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| − | [[en:Getting_Started_with_M1]]
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| − | =Introduction=
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| − | ==BPI-M1P==
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| − | [[File:M1P_ubuntu.png|thumb|Overview: BPI-M1P ubuntu linux]]
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| − | The Banana Pi M1+ features onboard WiFi g/b/n. The board supports all classic projects and even more because of the onboard WIFi chip. Like its sibling, it can run operating systems including Android, Lubuntu, Ubuntu, Debian, and Raspbian.
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| − | The Banana Pi M1+ is our upgraded M1 board. We feel like the onboard WiFi adds a lot more features to the board and makes it more convient for users to set up their linx desktop or router projects.
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| − |
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| − | *Read more about : [[Banana Pi BPI-M1+]]
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| − |
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| − | ===Key Features===
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| − | * Dual-core 1.0GHz CPU
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| − | * 1 GB DDR3 memeory
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| − | * Mali-400 MP2 with Open GL ES 2.0/1.1
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| − | * WiFi onbaord
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| − |
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| − | =Development=
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| − | Let's get start to develop on BPI-M1P, see amazing things happen.
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| − | ==Basic Development==
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| − | ===Prepare to develop===
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| − | * Prepare 8G/above TF card, USB-Serial interface, PC with Ubuntu System
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| − | * Using your USB-Serial Connect debug console on M1P
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| − |
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| − | ===Load your first image on M1P===
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| − | 1.You could download latest image from our forum
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| − |
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| − | 2.Install bpi-tools on your system
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| − | * apt-get install pv
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| − | * curl -sL https://github.com/BPI-SINOVOIP/bpi-tools/raw/master/bpi-tools | sudo -E bash
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| − |
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| − | 3.After you download the image, insert your TF card into your Ubuntu
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| − | * Execute "bpi-copy xxx.img /dev/sdx" to install image on your TF card.
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| − |
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| − | 4.After step 3, then you can insert your TF card into M1P, and press power button setup M1P
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| − |
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| − | ==Advanced Development==
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| − | ===SATA===
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| − | 1. Mount SATA on M1P
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| − | * After insert sata interface, execute "fdisk -l"
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| − | * Then "mount /dev/sdx /mnt/xxx"
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| − | [[Image:M1P_Sata.png]]
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| − |
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| − | 2. If you meet some errors when you mount SATA, try these following commands:
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| − |
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| − | * "fdisk /dev/sdx" to create new partition , set your partition numbers and size, after created partitions, input "wq" to save and quit.
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| − | * "mkfs.ext2 /dev/sdx" to format the SATA
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| − | * "mount /dev/sdx /mnt/xxx"
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| − |
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| − | 3. After you success to insert SATA, we could input following commands to test SATA interface:
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| − | * "time dd if=/dev/xxx of=/dev/null bs=1M count=1000" to test read speed
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| − | * "time dd if=/dev/zero of=/dev/sdx bs=1M count=1000" to test write speed
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| − | [[Image:Sata_test.png]]
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| − |
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| − | ===Touch screen===
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| − |
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| − | ===GMAC===
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| − | Use iperf3 to test gmac
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| − |
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| − | 1. On PC Terminal:
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| − | * Execute "iperf3 -s"
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| − |
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| − | 2. On M1P console:
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| − | * TCP test: "iperf3 -c serverIP"
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| − | * UDP test: "iperf3 -u -c serverIP"
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| − | [[Image:M1P_Gmac_test.png]]
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| − |
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| − | ===WiFi on M1P===
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| − | ====WiFi Client====
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| − | '''You have two ways to setup WiFi Client'''
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| − |
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| − | 1. Use commands to setup WiFi client
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| − | * ip link set wlan0 up
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| − | * iw dev wlan0 scan | grep SSID
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| − | * vim /etc/wpasupplicant/wpa_supplicant.conf
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| − | * network={ ssid="ssid" psk="password" priority=1 }
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| − | * wpa_supplicant -i wlan0 -c /etc/wpa_supplicant/wpa_supplicant.conf
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| − | * dhclient wlan0
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| − |
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| − | 2. Use UI interface to setup WiFi Client
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| − |
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| − | ===Clear boot===
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| − | * git clone https://github.com/BPI-SINOVOIP/BPI-files/tree/master/SD/100MB
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| − | * bpi-bootsel BPI-cleanboot-8k.img.gz /dev/sdX
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| − |
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| − | ===IR function===
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| − | * Execute "getevent"
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| − | * Use your IR device to send information to M1P
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| − | [[Image:M1P_IR.png]]
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| − |
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| − | ===RPi.GPIO===
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| − | ====Install RPi.GPIO====
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| − | * Execute "git clone https://github.com/BPI-SINOVOIP/RPi.GPIO"
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| − | * after clone the repo, cd RPi,GPIO
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| − | * Execute "sudo apt-get update"
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| − | * Execute "sudo apt-get install python-dev python3-dev"
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| − | * Execute "sudo python setup.py install" or "sudo python3 setup.py install" to install the module
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| − |
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| − | ====Using RPi.GPIO====
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| − | * cd /usr/local/bin
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| − | * Execute "./bpi_test_g40.py" to test RPi.GPIO
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| − |
