There are a set of ways in which a user can influence different parameters of the build. We list here the ones that are closely related to this BSP or specific to it. For the rest please check: http://www.yoctoproject.org/docs/latest/ref-manual/ref-manual.html
Overwrite IMAGE_FSTYPES in local.conf
IMAGE_FSTYPES = "tar.bz2 ext3.xz"
Overwrite SDIMG_ROOTFS_TYPE in local.conf
SDIMG_ROOTFS_TYPE = "ext3.xz"
Accommodate the values above to your own needs (ex: ext3 / ext4).
GPU_MEM
: GPU memory in megabyte. Sets the memory split between the ARM and GPU. ARM gets the remaining memory. Min 16. Default 64.
GPU_MEM_256
: GPU memory in megabyte for the 256MB Raspberry Pi. Ignored by the 512MB RP. Overrides gpu_mem. Max 192. Default not set.
GPU_MEM_512
: GPU memory in megabyte for the 512MB Raspberry Pi. Ignored by the 256MB RP. Overrides gpu_mem. Max 448. Default not set.
GPU_MEM_1024
: GPU memory in megabyte for the 1024MB Raspberry Pi. Ignored by the 256MB/512MB RP. Overrides gpu_mem. Max 944. Default not set.
See: https://www.raspberrypi.org/documentation/configuration/config-txt/memory.md
By default, each machine uses vc4
for graphics. This will in turn sets mesa as provider for gl
libraries. DISABLE_VC4GRAPHICS
can be set to 1
to disable this behaviour falling back to using userland
. Be aware that userland
has not support for 64-bit arch. If you disable vc4
on a 64-bit Raspberry Pi machine, expect build breakage.
To add your own licenses use variables KEY_DECODE_MPG2
and KEY_DECODE_WVC1
in local.conf. Example:
KEY_DECODE_MPG2 = "12345678" KEY_DECODE_WVC1 = "12345678"
You can supply more licenses separated by comma. Example:
KEY_DECODE_WVC1 = "0x12345678,0xabcdabcd,0x87654321"
See: https://www.raspberrypi.org/documentation/configuration/config-txt/codeclicence.md
By default the GPU adds a black border around the video output to compensate for TVs which cut off part of the image. To disable this set this variable in local.conf:
DISABLE_OVERSCAN = "1"
By default a rainbow splash screen is shown after the GPU firmware is loaded. To disable this set this variable in local.conf:
DISABLE_SPLASH = "1"
The Raspberry Pi waits a number of seconds after loading the GPU firmware and before loading the kernel. By default it is one second. This is useful if your SD card needs a while to get ready before Linux is able to boot from it. To remove (or adjust) this delay set these variables in local.conf:
BOOT_DELAY = "0" BOOT_DELAY_MS = "0"
The Raspberry Pi can be overclocked. As of now overclocking up to the "Turbo Mode" is officially supported by the Raspberry Pi and does not void warranty. Check the config.txt for a detailed description of options and modes. The following variables are supported in local.conf: ARM_FREQ
, GPU_FREQ
, CORE_FREQ
, SDRAM_FREQ
and OVER_VOLTAGE
.
Example official settings for Turbo Mode in Raspberry Pi 2:
ARM_FREQ = "1000" CORE_FREQ = "500" SDRAM_FREQ = "500" OVER_VOLTAGE = "6"
See: https://www.raspberrypi.org/documentation/configuration/config-txt/overclocking.md
The Raspberry Pi can output video over HDMI or SDTV composite (the RCA connector). By default the video mode for these is autodetected on boot: the HDMI mode is selected according to the connected monitor's EDID information and the composite mode is defaulted to NTSC using a 4:3 aspect ratio. Check the config.txt for a detailed description of options and modes. The following variables are supported in local.conf: HDMI_FORCE_HOTPLUG
, HDMI_DRIVE
, HDMI_GROUP
, HDMI_MODE
, CONFIG_HDMI_BOOST
, SDTV_MODE
, SDTV_ASPECT
and DISPLAY_ROTATE
.
Example to force HDMI output to 720p in CEA mode:
HDMI_GROUP = "1" HDMI_MODE = "4"
See: https://www.raspberrypi.org/documentation/configuration/config-txt/video.md
Set this variable to enable support for the video camera (Linux 3.12.4+ required):
VIDEO_CAMERA = "1"
Set this variable to enable support for dispmanx offline compositing:
DISPMANX_OFFLINE = "1"
This will enable the firmware to fall back to off-line compositing of Dispmanx elements. Normally the compositing is done on-line, during scanout, but cannot handle too many elements. With off-line enabled, an off-screen buffer is allocated for compositing. When scene complexity (number and sizes of elements) is high, compositing will happen off-line into the buffer.
Heavily recommended for Wayland/Weston.
See: http://wayland.freedesktop.org/raspberrypi.html
To add the kdbg over console (kgdboc) parameter to the kernel command line, set this variable in local.conf:
ENABLE_KGDB = "1"
To disable rpi boot logo, set this variable in local.conf:
DISABLE_RPI_BOOT_LOGO = "1"
To have u-boot load kernel image, set in your local.conf:
RPI_USE_U_BOOT = "1"
This will select the appropriate image format for use with u-boot automatically. For further customisation the KERNEL_IMAGETYPE and KERNEL_BOOTCMD variables can be overridden to select the exact kernel image type (eg. zImage) and u-boot command (eg. bootz) to be used.
