Difference between revisions of "NanoPi R1"
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</syntaxhighlight> | </syntaxhighlight> | ||
+ | |||
+ | ===软件包管理=== | ||
+ | OpenWrt使用opkg工具来管理软件包,执行如下命令可以获取opkg的帮助信息: | ||
+ | <syntaxhighlight lang="text"> | ||
+ | $ opkg | ||
+ | Package Manipulation: | ||
+ | update Update list of available packages | ||
+ | upgrade <pkgs> Upgrade packages | ||
+ | install <pkgs> Install package(s) | ||
+ | configure <pkgs> Configure unpacked package(s) | ||
+ | remove <pkgs|regexp> Remove package(s) | ||
+ | flag <flag> <pkgs> Flag package(s) | ||
+ | <flag>=hold|noprune|user|ok|installed|unpacked (one per invocation) | ||
+ | |||
+ | Informational Commands: | ||
+ | list List available packages | ||
+ | list-installed List installed packages | ||
+ | list-upgradable List installed and upgradable packages | ||
+ | list-changed-conffiles List user modified configuration files | ||
+ | files <pkg> List files belonging to <pkg> | ||
+ | search <file|regexp> List package providing <file> | ||
+ | find <regexp> List packages whose name or description matches <regexp> | ||
+ | info [pkg|regexp] Display all info for <pkg> | ||
+ | status [pkg|regexp] Display all status for <pkg> | ||
+ | download <pkg> Download <pkg> to current directory | ||
+ | ... | ||
+ | </syntaxhighlight> | ||
+ | 上面只截取了部分帮助信息,请自行查阅完整的帮助信息,下面会描述几个常用的opkg命令。 | ||
+ | |||
+ | * 更新可用软件包列表 | ||
+ | 第一次安装软件前,建议先更新可用软件包列表: | ||
+ | <syntaxhighlight lang="text"> | ||
+ | $ opkg update | ||
+ | </syntaxhighlight> | ||
+ | |||
+ | * 查看可安装的软件包: | ||
+ | <syntaxhighlight lang="text"> | ||
+ | $ opkg list | ||
+ | </syntaxhighlight> | ||
+ | 本WiKi编写时,可安装的软件包共有3241个。 | ||
+ | |||
+ | * 查看已安装的软件: | ||
+ | <syntaxhighlight lang="text"> | ||
+ | $ opkg list-installed | ||
+ | </syntaxhighlight> | ||
+ | 本WiKi编写时,已安装的软件包共有124个。 | ||
+ | |||
+ | * 安装/删除软件: | ||
+ | <syntaxhighlight lang="text"> | ||
+ | $ opkg install <pkgs> | ||
+ | $ opkg remove <pkgs> | ||
+ | </syntaxhighlight> | ||
+ | |||
+ | * 查看已安装的软件包含什么文件: | ||
+ | <syntaxhighlight lang="text"> | ||
+ | $ opkg files <pkg> | ||
+ | </syntaxhighlight> | ||
+ | |||
+ | * 安装LuCI中文语言包: | ||
+ | <syntaxhighlight lang="text"> | ||
+ | $ opkg install luci-i18n-base-zh-cn | ||
+ | </syntaxhighlight> | ||
+ | |||
+ | * 查看当前系统中哪些配置文件被修改过: | ||
+ | <syntaxhighlight lang="text"> | ||
+ | $ opkg list-changed-conffiles | ||
+ | </syntaxhighlight> | ||
+ | |||
+ | * 相关参考: | ||
+ | ** [https://openwrt.org/docs/guide-user/additional-software/opkg openwrt opkg] | ||
+ | |||
+ | ===查看系统状态=== | ||
+ | * 命令行查看CPU温度和频率: | ||
+ | <syntaxhighlight lang="text"> | ||
+ | $ cpu_freq | ||
+ | CPU0 online=1 temp=26581 governor=ondemand cur_freq=480000 | ||
