OpenThread: Difference between revisions

From Variscite Wiki
No edit summary
 
(7 intermediate revisions by one other user not shown)
Line 1: Line 1:
<!-- Set release according to "release" parameter in URL and use mx93-yocto-langdale-6.1.1_1.0.1-v1.1 as default
<!-- Set release according to "release" parameter in URL and use mx93-yocto-langdale-6.1.1_1.0.1-v1.2 as default
--> {{INIT_RELEASE_PARAM|mx93-yocto-langdale-6.1.1_1.0.1-v1.1}}<!--
--> {{INIT_RELEASE_PARAM|mx93-yocto-langdale-6.1.1_1.0.1-v1.2}}<!--
--> {{#lst:Yocto_Platform_Customization|{{#var:RELEASE_PARAM}}}} <!--
--> {{#lst:Yocto_Platform_Customization|{{#var:RELEASE_PARAM}}}} <!--
--> {{#lst:Debian_Platform_Customization|{{#var:RELEASE_PARAM}}}} <!--
--> {{#lst:Debian_Platform_Customization|{{#var:RELEASE_PARAM}}}} <!--
Line 158: Line 158:


  root@{{#var:EVKB}}:~# /etc/openthread/variscite-ot-client start c9ca829c5a194f86e141a8721f1f38aa
  root@{{#var:EVKB}}:~# /etc/openthread/variscite-ot-client start c9ca829c5a194f86e141a8721f1f38aa
  Scanning for available networks:                                                                        
  Scanning for available networks:
  | PAN  | MAC Address      | Ch | dBm | LQI |                                                            
  | PAN  | MAC Address      | Ch | dBm | LQI |
  +------+------------------+----+-----+-----+                                                            
  +------+------------------+----+-----+-----+
  | 1234 | 962ba3d53bbc9bb6 | 26 | -46 | 133 |                                                            
  | 1234 | 962ba3d53bbc9bb6 | 26 | -46 | 133 |
  Done                                                                                                    
  Done
  State is detached, waiting to connect to the network                                                    
  State is detached, waiting to connect to the network
  State is detached, waiting to connect to the network                                                    
  State is detached, waiting to connect to the network
  State is detached, waiting to connect to the network                                                    
  State is detached, waiting to connect to the network
  State is child, connected to the network
  State is child, connected to the network


Line 180: Line 180:


Print '''{{#var:EVKA}}'s''' neighbor table:
Print '''{{#var:EVKA}}'s''' neighbor table:
  root@{{#var:EVKA}}:~# ot-ctl neighbor table                                                                                                            
  root@{{#var:EVKA}}:~# ot-ctl neighbor table
  | Role | RLOC16 | Age | Avg RSSI | Last RSSI |R|D|N| Extended MAC    | Version |                                                                      
  | Role | RLOC16 | Age | Avg RSSI | Last RSSI |R|D|N| Extended MAC    | Version |
  +------+--------+-----+----------+-----------+-+-+-+------------------+---------+                                                                      
  +------+--------+-----+----------+-----------+-+-+-+------------------+---------+
  |  C  | 0x8401 |  0 |      -22 |        0 |1|0|1| 56c65fbdfa6e4a80 |      3 |                                                                      
  |  C  | 0x8401 |  0 |      -22 |        0 |1|0|1| 56c65fbdfa6e4a80 |      3 |
                                                                                                                                                       
 
  Done
  Done


Print '''{{#var:EVKA}}'s''' child table:
Print '''{{#var:EVKA}}'s''' child table:
  root@{{#var:EVKA}}:~# ot-ctl child table
  root@{{#var:EVKA}}:~# ot-ctl child table
  | ID  | RLOC16 | Timeout    | Age        | LQ In | C_VN |R|D|N|Ver|CSL|QMsgCnt| Extended MAC    |                                                      
  | ID  | RLOC16 | Timeout    | Age        | LQ In | C_VN |R|D|N|Ver|CSL|QMsgCnt| Extended MAC    |
  +-----+--------+------------+------------+-------+------+-+-+-+---+---+-------+------------------+                                                      
  +-----+--------+------------+------------+-------+------+-+-+-+---+---+-------+------------------+
  |  3 | 0x8403 |        240 |        186 |    3 |  15 |1|0|1|  3| 0 |    0 | 56c65fbdfa6e4a80 |                                                      
  |  3 | 0x8403 |        240 |        186 |    3 |  15 |1|0|1|  3| 0 |    0 | 56c65fbdfa6e4a80 |
                                                                                                                                                       
