Build:
cp .config-example .config
./scripts/feeds update -a && ./scripts/feeds install -a
make defconfig
make world
make kernel_menuconfig
make menuconfig
make -j8 V=s
Note:
git format-patch -1 #create patch
git apply *.patch #apply patch
ethtool -i eth0 #driver info
Credit:
High quality:
https://linux-sunxi.org/Lctech_Pi_F1C200s // ch340e
https://github.com/peng-zhihui/Planck-Pi
https://github.com/virtualwiz/NEKO-M5 // eth sr9900
https://github.com/xddcore/Zero_Linux_Board // software+hardware
https://github.com/voloviq/licheepinano_sarau270_lcd // lan9614 + lte + gps
https://github.com/mahdi2001h/SINUX_F1 // wifi
https://github.com/embeddedboys/HamsterBear // mpcie-module
Medium quality:
https://github.com/matrixant/f1c200s_core // mpcie-module
https://github.com/linyuxuanlin/Flip // cp2102; altium
https://www.cnblogs.com/twzy/p/14714651.html // ch340e; Separate power sources
https://github.com/YuzukiHD/YuzukiMavericks // audio
https://github.com/minilogic/f1c_dbc // hdmi + docs
https://github.com/kmakise/F1C100S_DB_R1
https://github.com/VeiLiang/BoloPi_PCB
Low quality:
https://github.com/R4ynor/f1c200s
https://github.com/matiko122/F1C100sDevBoard
https://github.com/serhaturtis/ES-SOM_F1C
https://github.com/JohnSanpe/neopi-nano
Docs:
https://github.com/uYanki/allwinner-chip-doc
https://github.com/mangopi-sbc/aw-doc
https://github.com/nminaylov/F1C100s_info
https://github.com/nminaylov/F1C100s_projects
https://programmerall.com/article/55812199675/
Useful software solutions:
https://openwrt.org/docs/guide-user/additional-software/saving_space // zram
http://dl.sipeed.com/shareURL/LICHEE/Nano // hdk + sdk
https://github.com/wuxx/f1c100s-gpio-tools
https://wiki.kobol.io/helios4/i2c/
https://github.com/NateLol/luci-app-oled
Build:
https://github.com/spidermanstruation/licheepi-nano-buildroot
https://github.com/unframework/lichee-kiosk
https://github.com/suda-morris/suda-f1c100s
https://github.com/kekemuyu/f1c100s
https://github.com/minilogic/f1c_nonos
https://github.com/newluhux/qemu-f1c100s
https://github.com/verylowfreq/buildroot-licheepi_nano
https://github.com/nand2mario/licheepi-nano-buildroot
https://github.com/unframework/licheepi-nano-buildroot
https://github.com/aodzip/buildroot-tiny200
https://github.com/TriForceX/MiyooCFW
https://github.com/HandsomeMod/HandsomeMod/blob/fa7f0be51858a64e0d5f9e1f1a3c6bdb137c3eba/target/linux/sunxi/patches-5.4/442-suniv-Add-DMA-Controller.patch
https://github.com/jockm/lichee-nano-one-key-package/blob/ebcad700aa613f22d67c9a49e5cef72f2cee4d0a/linux-suniv-f1c100s.dtsi#L262
https://github.com/jockm/lichee-nano-one-key-package/blob/master/linux-licheepi_nano_defconfig
https://github.com/unframework/licheepi-nano-buildroot/blob/master/board/licheepi_nano/licheepi_nano_linux_defconfig
https://github.com/torvalds/linux/commit/5c043901fef2ff9a8467e407eb5321857f7473bb
OpenWrt Project is a Linux operating system targeting embedded devices. Instead of trying to create a single, static firmware, OpenWrt provides a fully writable filesystem with package management. This frees you from the application selection and configuration provided by the vendor and allows you to customize the device through the use of packages to suit any application. For developers, OpenWrt is the framework to build an application without having to build a complete firmware around it; for users this means the ability for full customization, to use the device in ways never envisioned.
Sunshine!
Built firmware images are available for many architectures and come with a package selection to be used as WiFi home router. To quickly find a factory image usable to migrate from a vendor stock firmware to OpenWrt, try the Firmware Selector.
If your device is supported, please follow the Info link to see install instructions or consult the support resources listed below.
An advanced user may require additional or specific package. (Toolchain, SDK, ...) For everything else than simple firmware download, try the wiki download page:
To build your own firmware you need a GNU/Linux, BSD or MacOSX system (case sensitive filesystem required). Cygwin is unsupported because of the lack of a case sensitive file system.
You need the following tools to compile OpenWrt, the package names vary between distributions. A complete list with distribution specific packages is found in the Build System Setup documentation.
binutils bzip2 diff find flex gawk gcc-6+ getopt grep install libc-dev libz-dev
make4.1+ perl python3.6+ rsync subversion unzip which
-
Run
./scripts/feeds update -a
to obtain all the latest package definitions defined in feeds.conf / feeds.conf.default -
Run
./scripts/feeds install -a
to install symlinks for all obtained packages into package/feeds/ -
Run
make menuconfig
to select your preferred configuration for the toolchain, target system & firmware packages. -
Run
make
to build your firmware. This will download all sources, build the cross-compile toolchain and then cross-compile the GNU/Linux kernel & all chosen applications for your target system.
The main repository uses multiple sub-repositories to manage packages of
different categories. All packages are installed via the OpenWrt package
manager called opkg
. If you're looking to develop the web interface or port
packages to OpenWrt, please find the fitting repository below.
-
LuCI Web Interface: Modern and modular interface to control the device via a web browser.
-
OpenWrt Packages: Community repository of ported packages.
-
OpenWrt Routing: Packages specifically focused on (mesh) routing.
-
OpenWrt Video: Packages specifically focused on display servers and clients (Xorg and Wayland).
For a list of supported devices see the OpenWrt Hardware Database
- Forum: For usage, projects, discussions and hardware advise.
- Support Chat: Channel
#openwrt
on oftc.net.
- Bug Reports: Report bugs in OpenWrt
- Dev Mailing List: Send patches
- Dev Chat: Channel
#openwrt-devel
on oftc.net.
OpenWrt is licensed under GPL-2.0