+ | CPU1 online=1 temp=26581 governor=ondemand cur_freq=480000 | ||
+ | CPU2 online=1 temp=26581 governor=ondemand cur_freq=480000 | ||
+ | CPU3 online=1 temp=26581 governor=ondemand cur_freq=480000 | ||
+ | </syntaxhighlight> | ||
+ | 上述信息表示当前有4个CPU核心在线, 温度均约为26.5摄氏度, 运行的策略均为根据需求来决定运行频率, 当前的运行频率均为480MHz。 | ||
+ | |||
+ | * OpenWrt-LuCI Web界面查看系统状态: | ||
+ | 登录OpenWrt-LuCI界面后,点击顶部的 Statistics ---> Graphs,可以查看系统的各种软硬件状态信息(即statistics),例如:<br> | ||
+ | 1) 系统负载:<br> | ||
+ | [[File:statistics_system_load.png|frameless|600px|statistics_system_load]] <br> | ||
+ | 2) 内存:<br> | ||
+ | [[File:statistics_memory.png|frameless|600px|statistics_memory]] <br> | ||
+ | 3) CPU温度:<br> | ||
+ | [[File:statistics_thermal.png|frameless|600px|statistics_thermal]] <br> | ||
+ | Statistics界面对应软件包luci-app-statistics,luci-app-statistics软件包用Collectd工具收集状态数据并且用RRDtool工具将数据渲染为图表。<br> | ||
+ | 你可以通过安装额外的collectd-mod-*软件包去使能更多的statistics. | ||
+ | <!-- | ||
+ | The statistics package uses Collectd to gather data and RRDtool to render diagram images. | ||
+ | You can install additional collectd-mod-* plugins to enable more statistics. | ||
+ | --> | ||
+ | 所有的collectd-mod-*软件包对应同一个配置文件: /etc/config/luci_statistics。 | ||
+ | |||
+ | * 相关参考: | ||
+ | ** [https://openwrt.org/docs/guide-user/luci/luci_app_statistics openwrt luci_app_statistics] | ||
+ | ** [https://openwrt.org/docs/guide-user/luci/statistics.chart.public openwrt statistics.chart.public] | ||
+ | ** [https://openwrt.org/docs/guide-user/perf_and_log/statistic.custom openwrt statistic.custom] | ||
+ | |||
+ | ===查看LED的配置=== | ||
+ | * 登录OpenWrt-LuCI界面后,点击顶部的 System ---> LED Configuration,可以查看当前LED的功能配置: <br> | ||
+ | [[File:R1_openwrt_led.png|frameless|600px|R1_openwrt_led]] <br> | ||
+ | * 默认LED的功能配置如下: | ||
+ | ::{| class="wikitable" | ||
+ | |- | ||
+ | |LED1 || 系统心跳灯,如果该LED不闪烁了,则表示系统死机了,必须断电重启系统。<br> | ||
+ | |- | ||
+ | |LED2 || 千兆以太网eth0 WAN口的状态灯,如果WAN口网线连接正常,则LED亮,反之则LED灭。用户可以通过勾选复选框"Transmit" / "Receive"以设置当发送 / 接收到数据时LED闪烁。<br> | ||
+ | |- | ||
+ | |LED3 || 百兆以太网eth1 LAN口的状态灯,如果LAN口网线连接正常,则LED亮,反之则LED灭。用户可以通过勾选复选框"Transmit" / "Receive"以设置当发送 / 接收到数据时LED闪烁。<br> | ||
+ | |- | ||
+ | |} | ||
+ | * 相关参考: | ||
+ | ** [https://openwrt.org/docs/guide-user/base-system/led_configuration openwrt led_configuration] | ||
+ | |||
+ | ===查看BUTTON的配置=== | ||
+ | FriendlyElec的OpenWrt系统使用软件包triggerhappy配置按键的功能,默认的配置为按下按键就会触发系统执行reboot操作。 | ||
+ | 如果系统发生了异常需要重启,建议使用该按键触发软件reboot,这样可以有效地避免由于断电而造成的文件系统损坏的问题。<br> | ||
+ | triggerhappy对应的配置文件为/etc/triggerhappy/triggers.d/example.conf。 | ||
+ | |||
+ | * 相关参考: | ||
+ | ** [https://openwrt.org/docs/guide-user/hardware/hardware.button openwrt hardware.button] | ||
+ | |||