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| − | [[Image: RPi_GPIO.png]]
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| − |
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| − |
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| − | ===WringPi===
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| − | * GitHub: https://github.com/BPI-SINOVOIP/BPI-WiringPi2.git
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| − | * We also have built-in test command in "/usr/local/bin"
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| − |
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| − | ====RGB 1602 LCD====
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| − | * Execute "/usr/local/bin/bpi_test_lcd1602.sh"
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| − |
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| − | ====8x8 RGB LED Martix====
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| − | * Firstly you need a GPIO Extend Board for 8x8 LED Martix
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| − | [[Image: WringPi_LED_Martix_Extend_Board.png]]
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| − |
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| − | * Execute "/usr/local/bin/bpi_test_gpio40.sh"
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| − |
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| − | ===File System===
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| − | * read only system change to read & write mode: "mount -o remount,rw /"
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| − |
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| − | ===Install QT===
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| − | * sudo apt-get install build-essential
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| − | * sudo apt-get install libgl1-mesa-dev
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| − | * sudo apt-get install libglu1-mesa-dev
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| − | * sudo apt-get install freeglut3-dev
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| − | * sudo apt-get install cmake
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| − | * sudo apt-get install qt5-default qtcreator
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| − |
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| − | ===A20 CAN Bus===
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| − |
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| − | In order to port [https://sourceforge.net/projects/can4linux/ can4linux] to the BananaPi, the CAN module description is needed from the A20 hardware manual. can4linux is a character-driver-based Linux driver used already on desktop PCs and embedded platforms like Freescale FlexCAN (the i.MX series of micro controllers) or Xiliny Zynq.
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| − |
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| − | There is a more detailed document about CAN on the A20 at: https://dl.linux-sunxi.org/A20/CAN%20Bus1.pdf
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| − |
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| − | This is a tutorial for using CAN BUS on bananapi with bananian 15-01
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| − |
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| − | Thank selqcir share this example:
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| − |
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| − | *Download and install "bananian-1501.img" into 8 GB SDCard.
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| − | *Expand the root file system using "bananian-config"
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| − | *Install missing package:
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| − | apt-get install git
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| − | apt-get update
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| − | apt-get upgrade
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| − | reboot
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| − | *Get last bananian available, and continu to install missing package:
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| − | git clone https://github.com/Bananian/linux-bananapi
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| − | apt-get install build-essential u-boot-tools uboot-mkimage
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| − | apt-get install libusb-1.0-0 libusb-1.0-0-dev git wget fakeroot kernel-package zlib1g-dev libncurses5-dev
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| − | apt-get install subversion
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| − | *Build kernel:
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| − | cd linux-bananapi
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| − | make menuconfig
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| − | *Exit without saving when menu appears
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| − | zcat /proc/config.gz > /root/linux-bananapi/.config
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| − | make uImage modules
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| − | make INSTALL_MOD_PATH=output modules_install
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| − | *At this step, kernel should be compiled and "Module.symvers" should be available
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| − | *Then rename modules and firmware provide by Bananian, and replace by the new one.
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| − | mv /lib/modules /lib/modules.old
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| − | mv /lib/firmware /lib/firmware.old
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| − | mv /root/linux-bananapi/output/lib/modules /lib/modules
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| − | mv /root/linux-bananapi/output/lib/firmware /lib/firmware
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| − | *Same for uImage:
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| − | mount /dev/mmcblk0p1 /mnt
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| − | cd /mnt
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| − | mv uImage uImage.old
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| − | mv /root/linux-bananapi/arch/arm/boot/uImage /mnt
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| − | reboot
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| − | *Create link for further build:
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| − | cd /lib/modules/3.4.104/
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| − | ln -s /root/linux-bananapi build
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| − | cd ~
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| − | *Get Can4Linux and build it:
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| − | svn checkout https://svn.code.sf.net/p/can4linux/code/trunk can4linux-code
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| − | cd /root/can4linux-code/can4linux/
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| − | make TARGET=BANANAPI
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| − | *Install module for each startup of the board:
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| − | insmod can4linux.ko
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| − | cp can4linux.ko /lib/modules/3.4.104/kernel/net/can/
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| − | depmod -A -v
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| − | modprobe -v can4linux
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| − | echo "" >> /etc/modules ; echo "can4linux" >> /etc/modules
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| − | reboot
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| − | *Build CAN example
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| − | apt-get install swig
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| − | apt-get install python-dev
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| − | cd can4linux-code/can4linux-examples/
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| − | *Update CAN speed and device in file "pyCan-example.py"
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| − | # setting the device number
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| − | device = 0
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| − | defaultBaudrate = '250'
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| − | *Connect CAN transceiver and CAN bus, and check with for example:
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| − | python pyCan-example.py
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| − |
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| − | That's all
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| − | With this method, kernel version is "Linux bananapi 3.4.104" instead of "Linux bananapi 3.4.104+", because i was unable to find same sources than Bananian 15-01 , but CAN bus work !
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| − |
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| − | ==FAQ==
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