Difference between revisions of "快速上手 M2P"

From Banana Pi Wiki
Jump to: navigation, search
(Blanked the page)
 
Line 1: Line 1:
[[en:Getting_Started_with_M2P]]
 
=介绍=
 
  
[[File:M2p_ubunu.jpg|thumb|Overview: BPI-M2+ Ubuntu linux]]
 
[[File:M2p_debian.jpg|thumb|Overview:BPI-M2+ Debian linux]]
 
[[File:Rasbian.jpg|thumb|Overview:BPI-M2+ Rasbian linux]]
 
 
香蕉派M2+是一种微型的开发板, 在超便携的形状特性中提供了巨大的计算性能. M2+只有65mm*65mm的大小, 搭配Allwinner H系列芯片, 它具有不同的版本,但共享相同的接口.
 
 
 
*关于更多 : [[Banana Pi BPI-M2+]]
 
*烧录镜像  : [[Quick Start Banana pi SBC]]
 
 
==BPI-M2+ H3==
 
===Key Features===
 
* Quad-core 1.2GHz Cortex-A7 H3
 
* 1GB DDR3
 
* 8GB eMMC onboard
 
* WiFi and BlueTooth onboard
 
* 10/100/1000Mbps Ethernet Port
 
 
=Development For Android=
 
===Load your first image on M2P===
 
  1.You could download latest image from our forum.
 
  Ex: http://forum.banana-pi.org/t/bananapi-bpi-m2p-h3-new-image-android7-0-release-2018-6-30/6147
 
 
 
  2.Put your TF card into a TF-USB adapter, and then plug adapter in your Windows PC usb interface.
 
 
 
  3.Prepare your image, and download image burning tools PhoenixCard.exe.
 
 
 
  4.Use "PhoenixCard.exe" to burn android image to TF card.
 
 
  * Here is the example of M3
 
 
 
  [[Image:M3_Android_Burning.png]]
 
 
===Load your image on M2P EMMC===
 
  1.The only different with sd card burning is the image burning mode item choice
 
 
  * Here is the example of M3
 
 
 
  [[Image:M3_Android_Emmc_Burning.png]]
 
 
 
  2.After succeed to burn image to SD, then plug SD card in your M2P
 
 
 
  3.Press power button, device will copy image to EMMC automatically
 
 
  * Download PhoenixCard: https://pan.baidu.com/s/18Fo_JhYY02gmxtFw2Ps3rQ
 
 
=Development For Linux=
 
==Basic Development==
 
===Prepare to develop===
 
  * Prepare 8G/above TF card, USB-Serial interface, PC with Ubuntu System
 
  * Using your USB-Serial Connect debug console on M2P
 
 
===Load your first image on M2P===
 
  1.You could download latest image from our forum
 
  * Here is the example forum thread link: http://forum.banana-pi.org/t/banana-pi-bpi-m2p-new-image-release-ubuntu-16-04-v1-1/5719
 
 
 
  2.Install bpi-tools on your Ubuntu
 
  * apt-get install pv
 
  * curl -sL https://github.com/BPI-SINOVOIP/bpi-tools/raw/master/bpi-tools | sudo -E bash
 
 
 
  3.After you download the image, insert your TF card into your Ubuntu
 
  * Execute "bpi-copy xxx.img /dev/sdx" to install image on your TF card.
 
 
 
  4.After step 3, then you can insert your TF card into M2P, and press power button setup M2P.
 
 
===Load your first image on M2P EMMC===
 
  * Run your M2P with TF card
 
  * Copy "xxx-sd-emmc-xxx.img.zip / xxx-sd-emmc-xxx.img" to your USB disk
 
  * Plug your USB disk in M2P
 
  * After M2P recognise USB disk, execute "bpi-copy xxx-sd-emmc-xxx.img.zip / xxx-sd-emmc-xxx.img" to install image on EMMC
 
  * Then power off M2P, take TF card out, power on M2P with EMMC
 
 
==Advanced Development==
 
 
===How to build uboot & kernel===
 
====Install tools====
 
* apt-get udpate
 
* apt-get install gcc-arm-linux-gnueabihf u-boot-tools
 
* apt-get install pv
 
* curl -sL https://github.com/BPI-SINOVOIP/bpi-tools/raw/master/bpi-tools | sudo -E bash
 
====Clone code====
 
* git clone: https://github.com/BPI-SINOVOIP/BPI-M2P-bsp.git
 
* ./build.sh
 
 
===How to create an image ===
 
* Prepare a SD card which have installed system(Ubuntu/Raspbian/..)
 