+ | ===查看Network->Interfaces的配置=== | ||
+ | * 登录OpenWrt-LuCI界面后,点击顶部的 Network ---> Interfaces ,可以查看当前有线网络接口的功能配置: <br> | ||
+ | [[File:R1_Interfaces.png|frameless|600px|R1_Interfaces]] <br> | ||
+ | 其中,千兆以太网eth0 被配置为WAN 功能,百兆以太网eth1 被配置为LAN 功能。<br> | ||
+ | * 点击顶部的“WAN” 和“LAN” 可对WAN口和LAN口进行设置。<br> | ||
+ | [[File:R1_Interfaces_WAN.jpg|frameless|600px|R1_Interfaces_WAN]] [[File:R1_Interfaces_LAN.jpg|frameless|600px|R1_Interfaces_LAN]]<br> | ||
+ | * Network->Interfaces界面的配置会保存在文件/etc/config/network中。<br> | ||
+ | |||
+ | ===查看Netwrok->Wireless的配置=== | ||
+ | * 登录OpenWrt-LuCI界面后,点击顶部的 Network ---> Wireless,可以查看WiFi 热点的设置界面:<br> | ||
+ | [[File:R1-Wireless1.jpg|frameless|600px|R1-Wireless]]<br> | ||
+ | 默认的WiFi 热点名称为“OpenWrt”,手机可以直接连接该热点然后访问互联网,无需密码。<br> | ||
+ | |||
+ | * 点击“Edit” 按钮,更改Interface Configuration ---> General Setup ---> ESSID 可以更改WiFi热点的名字,点击Save & Apply 保存。<br> | ||
+ | [[File:R1-Wireless-ESSID.jpg|frameless|600px|R1-Wireless-ESSID]]<br> | ||
+ | * 在Interface Configuration ---> Wireless Security 的 Encryption 可以设置WiFi 热点的加密方式,在Key 设置WiFi热点的密码,点击Save & Apply 保存。<br> | ||
+ | [[File:R1-Wireless-Key.jpg|frameless|600px|R1-Wireless-Key]]<br> | ||
+ | * 在 Network ---> Wireless 页面的 Associated Stations 可以查看当前连接到WiFi 热点的设备。<br> | ||
+ | [[File:R1-Wireless-Associated_Stations.jpg|frameless|600px|R1-Wireless-Associated Stations]]<br> | ||
+ | * Network->Wireless界面的配置会保存在文件/etc/config/wireless中。<br> | ||
+ | |||
+ | {{FriendlyCoreGeneral|NanoPi-R1}} | ||
+ | {{FriendlyCoreAllwinnerH3|NanoPi-R1}} | ||
{{DeveloperGuildH3|NanoPi-R1}} | {{DeveloperGuildH3|NanoPi-R1}} |
Revision as of 02:47, 17 January 2019
Contents
- 1 Introduction
- 2 Hardware Spec
- 3 Diagram, Layout and Dimension
- 4 Get Started
- 5 How to Use OpenWrt
- 6 Work with FriendlyCore
- 6.1 Introduction
- 6.2 System Login
- 6.3 Configure System with npi-config
- 6.4 Develop Qt Application
- 6.5 Setup Program to AutoRun
- 6.6 Extend TF Card's Section
- 6.7 Transfer files using Bluetooth
- 6.8 WiFi
- 6.9 Ethernet Connection
- 6.10 Custom welcome message
- 6.11 Modify timezone
- 6.12 Connect to USB Camera(FA-CAM202)
- 6.13 Check CPU's Working Temperature
- 6.14 How to install and use docker (for armhf system)
- 6.15 Using RTC
- 7 Developer's Guide
- 8 Resources
- 9 Update Log
1 Introduction
- The NanoPi R1("R1") is a complete open source board developed by FriendlyElec for makers, hobbyists, fans and etc.
- The NanoPi R1 has one Gbps Ethernet port and one Fast Ethernet port. It has an onboard 2.4G Wi-Fi module. FriendlyElec ported OpenWRT to the R1. With some additional settings it will work like a router.Its good networking performance and features make it a good platform for various network applications.
