Raspberry PI

Bezugsquellen

• [Raspberry PI Starter Kit]
• [PiCan CAN Bus and power supply]

Kernel kompilieren

Die Infos kommen von [eLinux]. Dort ggf. nach Neuigkeiten suchen.

Das Zielverzeichnis braucht im Moment 6.1 GB. Dauer der Builds (ohne git Downloads):

• auf job1:/data3/rpi ca. 9 Minuten
• auf job4:/dev/shm/rpi ca. 5 Minuten
• auf dem Raspberry Pi ca 22 Stunden! Nicht selbst getestet ;)

export RPI_DIR=/data3/rpi
mkdir -p "$RPI_DIR"
cd "$RPI_DIR"

git clone https://github.com/raspberrypi/linux
export KERNEL_SOURCE="$RPI_DIR/linux"

git clone https://github.com/raspberrypi/tools
export CCPREFIX="$RPI_DIR/tools/arm-bcm2708/gcc-linaro-arm-linux-gnueabihf-raspbian-x64/bin/arm-linux-gnueabihf-"

git clone git://github.com/raspberrypi/firmware.git

cd linux
make mrproper
cp -av arch/arm/configs/bcmrpi_defconfig .config
make ARCH=arm CROSS_COMPILE=${CCPREFIX} olddefconfig
cp -av .config ../bcmrpi_defconfig-plus-oldconfig-and-defaults

sudo zypper install gtk3-devel
sudo zypper install glib2-devel
sudo zypper install libglade2-devel
make ARCH=arm CROSS_COMPILE=${CCPREFIX} gconfig

# LOCALVERSION=jb
# LOCALVERSION_AUTO=Y

make ARCH=arm CROSS_COMPILE=${CCPREFIX} -j9
make ARCH=arm CROSS_COMPILE=${CCPREFIX} modules

export MODULES_TEMP="$RPI_DIR/modules-temp"
mkdir -p "$MODULES_TEMP"
make ARCH=arm CROSS_COMPILE=${CCPREFIX} INSTALL_MOD_PATH=${MODULES_TEMP} modules_install

Kernel Config for Can

[*] Networking support --->
....<M> CAN bus subsystem support --->
........<M> Raw CAN Protocol (raw access with CAN-ID filtering)
........<M> Broadcast Manager CAN Protocol (with content filtering)
............CAN Device Drivers --->
................<M> Platform CAN drivers with Netlink support
................[*] CAN bit-timing calculation
................<M> Microchip MCP251x SPI CAN controllers
................[*] CAN devices debugging messages
....Device Drivers --->
........[*] SPI support --->
............<M> BCM2798 SPI controller driver (SPI0)
............<M> User mode SPI driver support
.......-*- GPIO Support --->
............[*] /sys/class/gpio/... (sysfs interface)

Serielle Konsole anschließen

Adafruit USB Seriell Konverter Kabel anschließen:

• Rot = 5V = GPIO Pin in der Platinenecke (nur wenn Strom nicht schon über USB Port kommt!)
• Schwarz = GND = übernächster Pin
• Weiß = TXD 3,3V = nächster Pin
• Grün = RXD 3,3V = nächster Pin

Siehe auch [Adafruits Lesson 5]

Auf Linux Seite dann USB einstecken und Terminalprogramm starten (x=0,1, ...)

minicom -b 115200 -o -D /dev/ttyUSBx

oder

screen /dev/ttyUSBx 115200

Format SD Card with Standard Linux Tools

• Edit first line to match sd device name (find that with "sudo dmesg | o")
• Edit second line to match your downloaded noobs zip image

d=sd_ \
&& f=~/Downloads/NOOBS_v3_2_0.zip \
&& sudo mkdir -p /dev/shm/$d \
&& sudo dd if=/dev/zero of=/dev/$d bs=1M count=1 \
&& sudo /usr/sbin/parted /dev/$d mklabel msdos \
&& sudo /usr/sbin/parted /dev/$d mkpart p fat32 0% 100% \
&& while [ ! -f /dev/${d}1 ]; do sleep 1; done \
&& sudo mkfs.vfat -n 'NOOBS_3_2_0' /dev/${d}1 \
&& sudo mount /dev/${d}1 /dev/shm/${d}1 \
&& cd /dev/shm/${d}1 \
&& sudo unzip $f \
&& cd - \
&& sudo umount /dev/shm/${d}1 \
&& sudo rmdir /dev/shm/${d}1