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The CM4 IO Board is equipped with an on-board RTC connected over I2C, and has USB 2.0 host ports. This commit loads the appropriate overlays to enable both. The USB 2.0 interface is by default disabled on CM4 to reduce the power consumption so it needs to be explicitly enabled on the CM4 IO Board to use the USB ports. Signed-off-by: Peter Seiderer <ps.report@gmx.net> Signed-off-by: Thomas Petazzoni <thomas.petazzoni@bootlin.com>
Raspberry Pi
Intro
=====
These instructions apply to all models of the Raspberry Pi:
- the original models A and B,
- the "enhanced" models A+ and B+,
- the model B2 (aka Raspberry Pi 2)
- the model B3 (aka Raspberry Pi 3).
- the model B4 (aka Raspberry Pi 4).
- the model CM4 (aka Raspberry Pi Compute Module 4 and IO Board).
How to build it
===============
Configure Buildroot
-------------------
There are two RaspberryPi defconfig files in Buildroot, one for each
major variant, which you should base your work on:
For models A, B, A+ or B+:
$ make raspberrypi_defconfig
For model Zero (model A+ in smaller form factor):
$ make raspberrypi0_defconfig
For model Zero 2 W (model B3 in smaller form factor):
$ make raspberrypizero2w_defconfig
For model 2 B:
$ make raspberrypi2_defconfig
For model 3 B and B+:
$ make raspberrypi3_defconfig
or for model 3 B and B+ (64 bit):
$ make raspberrypi3_64_defconfig
For model 4 B:
$ make raspberrypi4_defconfig
or for model 4 B (64 bit):
$ make raspberrypi4_64_defconfig
For model CM4 (on IO Board):
$ make raspberrypicm4io_defconfig
or for CM4 (on IO Board - 64 bit):
$ make raspberrypicm4io_64_defconfig
Build the rootfs
----------------
Note: you will need to have access to the network, since Buildroot will
download the packages' sources.
You may now build your rootfs with:
$ make
(This may take a while, consider getting yourself a coffee ;-) )
Result of the build
-------------------
After building, you should obtain this tree:
output/images/
+-- bcm2708-rpi-b.dtb [1]
+-- bcm2708-rpi-b-plus.dtb [1]
+-- bcm2708-rpi-cm.dtb [1]
+-- bcm2708-rpi-zero.dtb [1]
+-- bcm2708-rpi-zero-w.dtb [1]
+-- bcm2710-rpi-zero-2-w.dtb [1]
+-- bcm2709-rpi-2-b.dtb [1]
+-- bcm2710-rpi-3-b.dtb [1]
+-- bcm2710-rpi-3-b-plus.dtb [1]
+-- bcm2710-rpi-cm3.dtb [1]
+-- bcm2711-rpi-4-b.dtb [1]
+-- bcm2711-rpi-cm4.dtb [1]
+-- bcm2837-rpi-3-b.dtb [1]
+-- boot.vfat
+-- rootfs.ext4
+-- rpi-firmware/
| +-- bootcode.bin
| +-- cmdline.txt
| +-- config.txt
| +-- fixup.dat [1]
| +-- fixup4.dat [1]
| +-- start.elf [1]
| +-- start4.elf [1]
| `-- overlays/ [2]
+-- sdcard.img
+-- Image [1]
`-- zImage [1]
[1] Not all of them will be present, depending on the RaspberryPi
model you are using.
[2] Only for the Raspberry Pi 3/4 Models (overlay miniuart-bt is needed
to enable the RPi3 serial console otherwise occupied by the bluetooth
chip). Alternative would be to disable the serial console in cmdline.txt
and /etc/inittab.
How to write the SD card
========================
Once the build process is finished you will have an image called "sdcard.img"
in the output/images/ directory.
Copy the bootable "sdcard.img" onto an SD card with "dd":
$ sudo dd if=output/images/sdcard.img of=/dev/sdX
Insert the SDcard into your Raspberry Pi, and power it up. Your new system
should come up now and start two consoles: one on the serial port on
the P1 header, one on the HDMI output where you can login using a USB
keyboard.
How to write to CM4 eMMC memory
===============================
For CM4 modules without eMMC memory see above for booting from SD card,
for CM4 moduels with eMMC memory proceed as following:
- fit jumper on IO Board header J2 to disable eMMC boot
- connect IO Board micro USB port (J11 USB slave) to your host linux system
- power up CM4/IO Board (lsusb command should show a '0a5c:2711 Broadcom Corp.
BCM2711 Boot' device)
- run 'sudo ./host/bin/rpiboot', output should look like the following:
Waiting for BCM2835/6/7/2711...
Loading embedded: bootcode4.bin
Sending bootcode.bin
Successful read 4 bytes
Waiting for BCM2835/6/7/2711...
Loading embedded: bootcode4.bin
Second stage boot server
Loading embedded: start4.elf
File read: start4.elf
Second stage boot server done
- a USB mass storage device should show up (the CM4 eMMC memory), proceed
as described above to copy sdcard.img to it
- power down CM4/IO Board
- remove jumper on IO Board header J2 to re-enable eMMC boot
- power up CM4/IO Board