2 Hardware Spec
- CPU: Allwinner H3, Quad-core Cortex-A7 Up to 1.2GHz
- DDR3 RAM: 512MB/1GB
- Storage: NC/8GB eMMC
- Network:
- 10/100/1000M Ethernet x 1,
- 10/100M Ethernet x 1
- WiFi: 802.11b/g/n, with SMA antenna interface
- Bluetooth:4.0 dual mode
- USB Host: Type-A x2
- MicroSD Slot x 1
- MicroUSB: for OTG and power input
- Debug Serial Port: 3Pin 2.54mm pitch pin-header
- UART: 4Pin 2.54mm pitch pin-header
- LED: LED x 3
- KEY: KEY x 1
- PC Size: 50.5 x 60mm
- Power Supply: DC 5V/2A
- Temperature measuring range: -40℃ to 80℃
- OS/Software: U-boot,Ubuntu-Core,OpenWRT
- Weight: xxg
3 Diagram, Layout and Dimension
3.1 Layout
3.2 Board Dimension
- For more details refer to:NanoPi_R1 pcb file in dxf format
4 Get Started
4.1 Essentials You Need
Before starting to use your NanoPi R1 get the following items ready
- NanoPi R1
- MicroSD Card/TF Card: Class 10 or Above, minimum 8GB SDHC
- MicroUSB 5V/2A power adapter
- A host computer running Ubuntu 16.04 64-bit system
4.2 TF Cards We Tested
To make your NanoPi R1 boot and run fast we highly recommend you use a Class10 8GB SDHC TF card or a better one. The following cards are what we used in all our test cases presented here:
- SanDisk TF 8G Class10 Micro/SD High Speed TF card:
- SanDisk TF128G MicroSDXC TF 128G Class10 48MB/S:
- 川宇 8G C10 High Speed class10 micro SD card:
4.3 Install OS
4.3.1 Download Image Files
Go to download link to download the image files under the officail-ROMs directory and the flashing utility under the tools directory:
Image Files nanopi-r1_sd_friendlycore-xenial_4.14_armhf_YYYYMMDD.img.zip FriendlyCore based on UbuntuCore and Linux-4.14 kernel nanopi-r1_sd_openwrt_4.14_armhf_YYYYMMDD.img.zip OpenWrt and Linux-4.14 kernel nanopi-r1_eflasher_friendlycore-xenial_4.14_armhf_YYYYMMDD.img.zip eflasher image which is used to install FriendlyCore(Linux-4.14) to eMMC nanopi-r1_eflasher_openwrt_4.14_armhf_YYYYMMDD.img.zip eflasher image which is used to install OpenWrt(Linux-4.14) to eMMC Flashing Utility win32diskimager.rar Windows utility. Under Linux users can use "dd"
4.3.1.1 Flash to eMMC
4.3.1.1.1 Flash OS with eflasher Utility
- For more details about eflasher refer to the wiki link: EFlasher。
- Extract the eflasher Image and win32diskimager.rar files. Insert a TF card(at least 4G) into a Windows PC and run the win32diskimager utility as administrator. On the utility's main window select your TF card's drive, the wanted image file and click on "write" to start flashing the TF card.
- Insert this card into your board's BOOT slot and power on (with a 5V/2A power source). If the green LED is on and the blue LED is blinking this indicates your board has successfully booted.
- If your board doesn't support HDMI or no monitor is connected you can select an OS by running the following command:
$ su root
$ eflasher
The password for "root" is "fa".
We take "nanopi-r1_eflasher_friendlycore-xenial_4.14_armhf_YYYYMMDD.img" as an example. After you run the "eflasher" command you will see the following messages:
Type "1", select writing friendlycore system to eMMC you will see the following messages:
Type "yes" to start installation:
After it is done power off the system, take off the TF card, power on again your system will be booted from eMMC.
- If you want to flash other system to eMMC you can download the whole images-for-eflasher directory and extract the package under that directory to the FRIENDLYARM partition of an installation SD card.
5 How to Use OpenWrt
5.1 Introduction
OpenWrt is a highly extensible GNU/Linux variant for embedded devices. Unlike many other distributions for routers, OpenWrt is built from the ground up to be a full-featured, easily modifiable OS for a router. In practice this means you can have all the features with none of the bloat, powered by a Linux kernel that is more recent than most other distributions. For more details you can refer to OpenWrt website.
5.2 Login OpenWrt
- Login from serial port
Here is a hardware setup to connect your board to a serial device:
1) Connect your board to a FriendlyElec's PSU_ONECOM module. Both the module's DC port and the board's MicroUSB need to be powered by a 5V/2A power supply.Note: insufficient power supply may not make the system work normally.
2) Connect your board to a FriendlyElec's Matrix-USB2UART module. The board's MicroUSB needs to be powered by a 5V/2A power supply
By default a user logs in as "root" and doesn't need a password for "root". You can set a password for "root" by using the "passwd" command.
When your board is booted for the first time it will automatically extend its TF card's rootfs file system to its max available space:
This will take a while and you need to wait for the process to complete.
- Login via SSH
A NanoPi R1 that runs FriendlyElec's OpenWrt by default is configured as a secondary router. Its Gbps Ethernet(eth0) is configured as WAN and Fast Ethernet(eth1) is configured as LAN.
If you want to login via SSH you need to connect your R1's Gbps Ethernet to a master router's LAN port. Here is a hardware setup:
We assume the IP address for the board's Gbps Ethernet(eth0) is 192.168.1.163. Run the following command to login via SSH:
$ ssh root@192.168.1.163
By default a user logs in as "root" without a password.