To build an initramfs image:
Set this 3 kernel variables (in kernel's do_configure_prepend in linux-raspberrypi.inc after the line kernel_configure_variable LOCALVERSION """" )
Set the yocto variables (e.g. in local.conf)
INITRAMFS_IMAGE = "<name for your initramfs image>"
INITRAMFS_IMAGE_BUNDLE = "1"
BOOT_SPACE = "1073741"
INITRAMFS_MAXSIZE = "315400"
IMAGE_FSTYPES_pn-${INITRAMFS_IMAGE} = "${INITRAMFS_FSTYPES}"
The SD card image class supports adding extra files into the boot partition, where the files are copied from either the image root partition or from the build image deploy directory.
To copy files that are present in the root partition into boot, FATPAYLOAD is a simple space-separated list of files to be copied:
FATPAYLOAD = "/boot/example1 /boot/example2"
To copy files from the image deploy directory, the files should be listed in the DEPLOYPAYLOAD as a space-separated list of entries. Each entry lists a file to be copied, and an optional destination filename can be specified by supplying it after a colon separator.
DEPLOYPAYLOAD = "example1-${MACHINE}:example1 example2"
Files that are to be included from the deploy directory will be produced by tasks that image building task must depend upon, to ensure that the files are available when they are needed, so these component deploy tasks must be added to: RPI_SDIMG_EXTRA_DEPENDS.
RPI_SDIMG_EXTRA_DEPENDS_append = " example:do_deploy"
When using device tree kernels, set this variable to enable the SPI bus:
ENABLE_SPI_BUS = "1"
When using device tree kernels, set this variable to enable I2C:
ENABLE_I2C = "1"
Furthermore, to auto-load I2C kernel modules set:
KERNEL_MODULE_AUTOLOAD_rpi += "i2c-dev i2c-bcm2708"
Basic support for using PiTFT screens can be enabled by adding below in local.conf:
MACHINE_FEATURES += "pitft"
NOTE: To get this working the overlay for the PiTFT model must be build, added and specified as well (dtoverlay= in config.txt).
Below is a list of currently supported PiTFT models in meta-raspberrypi, the modelname should be added as a MACHINE_FEATURES in local.conf like below:
MACHINE_FEATURES += "pitft <modelname>"
List of currently supported models:
If you would like to use the Waveshare "C" 1024×600, 7 inch Capacitive Touch Screen LCD, HDMI interface (http://www.waveshare.com/7inch-HDMI-LCD-C.htm) Rev 2.1, please set the following in your local.conf:
WAVESHARE_1024X600_C_2_1 = "1"
RaspberryPi 0, 1, 2 and CM will have UART console enabled by default.
RaspberryPi 0 WiFi and 3 does not have the UART enabled by default because this needs a fixed core frequency and enable_uart will set it to the minimum. Certain operations - 60fps h264 decode, high quality deinterlace - which aren't performed on the ARM may be affected, and we wouldn't want to do that to users who don't want to use the serial port. Users who want serial console support on RaspberryPi 0 Wifi or 3 will have to explicitly set in local.conf:
ENABLE_UART = "1"
Ref.:
The standard USB driver only supports host mode operations. Users who want to use gadget modules like g_ether should set the following in local.conf:
ENABLE_DWC2_PERIPHERAL = "1"
When using device tree kernels, set this variable to enable the 802.15.4 hat:
ENABLE_AT86RF = "1"
See: https://openlabs.co/OSHW/Raspberry-Pi-802.15.4-radio
In order to use CAN with an MCP2515-based module, set the following variables:
ENABLE_SPI_BUS = "1" ENABLE_CAN = "1"
In case of dual CAN module (e.g. PiCAN2 Duo), set following variables instead:
ENABLE_SPI_BUS = "1" ENABLE_DUAL_CAN = "1"
Some modules may require setting the frequency of the crystal oscillator used on the particular board. The frequency is usually marked on the package of the crystal. By default, it is set to 16 MHz. To change that to 8 MHz, the following variable also has to be set:
CAN_OSCILLATOR="8000000"
Tested modules:
Users who want to enable infrared support, for example for using LIRC (Linux Infrared Remote Control), have to explicitly set in local.conf:
ENABLE_IR = "1"
This will add device tree overlays gpio-ir and gpio-ir-tx to config.txt. Appropriate kernel modules will be also included in the image. By default the GPIO pin for gpio-ir is set to 18 and the pin for gpio-ir-tx is 17. Both pins can be easily changed by modifying variables GPIO_IR
and GPIO_IR_TX
.
The RPI_EXTRA_CONFIG
variable can be used to manually add additional lines to the config.txt
file if there is not a specific option above for the configuration you need. To add multiple lines you must include \n
separators. If double-quotes are needed in the lines you are adding you can use single quotes around the whole string.
For example, to add a comment containing a double-quote and a configuration option:
RPI_EXTRA_CONFIG = ' \n \ # Raspberry Pi 7\" display/touch screen \n \ lcd_rotate=2 \n \ '
RaspberryPi does not have the unicam device ( RaspberryPi Camera ) enabled by default. Because this unicam device ( bcm2835-unicam ) as of now is used by libcamera opensource. So we have to explicitly set in local.conf.
RASPBERRYPI_CAMERA_V2 = "1"
This will add the device tree overlays imx219 ( RaspberryPi Camera sensor V2 driver ) to config.txt. Also, this will enable adding Contiguous Memory Allocation value in the cmdline.txt.
Ref.: