nuttx-apps/wireless/ieee802154/i8sak
Xiang Xiao 054cf3b1cb Change all sizeof(arr)/sizeof(arr[0]) to nitems
Signed-off-by: Xiang Xiao <xiaoxiang@xiaomi.com>
2023-08-17 22:51:51 +03:00
..
i8sak_acceptassoc.c apps: wireless: ieee802154: nxstyle fixes 2022-03-08 01:44:49 +08:00
i8sak_assoc.c apps: wireless: ieee802154: update licenses to Apache 2022-03-08 01:44:49 +08:00
i8sak_blaster.c fsutils/examples: Include unistd.h explicitly 2023-02-05 08:46:59 +02:00
i8sak_events.c net: fix compiler warning 2023-02-08 00:35:39 +08:00
i8sak_events.h apps: wireless: ieee802154: update licenses to Apache 2022-03-08 01:44:49 +08:00
i8sak_get.c fsutils/examples: Include unistd.h explicitly 2023-02-05 08:46:59 +02:00
i8sak_main.c Change all sizeof(arr)/sizeof(arr[0]) to nitems 2023-08-17 22:51:51 +03:00
i8sak_poll.c fsutils/examples: Include unistd.h explicitly 2023-02-05 08:46:59 +02:00
i8sak_regdump.c fsutils/examples: Include unistd.h explicitly 2023-02-05 08:46:59 +02:00
i8sak_reset.c fsutils/examples: Include unistd.h explicitly 2023-02-05 08:46:59 +02:00
i8sak_scan.c fsutils/examples: Include unistd.h explicitly 2023-02-05 08:46:59 +02:00
i8sak_set.c fsutils/examples: Include unistd.h explicitly 2023-02-05 08:46:59 +02:00
i8sak_sniffer.c fsutils/examples: Include unistd.h explicitly 2023-02-05 08:46:59 +02:00
i8sak_startpan.c fsutils/examples: Include unistd.h explicitly 2023-02-05 08:46:59 +02:00
i8sak_tx.c fsutils/examples: Include unistd.h explicitly 2023-02-05 08:46:59 +02:00
i8sak.h apps: wireless: ieee802154: update licenses to Apache 2022-03-08 01:44:49 +08:00
Kconfig Application.mk and main.c files: Change builtin's entry point from main to xxx_main by macro expansion. This change make the entry point fully compliant with POSIX/ANSI standard. 2019-10-06 06:14:56 -06:00
Make.defs Makefiles: Gregory Nutt: update licenses to Apache 2021-06-07 21:35:33 -05:00
Makefile Fix the minor style issue 2022-10-16 19:07:16 +02:00
README.md Rewritten READMEs to Markdown 2020-07-25 01:01:51 -07:00

Wireless / IEEE 802.15.4 / i8sak or i8 IEEE 802.15.4 Swiss Army Knife

Description

The i8sak app is a useful CLI for testing various IEEE 802.15.4 functionality. It also serves as a starting place for learning how to interface with the NuttX IEEE 802.15.4 MAC layer.

The i8sak CLI can be used to manipulate multiple MAC layer networks at once. Both a MAC character driver interface and a network interface using sockets are supported. The MAC character driver is used in cases where networking is not enabled and you want your application to use IEEE 802.15.4 directly. In most cases however, you will probably be using 6LoWPAN networking support and therefore, the MAC can be controlled directly from the socket interface rather than the MAC character driver. IEEE 802.15.4 MAC character drivers show up in NuttX as /dev/ieeeN by default.

When you invoke the first call to i8sak with a specified interface name, it creates an i8sak instance and launches a daemon to handle processing work. The instance is considered sticky, so it is possible to run i8 /dev/ieee0 or i8 wpan0 at the beginning of a session and then can exclude the interface name from all future calls. The number of i8sak instances supported is controllable through menuconfig.

The i8sak app has many settings that can be configured. Most options are sticky, meaning, if you set the endpoint short address once, any future operation using the endpoint short address can default to the previously used address. This is particularly useful to keep the command lengths down.

How To Use

The i8sak app has a series of CLI functions that can be invoked. The default i8sak command is i8 to make things quick and easy to type.

