi: -32768  lqi: 0
flags: 0x0
src_l2addr: (nil)
dst_l2addr: 01
~~ PKT    -  2 snips, total size:  11 byte

This downlink was sent to port 1 (check dst_l2addr field)

Current state and future plans

The current GNRC LoRaWAN stack is still in an experimental state. It's still not compliant with the LoRaWAN specification because some features like duty cycle restrictions and some FOps are missing. Work in progress.

Next steps:

  • Add other regions (US915, etc)
  • Add Adaptive Data Rate
  • Add Duty Cycle restrictions
  • Add support for RTC