This test case is to be carried out on a Raspberry Pi 400.
Follow the installation steps at
IoT installation media
-
After powering on the machine, look at the power LED
-
The power LED illuminates and stays illuminated while the kernel continues
to boot.
-
After logging in, run
systemctl status
, and look at the
"State:" reported at the top of the output
-
State should be reported as "running". In particular, it should
not read "degraded".
-
Run
sudo flash-kernel
-
Exit code is clean (0) and no error messages are reported
-
Run
sudo reboot
-
System reboots successfully to a login prompt
-
Run
sudo shutdown -h now
-
System shuts down in a reasonable time (less than a minute)
-
Check output of
free -h
-
Reported "Mem" under "total" is consistent with a
Raspberry Pi 400. It should be in the region of 3.6-3.8GB.
-
Perform a large (300-600MB) file copy to USB storage
- Generate a large (500MB) file:
dd if=/dev/urandom of=rubbish
bs=1M count=500
- Insert a USB stick (appropriately sized) into a spare USB port
- Make a mount directory:
sudo mkdir /mnt/stick
- Mount the stick:
sudo mount /dev/sda1 /mnt/stick
(modify mount-point as necessary; check sudo dmesg
output if unsure)
- Copy the file:
sudo cp rubbish /mnt/stick/
- Unmount the stick:
sudo umount /mnt/stick
- Remove the stick from the USB port
- Re-insert the stick into the USB port
- Re-mount the stick:
sudo mount /dev/sda1 /mnt/stick
(again, adjust mount-point as necessary)
- Compare the copied file to that on the stick:
cmp rubbish
/mnt/stick/rubbish
-
cmp
returns 0 and outputs nothing, indicating the files are
identical
-
With an HDMI monitor that supports audio plugged into
the HDMI0 output, and an available MP3 file:
- Install ffmpeg and amixer with
sudo apt install ffmpeg
alsa-utils
- Find the correct card name for the HDMI0 port:
cat /proc/asound/cards
and note the name in [brackets]
for the HDMI0 port
- Attempt to play your MP3 file with:
ffmpeg -i
music.mp3 -f alsa default:CARD=name
substituting name for the card name found during the
previous step, and music.mp3 for your choice of MP3 file,
e.g. mpg321 -o alsa -a hw:0,0 "Jeff Wayne - War of the
Worlds.mp3"
- Use Ctrl+C or q to end playback early, if you
wish
- If you cannot hear anything, first check that the mixer's volume is
not set too low; run alsamixer
, and adjust the volume
(J for down, K for up) before exiting
(Esc) and retrying playback
- Audio can be heard through the device
-
With an HDMI monitor that supports audio plugged into
the HDMI1 output, and an available MP3 file:
- Install ffmpeg and amixer with
sudo apt install ffmpeg
alsa-utils
- Find the correct card name for the HDMI1 port:
cat /proc/asound/cards
and note the name in [brackets]
for the HDMI1 port
- Attempt to play your MP3 file with:
ffmpeg -i
music.mp3 -f alsa default:CARD=name
substituting name for the card name found during the
previous step, and music.mp3 for your choice of MP3 file,
e.g. mpg321 -o alsa -a hw:0,0 "Jeff Wayne - War of the
Worlds.mp3"
- Use Ctrl+C or q to end playback early, if you
wish
- If you cannot hear anything, first check that the mixer's volume is
not set too low; run alsamixer
, and adjust the volume
(J for down, K for up) before exiting
(Esc) and retrying playback
- Audio can be heard through the device
-
Check auto-configuration of ethernet
- Run
ip addr
- Check that a valid IP address is recorded on the eth0 interface
- Check
ping google.com
successfully pings a few times
(Ctrl+C to cancel)
-
The "eth0" interface should have a DHCP
assigned IP address and you should be able to ping google.com
-
Configure wifi via netplan
-
The "wlan0" interface should have a DHCP
assigned IP address and you should be able to ping google.com
-
Configure bluetooth, scan for, and pair, a device
- Install bluez with
sudo apt install bluez
- Run
sudo bluetoothctl
- Check bluetoothctl prints
Agent registered
- Check the MAC address looks "real" (not some obviously blank
value like AA:AA:AA:AA:AA:AA)
- Run
scan on
- Make some other Bluetooth device visible for pairing (e.g. go into
Bluetooth settings on your Android phone)
- Verify the other Bluetooth device appears in console output
- Run
pair XX:XX:XX:XX:XX:XX
where XX:XX:XX:XX:XX:XX is the other device's MAC address, as it
appears in scan output
- Verify the passcode on both devices
- Check output includes "Pairing successful"
- Disable scanning with
scan off
- Exit tool with
quit
-
The Bluetooth interface should have a valid MAC address (not
AA:AA:AA:AA:AA:AA), can see and pair with another Bluetooth device.
If all actions produce the expected results listed,
please submit a 'passed' result.
If any action fails, or produces an unexpected result,
please submit a 'failed' result and file a bug. Please be sure to include
the bug number when you submit your
result.