* Boot your SD card with M2P, after M2P finish starting, copy your files and config your system, then poweroff M2P. [If you don't want to config your system, you can skip this step]
 
* Plug your SD card in PC(which is running Linux), "cd /media", then "ln -s <your account> pi"
 
* Execute "bpi-migrate -c bpi-m2p.conf -c ubuntu-mate-from-sd.conf -d /dev/sdx"
 
* Then you could get your own image now
 
 
===GPIO Control===
 
* To access a GPIO pin you first need to export it with
 
  echo XX > /sys/class/gpio/export
 
* with XX being the number of the desired pin. To obtain the correct number you have to calculate it from the pin name (like PH18)
 
  (position of letter in alphabet - 1) * 32 + pin number
 
  for PH18 this would be ( 8 - 1) * 32 + 18 = 224 + 18 = 242 (since 'h' is the 8th letter)
 
* echo "out/in" > /sys/class/gpio/gpio*NUMBER*/direction
 
* echo "0/1" > /sys/class/gpio/gpio*NUMBER*/value
 
 
===OTG===
 
1. On M2P console:
 
* Execute "./adbd.sh", then execute "ps -ax | grep adbd" to see if adbd is set up
 
 
2. On PC terminal:
 
* If adbd was succeed to set up, insert OTG-USB interface to M2P and PC(with Ubuntu system)
 
* Execute "adb devices" to see if PC has recognised M2P OTG
 
* If yes, we could execute "adb shell" to connect M2P by adb now
 
 
===GMAC===
 
* Use iperf3 to test gmac
 
 
[[Image:M2P_GMAC.png]]
 
 
===Bluetooth===
 
* Use bluetoothctl tool to operate BT
 
* Execute "bluetoothctl"
 
* If you don't know how to use bluetoothctl, type "help", you will see more commands
 
* Execute these commands:
 
[[Image:M2P_BT_bluetoothctl.png]]
 
 
[[Image:M2P_BT.png]]
 
 
===WiFi on M2P===
 
 
Driver code:
 
 
*https://github.com/BPI-SINOVOIP/BPI_WiFi_Firmware
 
 
====WiFi Client====
 
'''You have two ways to setup WiFi Client'''
 
 
1. Use commands to setup WiFi client
 
* ip link set wlan0 up
 
* iw dev wlan0 scan | grep SSID
 
* vim /etc/wpasupplicant/wpa_supplicant.conf
 
* network={    ssid="ssid"    psk="password"    priority=1 }
 
* wpa_supplicant -i wlan0 -c /etc/wpa_supplicant/wpa_supplicant.conf
 
* dhclient wlan0
 
 
2. Use UI interface to setup WiFi Client
 
 
===Clear boot===
 
* git clone https://github.com/BPI-SINOVOIP/BPI-files/tree/master/SD/100MB
 
* bpi-bootsel BPI-cleanboot-8k.img.gz /dev/sdX
 
 
===Camara function===
 
We use HDF5640 camara.
 
 
[[Image:ov5640_camara.png]]
 
====Guvcview====
 
* Use your UI interface to operate camara
 
* Applications -> Sound & Video -> guvcview
 
[[Image:guvcview_ov5640.png]]
 
====Shell====
 
* We also have built-in command in /usr/local/bin to test camara
 
* "./test_ov5640_image_mode.sh" to test picture taking function
 
* "./cameratest.sh" to test video recording function
 
 
===IR function===
 
* Execute "getevent"
 
* Use your IR device to send information to M2P
 
[[Image:IR_getevent.png]]
 
 
===BPI-Tools===
 
====Install Bpi-tools====
 
* Execute "curl -sL https://github.com/BPI-SINOVOIP/bpi-tools/raw/master/bpi-tools | sudo -E bash - "
 
 
====Update Bpi-tools====
 
* Execute "bpi-tools"
 
[[Image: Bpi-tools.png]]
 
 
===RPi.GPIO===
 
====Install RPi.GPIO====
 
* Execute "git clone https://github.com/BPI-SINOVOIP/RPi.GPIO"
 
* after clone the repo, cd RPi.GPIO
 
* Execute "sudo apt-get update"
 
* Execute "sudo apt-get install python-dev python3-dev"
 
* Execute "sudo python setup.py install" or "sudo python3 setup.py install" to install the module
 
 
====Using RPi.GPIO====
 
* cd /usr/local/bin
 
* Execute "./bpi_test_g40.py" to test RPi.GPIO
 
 
[[Image: RPi_GPIO.png]]
 
 
===WiringPi===
 
* GitHub: https://github.com/BPI-SINOVOIP/BPI-WiringPi2.git
 
* We also have built-in test command in "/usr/local/bin"
 
 
====How to Update WiringPi====
 
* Execute "bpi-update -c pkglist.conf"
 
[[Image: Update_Pkglist.png]]
 
 
* Execute "bpi-update -c bpi-pkg-bpi-wiringpi.conf"
 
[[Image: Update_WringPi.png]]
 
 
====RGB 1602 LCD====
 
* Execute "/usr/local/bin/bpi_test_lcd1602.sh"
 
[[Image: WringPi_1602_LCD.png]]
 
 
====0.96 Inch OLED Display====
 
* Execute "/usr/local/bin/bpi_test_52pi.sh"
 
[[Image: WringPi_0.96_OLED.png]]
 
 
====8x8 RGB LED Martix====
 
* Firstly you need a GPIO Extend Board for 8x8 LED Martix
 
[[Image: WringPi_LED_Martix_Extend_Board.png]]
 
 
* Execute "/usr/local/bin/bpi_test_gpio40.sh"
 
[[Image: WringPi_LED_Martix.png]]
 
 
==FAQ==
 
 
=Reference Link=
 
 
http://www.banana-pi.org/m2plus.html
 
 
http://forum.banana-pi.org/
 

Latest revision as of 21:47, 26 October 2018