 
  Done  
  Done


=== Ping {{#var:EVKA}} from {{#var:EVKB}} ===
=== Ping {{#var:EVKA}} from {{#var:EVKB}} ===
Line 202: Line 202:
  root@{{#var:EVKA}}:~# ot-ctl ipaddr
  root@{{#var:EVKA}}:~# ot-ctl ipaddr
  fdde:ad00:beef:0:0:ff:fe00:fc00  # Leader's Anycast Locator (ALOC)
  fdde:ad00:beef:0:0:ff:fe00:fc00  # Leader's Anycast Locator (ALOC)
  fdde:ad00:beef:0:0:ff:fe00:8400 # Routing Locator (RLOC)
  fdde:ad00:beef:0:0:ff:fe00:0 # Routing Locator (RLOC)
  fdde:ad00:beef:0:f5f2:aaeb:8a8c:a9fc  # Mesh-Local EID (ML-EID)
  fdde:ad00:beef:0:f5f2:aaeb:8a8c:a9fc  # Mesh-Local EID (ML-EID)
  fe80:0:0:0:1442:b824:c762:fa70  # Link-Local Address (LLA)
  fe80:0:0:0:1442:b824:c762:fa70  # Link-Local Address (LLA)
Line 208: Line 208:
'''{{#var:EVKB}}''':
'''{{#var:EVKB}}''':
  root@{{#var:EVKA}}:~# ot-ctl ipaddr
  root@{{#var:EVKA}}:~# ot-ctl ipaddr
  fdde:ad00:beef:0:0:ff:fe00:8405 # Routing Locator (RLOC)
  fdde:ad00:beef:0:0:ff:fe00:1 # Routing Locator (RLOC)
  fdde:ad00:beef:0:c177:ef1:a128:7d09  # Mesh-Local EID (ML-EID)
  fdde:ad00:beef:0:c177:ef1:a128:7d09  # Mesh-Local EID (ML-EID)
  fe80:0:0:0:54c6:5fbd:fa6e:4a80  # Link-Local Address (LLA)
  fe80:0:0:0:54c6:5fbd:fa6e:4a80  # Link-Local Address (LLA)




Then, ping '''{{#var:EVKB}}''' from '''{{#var:EVKB}}'''
Then, ping '''{{#var:EVKA}}''' (Leader) from '''{{#var:EVKB}}''' (Child) using the mesh-local address:
root@{{#var:EVKB}}:~# ot-ctl ping fdde:ad00:beef:0:f5f2:aaeb:8a8c:a9fc
root@{{#var:EVKB}}:~# ot-ctl ping fdde:ad00:beef:0:0:ff:fe00:0
  16 bytes from fdde:ad00:beef:0:f5f2:aaeb:8a8c:a9fc: icmp_seq=8 hlim=64 time=17ms
  16 bytes from fdde:ad00:beef:0:0:ff:fe00:0: icmp_seq=8 hlim=64 time=17ms
  1 packets transmitted, 1 packets received. Packet loss = 0.0%. Round-trip min/avg/max = 17/17.0/17 ms.
  1 packets transmitted, 1 packets received. Packet loss = 0.0%. Round-trip min/avg/max = 17/17.0/17 ms.
  Done
  Done
<!--
<!--
=== Run throughput test using iPerf tool ===
=== Run throughput test using iPerf tool ===
Line 224: Line 225:
  root@{{#var:EVKA}}:~# iperf -s -u -i 1 -w 400k -p5005 -V -B <mesh-local address of {{#var:EVKA}}>
  root@{{#var:EVKA}}:~# iperf -s -u -i 1 -w 400k -p5005 -V -B <mesh-local address of {{#var:EVKA}}>
  e.g.
  e.g.
  root@{{#var:EVKA}}:~# iperf -s -u -i 1 -w 400k -p5005 -V -B fdde:ad00:beef:0:0:ff:fe00:8400
  root@{{#var:EVKA}}:~# iperf -s -u -i 1 -w 400k -p5005 -V -B fdde:ad00:beef:0:0:ff:fe00:0
  ------------------------------------------------------------                                                                                            
  ------------------------------------------------------------
  Server listening on UDP port 5005                                                                                                                      
  Server listening on UDP port 5005
  Binding to local address fdde:ad00:beef:0:0:ff:fe00:8400                                                                                               
  Binding to local address fdde:ad00:beef:0:0:ff:fe00:0
  Receiving 1470 byte datagrams                                                                                                                          
  Receiving 1470 byte datagrams
  UDP buffer size:  781 KByte (WARNING: requested  391 KByte)                                                                                            
  UDP buffer size:  781 KByte (WARNING: requested  391 KByte)
  ------------------------------------------------------------  
  ------------------------------------------------------------


Start iPerf client at {{#var:EVKB}}:
Start iPerf client at {{#var:EVKB}}:

Latest revision as of 14:57, 4 December 2023

Warning: This page is designed to be used with a 'release' URL parameter.

