--- wikisrc/ports/evbarm/allwinner.mdwn 2014/10/20 11:53:03 1.12
+++ wikisrc/ports/evbarm/allwinner.mdwn 2015/04/02 18:36:59 1.50
@@ -1,55 +1,99 @@
[[!meta title="NetBSD/evbarm on Allwinner Technology SoCs"]]
+NetBSD 7.0 has support for A10, A20, and A31 SoCs. NetBSD -current adds support for A80 SoCs.
+
+[[!toc levels=2]]
+
# Supported boards
- [Banana Pi](http://www.bananapi.org/p/product.html) (BPI)
- - Cubieboard, Cubieboard 2 (CUBIEBOARD)
+ - Cubieboard 2 (CUBIEBOARD)
+ - [Cubieboard 4](http://cubieboard.org/model/cb4/) (ALLWINNER_A80) *NetBSD-current*
- Cubietruck (CUBIETRUCK)
- [Merrii Hummingbird A31](http://www.merrii.com/en/pla_d.asp?id=172) (HUMMINGBIRD_A31)
# Supported hardware
- SoCs
- - Cortex-A8: A10
- - Cortex-A7: A20, A31 SoCs
- - SD/MMC controller
+ - Cortex-A7: A20 (2-core), A31 (4-core), A80
+ - Cortex-A7/A15: A80 (4-core A7 + 4-core A15)
+ - SD/MMC controller (DMA)
- DMA controller
- GPIO
+ - Configuration using FEX scripts is supported
- UART
- I2C
- - P2WI (A31)
+ - P2WI (A31) / RSB (A80)
- PMU
- AXP209 (A20)
- AXP221 (A31)
+ - AXP806 (A80)
+ - AXP809 (A80)
- Watchdog timer
- RTC
- - Audio codec
- - USB
+ - A20/A31: integrated RTC, PCF8563
+ - A80: AC100
+ - Audio codec (A20/A31)
+ - USB host
- OHCI
- EHCI
- - MOTG (not yet working on A31)
+ - OTG (A20)
- SATA (A10/A20)
- Gigabit Ethernet (GMAC)
+ - HDMI
+ - DDC / EDID mode detection (A20/A31)
+ - Audio support (A20/A31)
+ - Framebuffer (A20/A31/A80)
+ - IR receiver (A20/A31/A80)
+
+# TODO
+ - A10
+ - Interrupt controller
+ - EMAC
+ - A31
+ - OTG
+ - IR transmitter
+ - 3G module
+ - TV input
+ - A80
+ - MP
+ - big.LITTLE support
+ - USB3 (OTG and XHCI)
+ - IR transmitter
+ - HDMI (DDC and mode setting; currently relies on U-Boot for setup)
+ - Audio codec
+ - All
+ - USB device mode
+ - SD/MMC UHS-I support (needs sdmmc(4) changes)
+ - SDIO (Bluetooth / WiFi)
+ - NAND
+ - VGA (Cubietruck, Hummingbird A31, Cubieboard4)
# Installation
-## A10 / A20 based boards
+## A10 / A20 / A31 based boards
-* Start with an ARMv7 image from *evbarm-earmv7hf/binary/gzimg/* such as *beaglebone.img*
-* Download a U-Boot build for your board from the linux-sunxi web site
-* Write the *u-boot-sunxi-with-spl.bin* loader to the base image:
+* Start with an ARMv7 image from *evbarm-earmv7hf/binary/gzimg/* such as *beagleboard.img*
+* Download a U-Boot build for your board
+ * Download the correct build from the linux-sunxi web site .
+* Write the *u-boot-sunxi-with-spl.bin* loader to the empty space at the start of the base image:
[[!template id=programlisting text="""
-# dd if=u-boot-sunxi-with-spl.bin of=beaglebone.img bs=1k seek=8 conv=notrunc
+# dd if=u-boot-sunxi-with-spl.bin of=beagleboard.img bs=1k seek=8 conv=notrunc
"""]]
* Write the image to an SD card.
-* Copy the kernel (netbsd.ub) for your board to the root of the MS-DOS partition.
+* Copy the kernel (netbsd.ub) for your board to the root of the MS-DOS partition on the SD card.
* Create or edit uEnv.txt on the MS-DOS partition:
[[!template id=programlisting text="""
bootargs=root=ld0a
uenvcmd=mmc dev 0; mmc rescan; fatload mmc 0:1 82000000 netbsd.ub; bootm 82000000
"""]]
-## A31 based boards
+## A80 based boards
-TBD.
+* Cubieboard 4 U-Boot for SD card:
+[[!template id=programlisting text="""
+# dd if=u-boot-spl.bin of=/dev/sdd bs=1k seek=8
+# dd if=u-boot-sun9iw1p1.bin of=/dev/sdd bs=1k seek=19096
+"""]]
+* First partition needs to be at +20MB offset. Format it as MSDOS, copy 'netbsd.ub' to it as 'uImage'.
# Big (endian) fun
@@ -61,3 +105,44 @@ To build a big endian release (or sets)
./build.sh -m evbearmv7hf-eb
"""]]
where -eb means endianness big, hf is hardware floating point support, and earm is the modern "extended" ABI for ARM CPUs, and finally v7 is version 7 of the supported instruction set.
+
+# FEX scripts
+
+Board configuration scripts can be found here: . You can compile them with the "fex2bin" tool found here: .
+
+To use, copy the compiled FEX to your MS-DOS partition, load it with U-Boot, and then tell the kernel where to find it with the "sysconfig=" boot option. For example, uEnv.txt on a Cubieboard2 might look like this:
+
+[[!template id=programlisting text="""
+bootargs=root=ld0a sysconfig=0x43000000
+uenvcmd=mmc dev 0; mmc rescan; fatload mmc 0:1 43000000 cubieboard2.bin; fatload mmc 0:1 82000000 netbsd.ub; bootm 82000000
+"""]]
+
+Some pre-compiled .bin files can be found here:
+
+# Framebuffer console
+
+To use HDMI for the console device, add *console=fb* to bootargs in uEnv.txt.
+
+If the connected display does not let you disable overscan, you can add a margin to the framebuffer by with the *fb.margin* bootargs option. For example, to set a 25-pixel margin around the screen, add *fb.margin=25* to uEnv.txt
+
+# HDMI audio
+
+The default audio device is the analog audio codec. To change the default device, use the *audiocfg* command:
+
+[[!template id=programlisting text="""
+a31# audiocfg list
+0: [*] audio0 @ awinac0: Allwinner CODEC A31, 2 playback channels
+1: [ ] audio1 @ awinhdmiaudio0: Allwinner HDMI 1.4, 2 playback channels
+a31# audiocfg default 1
+setting default audio device to audio1
+a31# audiocfg list
+0: [ ] audio0 @ awinac0: Allwinner CODEC A31, 2 playback channels
+1: [*] audio1 @ awinhdmiaudio0: Allwinner HDMI 1.4, 2 playback channels
+"""]]
+
+# MAC address
+
+On boards where the ethernet MAC address cannot be determmined, a random MAC address will be generated every boot. You can override this behaviour by specifying a MAC address in *uEnv.txt*:
+[[!template id=programlisting text="""
+bootargs=root=ld0a awge0.mac-address=02:a0:3d:88:1a:1e
+"""]]