- Login from Web
OpenWrt supports system login from a LuCI Web page. You can refer to <Login via SSH> to configure your system. We assume the IP address for your board's Gbps Ethernet is 192.168.1.163. After type in the IP address in a browser's address bar you will be able to login. Here is what you should see:
By default a users logs in as "root" without a password. Click on the "Login" button you will login.
5.3 Connect to R1's WiFi Hotspot
By default a NanoPi R1 that runs OpenWrt is configured as a secondary router. To achieve better performance you need to install a WiFi antenna to your board. By default the board's WiFi module AP6212 works in the AP mode and its hotspot's name is "OpenWrt". You can use a smart phone to connect to this hotspot without a password and browse the internet.
After your smart phone is successfully connected to the board's WiFi hotspot you can go to "LuCI" -> "Netwrok" -> "Wireless" to check your connection:
By default the WiFi hotspot falls into 192.168.2.x and you can open a browser on your phone and type 192.168.2.1 in the browser's address bar to visit LuCI:
5.4 Connect to R1's LAN Port
By default a NanoPi R1 that runs OpenWrt is configured as a secondary router.Its Fast Ethernet(eth1) is configured as LAN. You can connect a device to R1's LAN port and browse the internet:
You can browser the internet from a NanoPi NEO:
$ ping www.baidu.com 64 bytes from 14.215.177.38: icmp_seq=2 ttl=56 time=19.5 ms
5.5 软件包管理
OpenWrt使用opkg工具来管理软件包,执行如下命令可以获取opkg的帮助信息:
$ opkg Package Manipulation: update Update list of available packages upgrade <pkgs> Upgrade packages install <pkgs> Install package(s) configure <pkgs> Configure unpacked package(s) remove <pkgs|regexp> Remove package(s) flag <flag> <pkgs> Flag package(s) <flag>=hold|noprune|user|ok|installed|unpacked (one per invocation) Informational Commands: list List available packages list-installed List installed packages list-upgradable List installed and upgradable packages list-changed-conffiles List user modified configuration files files <pkg> List files belonging to <pkg> search <file|regexp> List package providing <file> find <regexp> List packages whose name or description matches <regexp> info [pkg|regexp] Display all info for <pkg> status [pkg|regexp] Display all status for <pkg> download <pkg> Download <pkg> to current directory ...
上面只截取了部分帮助信息,请自行查阅完整的帮助信息,下面会描述几个常用的opkg命令。
- 更新可用软件包列表
第一次安装软件前,建议先更新可用软件包列表:
$ opkg update
- 查看可安装的软件包:
$ opkg list
本WiKi编写时,可安装的软件包共有3241个。
- 查看已安装的软件:
$ opkg list-installed
本WiKi编写时,已安装的软件包共有124个。
- 安装/删除软件:
$ opkg install <pkgs> $ opkg remove <pkgs>
- 查看已安装的软件包含什么文件:
$ opkg files <pkg>
- 安装LuCI中文语言包:
$ opkg install luci-i18n-base-zh-cn
- 查看当前系统中哪些配置文件被修改过:
$ opkg list-changed-conffiles
- 相关参考:
5.6 查看系统状态
- 命令行查看CPU温度和频率:
$ cpu_freq CPU0 online=1 temp=26581 governor=ondemand cur_freq=480000 CPU1 online=1 temp=26581 governor=ondemand cur_freq=480000 CPU2 online=1 temp=26581 governor=ondemand cur_freq=480000 CPU3 online=1 temp=26581 governor=ondemand cur_freq=480000
上述信息表示当前有4个CPU核心在线, 温度均约为26.5摄氏度, 运行的策略均为根据需求来决定运行频率, 当前的运行频率均为480MHz。
- OpenWrt-LuCI Web界面查看系统状态:
登录OpenWrt-LuCI界面后,点击顶部的 Statistics ---> Graphs,可以查看系统的各种软硬件状态信息(即statistics),例如:
1) 系统负载:
2) 内存:
3) CPU温度:
Statistics界面对应软件包luci-app-statistics,luci-app-statistics软件包用Collectd工具收集状态数据并且用RRDtool工具将数据渲染为图表。
你可以通过安装额外的collectd-mod-*软件包去使能更多的statistics.