This page is using the default release mx93-yocto-langdale-6.1.1_1.0.1-v1.2.
To view this page for a specific Variscite SoM and software release, please follow these steps:

  1. Visit variwiki.com
  2. Select your SoM
  3. Select the software release
802.15.4 OpenThread

VAR-SOM-MX93 OpenThread Overview

VAR-SOM-MX93 SoMs ordered with the WBE option feature an IW612 based tri-radio module that supports Wi-Fi 6, Bluetooth/Bluetooth Low Energy 5.2, and 802.15.4.

The 802.15.4 radio coprocessor is managed by OpenThread. Thread is an IPv6-based networking protocol designed for low-power Internet of Things devices in an IEEE802.15.4-2015 wireless mesh network. OpenThread released by Google is an open-source implementation of Thread.

The OpenThread core runs on the host processor (mx93) and communicates with the 802.15.4 coprocessor via OpenThread Daemon (ot-daemon) using SPI. Clients can connect to the ot-daemon UNIX socket and communicate using OpenThread CLI as a protocol.

Configuring ot-daemon

ot-daemon is started with the following command:

ot-daemon "spinel+spi:///dev/spidev1.0?gpio-int-device=4&gpio-int-line=29&gpio-reset-device=4_&gpio-reset-line=4_&spi-mode=0&spi-speed=1000000&spi-reset-delay=500" &

This is done automatically on boot by Variscite's ot-service and the scripts in /etc/openthread on boot. The service can be managed using systemd:

systemctl <start|stop|restart|enable|disable> variscite-ot.service

For example, you can stop and disable the service:

# Stop the service
systemctl stop variscite-ot

# Start the service
systemctl disable variscite-ot

Managing OpenThread using ot-ctl

ot-ctl uses the ot-daemon UNIX socket and can be used to manage OpenThread. It requires that ot-daemon is first running. As a reminder, the variscite-ot service starts this by default.

For example, you can read the extended MAC address of your device:

# ot-ctl extaddr
52fc4e6d3cd98e30
Done

The following sections demonstrate how to create a network on imx93-var-som-a and connect to the network on imx93-var-som-b.

Create OpenThread network using ot-ctl

Reset to factory settings:

root@imx93-var-som-a:~# ot-ctl factoryreset && sleep 2

Set Channel to 26:

root@imx93-var-som-a:~# ot-ctl channel 26
Done

Set PAN ID to 0x1234:

root@imx93-var-som-a:~# ot-ctl panid 0x1234
Done

Set Extended PAN ID:

root@imx93-var-som-a:~# ot-ctl extpanid dead00beef00cafe
Done

Generate a new networkkey (this will change everytime):

root@imx93-var-som-a:~# ot-ctl networkkey
c9ca829c5a194f86e141a8721f1f38aa
Done

Set Network Name to "ThreadTest":

root@imx93-var-som-a:~# ot-ctl networkname ThreadTest
Done

Enable Network Interface:

root@imx93-var-som-a:~# ot-ctl ifconfig up
Done

Start Thread:

root@imx93-var-som-a:~# ot-ctl thread start
Done

Print the State:

root@imx93-var-som-a:~# ot-ctl state
detached
...wait a few seconds...
root@imx93-var-som-a:~# ot-ctl state
leader

Variscite provides an example script in /etc/openthread/variscite-ot-server to create an OpenThread network. It is only meant to be an example to accelerate the development process. For example:

root@# /etc/openthread/variscite-ot-server start
State is detached, waiting for state=leader
State is detached, waiting for state=leader
State is detached, waiting for state=leader
State is leader
Network key c9ca829c5a194f86e141a8721f1f38aa saved to /tmp/ot-wpan0.key