In my test setup I have 2 Clicker2-STM32 boards from MikroElektronika, with the BEE-click (MRF24J40) radios. Choose one device to be the PAN Coordinator. We'll refer to that as device A.

On that device, run:

i8 /dev/ieee0 startpan cd:ab

This will tell the MAC layer that it should now act as a PAN coordinator using PAN ID CD:AB. For now, this function assumes that we are operating a non-beacon enabled PAN, since, as of this writing, beacon-enabled networks are unfinished.

Next, on the same device, run:

i8 acceptassoc

Notice in the second command, we did not use the devname, again, that is sticky so unless we are switching back and forth between character drivers, we can just use it once.

The acceptassoc command, without any arguments, informs the i8sak instance to accept all association requests. The acceptassoc command also allows you to only accept requests from a single device by specifying the extended address with option -e.

For instance:

i8 acceptassoc -e DEADBEEF00FADE0B

But for this example, let's just use the command with no arguments.

Now, the second device will act as an endpoint device. The i8sak instance defaults to being in endpoint mode. Let's refer to the second device as device B.

On device B, run:

i8 /dev/ieee0 assoc

This command attempts to associate with the node at the configured endpoint address. If everything is setup correctly, device A should have log information saying that a device tried to associate and that it accepted the association. On device B, the console should show that the association request was successful. With all default settings, device B should have been allocated a short address of 0x000B.

If you are following along with a packet sniffer, you should see something similar to the following:

1) Association Request
    Frame Type      - CMD
    Sequence Number - 0
    Dest. PAN ID    - 0xFADE
    Dest. Address   - 0x000A
    Src.  PAN ID    - 0xFFFE
    Src.  Address   - 0xDEADBEEF00FADE0C
    Command Type    - Association Request

    1a) ACK
        Frame Type      - ACK
        Sequence Number - 0

2) Data Request
    Frame Type      - CMD
    Sequence Number - 1
    Dest. PAN ID    - 0xFADE
    Dest. Address   - 0x000A
    Src.  PAN ID    - 0xFFFE
    Src.  Address   - 0xDEADBEEF00FADE0C
    Command Type    - Data Request

    2a) ACK
        Frame Type      - ACK
        Sequence Number - 1

3) Association Response
    Frame Type      - CMD
    Sequence Number - 0
    Dest. PAN ID    - 0xFADE
    Dest. Address   - 0xDEADBEEF00FADE0C
    Src.  Address   - 0xDEADBEEF00FADE0A
    Command Type    - Association Response
    Assigned SADDR  - 0x000C
    Assoc Status    - Successful

    3a) ACK
        Frame Type      - ACK
        Sequence Number - 0

The default endpoint address can be configured via Kconfig or set dynamically using the set command.

Here is how to set the endpoint short address

i8 set ep_saddr 0a:00

When setting the address, it's important to make sure the endpoint addressing mode is configured the way you want: Use s for short addressing or e for extended

i8 set ep_addrmode s

Device B has now successfully associated with device A. If you want to send data from device B to device A, run the following on device B:

i8 tx ABCDEF

This will immediately (not actually immediate, transaction is sent using CSMA) send the frame to device A with frame payload 0xABCDEF

Sending data from device A to device B is different. In IEEE 802.15.4, frames must be extracted from the coordinator. To prepare the frame, run the following command on device A

i8 tx AB

Because the devmode is PAN Coordinator, the i8sak app knows to send the data as an indirect transaction. If you were running the i8sak app on a device that is a coordinator, but not the PAN coordinator, you can force the i8sak app to send the transaction directly, rather than to the parent coordinator, by using the -d option.

Note: Currently, the indirect transaction timeout is disabled. This means frames must be extracted or space may run out. This is only for the testing phase as it is easier to debug when I am not fighting a timeout. Re-enabling the timeout may effect the behavior of the indirect transaction features in the i8sak app.

To extract the data, run the following command on device B:

i8 poll

This command polls the endpoint (our device A PAN Coordinator in this case) to see if there is any data. In the console of device B you should see a Poll request status print out.