所有的collectd-mod-*软件包对应同一个配置文件: /etc/config/luci_statistics。
5.7 查看LED的配置
- 登录OpenWrt-LuCI界面后,点击顶部的 System ---> LED Configuration,可以查看当前LED的功能配置:
- 默认LED的功能配置如下:
LED1 系统心跳灯,如果该LED不闪烁了,则表示系统死机了,必须断电重启系统。
LED2 千兆以太网eth0 WAN口的状态灯,如果WAN口网线连接正常,则LED亮,反之则LED灭。用户可以通过勾选复选框"Transmit" / "Receive"以设置当发送 / 接收到数据时LED闪烁。
LED3 百兆以太网eth1 LAN口的状态灯,如果LAN口网线连接正常,则LED亮,反之则LED灭。用户可以通过勾选复选框"Transmit" / "Receive"以设置当发送 / 接收到数据时LED闪烁。
5.8 查看BUTTON的配置
FriendlyElec的OpenWrt系统使用软件包triggerhappy配置按键的功能,默认的配置为按下按键就会触发系统执行reboot操作。
如果系统发生了异常需要重启,建议使用该按键触发软件reboot,这样可以有效地避免由于断电而造成的文件系统损坏的问题。
triggerhappy对应的配置文件为/etc/triggerhappy/triggers.d/example.conf。
- 相关参考:
5.9 查看Network->Interfaces的配置
- 登录OpenWrt-LuCI界面后,点击顶部的 Network ---> Interfaces ,可以查看当前有线网络接口的功能配置:
其中,千兆以太网eth0 被配置为WAN 功能,百兆以太网eth1 被配置为LAN 功能。
- 点击顶部的“WAN” 和“LAN” 可对WAN口和LAN口进行设置。
- Network->Interfaces界面的配置会保存在文件/etc/config/network中。
5.10 查看Netwrok->Wireless的配置
- 登录OpenWrt-LuCI界面后,点击顶部的 Network ---> Wireless,可以查看WiFi 热点的设置界面:
默认的WiFi 热点名称为“OpenWrt”,手机可以直接连接该热点然后访问互联网,无需密码。
- 点击“Edit” 按钮,更改Interface Configuration ---> General Setup ---> ESSID 可以更改WiFi热点的名字,点击Save & Apply 保存。
- 在Interface Configuration ---> Wireless Security 的 Encryption 可以设置WiFi 热点的加密方式,在Key 设置WiFi热点的密码,点击Save & Apply 保存。
- 在 Network ---> Wireless 页面的 Associated Stations 可以查看当前连接到WiFi 热点的设备。
- Network->Wireless界面的配置会保存在文件/etc/config/wireless中。
6 Work with FriendlyCore
6.1 Introduction
FriendlyCore is a light Linux system without X-windows, based on ubuntu core, It uses the Qt-Embedded's GUI and is popular in industrial and enterprise applications.
Besides the regular Ubuntu Core's features FriendlyCore has the following additional features:
- it integrates Qt4.8;
- it integrates NetworkManager;
- it has bluez and Bluetooth related packages;
- it has alsa packages;
- it has npi-config;
- it has RPiGPIO, a Python GPIO module;
- it has some Python/C demo in /root/ directory;
- it enables 512M-swap partition;
6.2 System Login
- If your board is connected to an HDMI monitor you need to use a USB mouse and keyboard.
- If you want to do kernel development you need to use a serial communication board, ie a PSU-ONECOM board, which will
allow you to operate the board via a serial terminal.Here is a setup where we connect a board to a PC via the PSU-ONECOM and you can power on your board from either the PSU-ONECOM or its MicroUSB:
You can use a USB to Serial conversion board too.
Make sure you use a 5V/2A power to power your board from its MicroUSB port:
- FriendlyCore User Accounts:
Non-root User:
User Name: pi Password: pi
Root:
User Name: root Password: fa
The system is automatically logged in as "pi". You can do "sudo npi-config" to disable auto login.
- Update packages
$ sudo apt-get update
6.3 Configure System with npi-config
The npi-config is a commandline utility which can be used to initialize system configurations such as user password, system language, time zone, Hostname, SSH switch , Auto login and etc. Type the following command to run this utility.
$ sudo npi-config
Here is how npi-config's GUI looks like:
6.4 Develop Qt Application
Please refer to: How to Build and Install Qt Application for FriendlyELEC Boards
6.5 Setup Program to AutoRun
You can setup a program to autorun on system boot with npi-config:
sudo npi-config
Go to Boot Options -> Autologin -> Qt/Embedded, select Enable and reboot.
6.6 Extend TF Card's Section
When FriendlyCore is loaded the TF card's section will be automatically extended.You can check the section's size by running the following command:
$ df -h
6.7 Transfer files using Bluetooth
Take the example of transferring files to the mobile phone. First, set your mobile phone Bluetooth to detectable status, then execute the following command to start Bluetooth search.:
hcitool scan
Search results look like:
Scanning ... 2C:8A:72:1D:46:02 HTC6525LVW
This means that a mobile phone named HTC6525LVW is searched. We write down the MAC address in front of the phone name, and then use the sdptool command to view the Bluetooth service supported by the phone:
sdptool browser 2C:8A:72:1D:46:02
Note: Please replace the MAC address in the above command with the actual Bluetooth MAC address of the mobile phone.