Connect to OpenThread network using ot-ctl

Reset to factory defaults:

root@imx93-var-som-b:~# ot-ctl factoryreset && sleep 2

Set Channel to 26:

root@imx93-var-som-b:~# ot-ctl channel 26
Done

Set PAN ID to 0x1234:

root@imx93-var-som-b:~# ot-ctl panid 0x1234
Done

Set Extended PAN ID:

root@imx93-var-som-b:~# ot-ctl extpanid dead00beef00cafe
Done

Use the Network Key printed by the server:

root@imx93-var-som-b:~# ot-ctl networkkey c9ca829c5a194f86e141a8721f1f38aa
Done

Set Network Name to "ThreadTest":

root@imx93-var-som-b:~# ot-ctl networkname ThreadTest
Done

Enable Network Interface:

root@imx93-var-som-b:~# ot-ctl ifconfig up
Done

Start Thread:

root@imx93-var-som-b:~# ot-ctl thread start
Done

Set Client Mode to "Router Eligible" (rn):

root@imx93-var-som-b:~# ot-ctl mode rn

Scan for available networks:

root@imx93-var-som-b:~# ot-ctl scan
| PAN  | MAC Address      | Ch | dBm | LQI |
+------+------------------+----+-----+-----+
| 1234 | 12c8abdf0f9fe7ee | 26 | -45 | 137 |
Done

Print the State:

root@imx93-var-som-a:~# ot-ctl state
detached
...wait a few seconds...
root@imx93-var-som-a:~# ot-ctl state
child

Variscite provides an example script in /etc/openthread/variscite-ot-client to connect to an OpenThread network. It is only meant to be an example to accelerate the development process. For example:

root@imx93-var-som-b:~# /etc/openthread/variscite-ot-client start c9ca829c5a194f86e141a8721f1f38aa
Scanning for available networks:
| PAN  | MAC Address      | Ch | dBm | LQI |
+------+------------------+----+-----+-----+
| 1234 | 962ba3d53bbc9bb6 | 26 | -46 | 133 |
Done
State is detached, waiting to connect to the network
State is detached, waiting to connect to the network
State is detached, waiting to connect to the network
State is child, connected to the network

Verify to OpenThread connection

Print neighbor and child tables

Once connected, you can see imx93-var-som-b in imx93-var-som-a's neighbor table:

Print imx93-var-som-b's Extended MAC Address:

root@imx93-var-som-b:~# ot-ctl eui64
5affa2feffef2650
Done

Print imx93-var-som-a's neighbor table:

root@imx93-var-som-a:~# ot-ctl neighbor table
| Role | RLOC16 | Age | Avg RSSI | Last RSSI |R|D|N| Extended MAC     | Version |
+------+--------+-----+----------+-----------+-+-+-+------------------+---------+
|   C  | 0x8401 |   0 |      -22 |         0 |1|0|1| 56c65fbdfa6e4a80 |       3 |
Done

Print imx93-var-som-a's child table:

root@imx93-var-som-a:~# ot-ctl child table
| ID  | RLOC16 | Timeout    | Age        | LQ In | C_VN |R|D|N|Ver|CSL|QMsgCnt| Extended MAC     |
+-----+--------+------------+------------+-------+------+-+-+-+---+---+-------+------------------+
|   3 | 0x8403 |        240 |        186 |     3 |   15 |1|0|1|  3| 0 |     0 | 56c65fbdfa6e4a80 |
Done

Ping imx93-var-som-a from imx93-var-som-b

First, print the IP Addresses of imx93-var-som-a and imx93-var-som-b.

imx93-var-som-a:

root@imx93-var-som-a:~# ot-ctl ipaddr
fdde:ad00:beef:0:0:ff:fe00:fc00  # Leader's Anycast Locator (ALOC)
fdde:ad00:beef:0:0:ff:fe00:0  # Routing Locator (RLOC)
fdde:ad00:beef:0:f5f2:aaeb:8a8c:a9fc  # Mesh-Local EID (ML-EID)
fe80:0:0:0:1442:b824:c762:fa70  # Link-Local Address (LLA)

imx93-var-som-b:

root@imx93-var-som-a:~# ot-ctl ipaddr
fdde:ad00:beef:0:0:ff:fe00:1  # Routing Locator (RLOC)
fdde:ad00:beef:0:c177:ef1:a128:7d09  # Mesh-Local EID (ML-EID)
fe80:0:0:0:54c6:5fbd:fa6e:4a80  # Link-Local Address (LLA)


Then, ping imx93-var-som-a (Leader) from imx93-var-som-b (Child) using the mesh-local address:

root@imx93-var-som-b:~# ot-ctl ping fdde:ad00:beef:0:0:ff:fe00:0
16 bytes from fdde:ad00:beef:0:0:ff:fe00:0: icmp_seq=8 hlim=64 time=17ms
1 packets transmitted, 1 packets received. Packet loss = 0.0%. Round-trip min/avg/max = 17/17.0/17 ms.
Done