This command will detail the protocols supported by Bluetooth for mobile phones. What we need to care about is a file transfer service called OBEX Object Push. Take the HTC6525LVW mobile phone as an example. The results are as follows:
Service Name: OBEX Object Push Service RecHandle: 0x1000b Service Class ID List: "OBEX Object Push" (0x1105) Protocol Descriptor List: "L2CAP" (0x0100) "RFCOMM" (0x0003) Channel: 12 "OBEX" (0x0008) Profile Descriptor List: "OBEX Object Push" (0x1105) Version: 0x0100
As can be seen from the above information, the channel used by the OBEX Object Push service of this mobile phone is 12, we need to pass it to the obexftp command, and finally the command to initiate the file transfer request is as follows:
obexftp --nopath --noconn --uuid none --bluetooth -b 2C:8A:72:1D:46:02 -B 12 -put example.jpg
Note: Please replace the MAC address, channel and file name in the above command with the actual one.
After executing the above commands, please pay attention to the screen of the mobile phone. The mobile phone will pop up a prompt for pairing and receiving files. After confirming, the file transfer will start.
Bluetooth FAQ:
1) Bluetooth device not found on the development board, try to open Bluetooth with the following command:
rfkill unblock 0
2) Prompt can not find the relevant command, you can try to install related software with the following command:
apt-get install bluetooth bluez obexftp openobex-apps python-gobject ussp-push
6.8 WiFi
For either an SD WiFi or a USB WiFi you can connect it to your board in the same way. The APXX series WiFi chips are SD WiFi chips. By default FriendlyElec's system supports most popular USB WiFi modules. Here is a list of the USB WiFi modules we tested:
Index Model 1 RTL8188CUS/8188EU 802.11n WLAN Adapter 2 RT2070 Wireless Adapter 3 RT2870/RT3070 Wireless Adapter 4 RTL8192CU Wireless Adapter 5 mi WiFi mt7601 6 5G USB WiFi RTL8821CU 7 5G USB WiFi RTL8812AU
You can use the NetworkManager utility to manage network. You can run "nmcli" in the commandline utility to start it. Here are the commands to start a WiFi connection:
- Change to root
$ su root
- Check device list
$ nmcli dev
Note: if the status of a device is "unmanaged" it means that device cannot be accessed by NetworkManager. To make it accessed you need to clear the settings under "/etc/network/interfaces" and reboot your system.
- Start WiFi
$ nmcli r wifi on
- Scan Surrounding WiFi Sources
$ nmcli dev wifi
- Connect to a WiFi Source
$ nmcli dev wifi connect "SSID" password "PASSWORD" ifname wlan0
The "SSID" and "PASSWORD" need to be replaced with your actual SSID and password.If you have multiple WiFi devices you need to specify the one you want to connect to a WiFi source with iface
If a connection succeeds it will be automatically setup on next system reboot.
For more details about NetworkManager refer to this link: Use NetworkManager to configure network settings
If your USB WiFi module doesn't work most likely your system doesn't have its driver. For a Debian system you can get a driver from Debian-WiFi and install it on your system. For a Ubuntu system you can install a driver by running the following commands:
$ apt-get install linux-firmware
In general all WiFi drivers are located at the "/lib/firmware" directory.
6.9 Ethernet Connection
If a board is connected to a network via Ethernet before it is powered on it will automatically obtain an IP with DHCP activated after it is powered up. If you want to set up a static IP refer to: Use NetworkManager to configure network settings。
6.10 Custom welcome message
The welcome message is printed from the script in this directory:
/etc/update-motd.d/
For example, to change the FriendlyELEC LOGO, you can change the file /etc/update-motd.d/10-header. For example, to change the LOGO to HELLO, you can change the following line:
TERM=linux toilet -f standard -F metal $BOARD_VENDOR
To:
TERM=linux toilet -f standard -F metal HELLO
6.11 Modify timezone
For exampe, change to Shanghai timezone:
sudo rm /etc/localtime sudo ln -ls /usr/share/zoneinfo/Asia/Shanghai /etc/localtime
6.12 Connect to USB Camera(FA-CAM202)
The FA-CAM202 is a 200M USB camera. Connect your board to camera module. Then boot OS, connect your board to a network, log into the board as root and run "mjpg-streamer":
$ cd /root/C/mjpg-streamer $ make $ ./start.sh
You need to change the start.sh script and make sure it uses a correct /dev/videoX node. You can check your camera's node by running the following commands:
$ apt-get install v4l-utils $ v4l2-ctl -d /dev/video0 -D Driver Info (not using libv4l2): Driver name : uvcvideo Card type : HC 3358+2100: HC 3358+2100 / USB 2.0 Camera: USB 2.0 Camera Bus info : usb-1c1b000.usb-1 ...
The above messages indicate that "/dev/video0" is camera's device node.The mjpg-streamer application is an open source video steam server. After it is successfully started the following messages will be popped up:
$ ./start.sh i: Using V4L2 device.: /dev/video0 i: Desired Resolution: 1280 x 720 i: Frames Per Second.: 30 i: Format............: YUV i: JPEG Quality......: 90 o: www-folder-path...: ./www/ o: HTTP TCP port.....: 8080 o: username:password.: disabled o: commands..........: enabled
start.sh runs the following two commands:
export LD_LIBRARY_PATH="$(pwd)" ./mjpg_streamer -i "./input_uvc.so -d /dev/video0 -y 1 -r 1280x720 -f 30 -q 90 -n -fb 0" -o "./output_http.so -w ./www"
Here are some details for mjpg_streamer's major options:
-i: input device. For example "input_uvc.so" means it takes input from a camera;
-o: output device. For example "output_http.so" means the it transmits data via http;
-d: input device's subparameter. It defines a camera's device node;
-y: input device's subparameter. It defines a camera's data format: 1:yuyv, 2:yvyu, 3:uyvy 4:vyuy. If this option isn't defined MJPEG will be set as the data format;
-r: input device's subparameter. It defines a camera's resolution;
-f: input device's subparameter. It defines a camera's fps. But whether this fps is supported depends on its driver;
-q: input device's subparameter. It defines the quality of an image generated by libjpeg soft-encoding;
-n: input device's subparameter. It disables the dynctrls function;
-fb: input device's subparameter. It specifies whether an input image is displayed at "/dev/fbX";
-w: output device's subparameter. It defines a directory to hold web pages;
In our case the board's IP address was 192.168.1.230. We typed 192.168.1.230:8080 in a browser and were able to view the images taken from the camera's. Here is what you would expect to observe:
6.13 Check CPU's Working Temperature
You can get CPU's working temperature by running the following command:
$ cpu_freq Aavailable frequency(KHz): 480000 624000 816000 1008000 Current frequency(KHz): CPU0 online=1 temp=26548C governor=ondemand freq=624000KHz CPU1 online=1 temp=26548C governor=ondemand freq=624000KHz CPU2 online=1 temp=26548C governor=ondemand freq=624000KHz CPU3 online=1 temp=26548C governor=ondemand freq=624000KHz
This message means there are currently four CPUs working. All of their working temperature is 26.5 degree in Celsius and each one's clock is 624MHz.
Set CPU frequency:
$ cpu_freq -s 1008000 Aavailable frequency(KHz): 480000 624000 816000 1008000 Current frequency(KHz): CPU0 online=1 temp=36702C governor=userspace freq=1008000KHz CPU1 online=1 temp=36702C governor=userspace freq=1008000KHz CPU2 online=1 temp=36702C governor=userspace freq=1008000KHz CPU3 online=1 temp=36702C governor=userspace freq=1008000KHz
6.14 How to install and use docker (for armhf system)
6.14.1 How to Install Docker
Run the following commands:
sudo apt-get update sudo apt-get install docker.io
6.14.2 Test Docker installation
Test that your installation works by running the simple docker image:
git clone https://github.com/friendlyarm/debian-jessie-arm-docker cd debian-jessie-arm-docker ./rebuild-image.sh ./run.sh
6.15 Using RTC
NanoPi-R1提供了RTC电池接口,使用系统的RTC功能需要连接CR2032带线RTC纽扣电池给板子的RTC电路供电,电池连接如下图所示:
File:NanoPi R1-RTC-BAT-en.png
Dimensional diagram of on board RTC battery connector
- 待完善****
7 Developer's Guide
- System Development
- System Configurations
- Hardware Access
8 Resources
8.1 Schematics and Datasheets
- Schematics
- Dimensional Diagram
- H3 datasheet Allwinner_H3_Datasheet_V1.2.pdf
9 Update Log
9.1 Jan-02-2019
- Released English Version