Hardware:
CPU: MediaTek MT7621AT (2x880MHz)
RAM: 512MB DDR3
FLASH: 256MB NAND
WiFi: 2.4GHz 4x4 MT7615 b/g/n (Needs driver, See Issues!)
WiFI: 5GHz 4x4 MT7615 a/n/ac (Needs driver, See Issues!)
USB: 1x 3.0
ETH: 1x WAN 10/100/1000 3x LAN 10/100/1000
LED: Power/Status
BTN: RESET
UART: 115200 8n1
Partition layout and boot:
Stock Xiaomi firmware has the MTD split into (among others)
- kernel0 (@0x200000)
- kernel1 (@0x600000)
- rootfs0
- rootfs1
- overlay (ubi)
Xiaomi uboot expects to find kernels at 0x200000 & 0x600000
referred to as system 1 & system 2 respectively.
a kernel is considered suitable for handing control over
if its linux magic number exists & uImage CRC are correct.
If either of those conditions fail, a matching sys'n'_fail flag
is set in uboot env & a restart performed in the hope that the
alternate kernel is okay.
If neither kernel checksums ok and both are marked failed, system 2
is booted anyway.
Note uboot's tftp flash install writes the transferred
image to both kernel partitions.
Installation:
Similar to the Xiaomi MIR3G, we keep stock Xiaomi firmware in
kernel0 for ease of recovery, and install OpenWRT into kernel1 and
after.
The installation file for OpenWRT is a *squashfs-factory.bin file that
contains the kernel and a ubi partition. This is flashed as follows:
nvram set flag_try_sys1_failed=1
nvram set flag_try_sys2_failed=0
nvram commit
dd if=factory.bin bs=1M count=4 | mtd write - kernel1
dd if=factory.bin bs=1M skip=4 | mtd write - rootfs0
reboot
Reverting to stock:
The part of stock firmware we've kept in kernel0 allows us to run stock
recovery, which will re-flash stock firmware from a *.bin file on a USB.
For this we do the following:
fw_setenv flag_try_sys1_failed 0
fw_setenv flag_try_sys2_failed 1
reboot
After reboot the LED status light will blink red, at which point pressing
the 'reset' button will cause stock firmware to be installed from USB.
Issues:
OpenWRT currently does not have support for the MT7615 wifi chips. There is
ongoing work to add mt7615 support to the open source mt76 driver. Until that
support is in place, there are closed-source kernel modules that can be used.
See: https://forum.openwrt.org/t/support-for-xiaomi-wifi-r3p-pro/20290/170
Signed-off-by: Ozgur Can Leonard <ozgurcan@gmail.com>
Signed-off-by: Christian Lamparter <chunkeey@gmail.com>
[02_network remaps, Added link to notes]
Hardware
--------
SOC: QCA9558
RAM: 128M DDR2
Flash: 16MiB SPI-NOR
ETH: QCA8337N: 2x 10/100/1000 PoE and PoE pass-through
WiFi2: QCA9558 (bgn) 2T2R
WiFi5: 2x mPCIE with AR9582 (an) 2T2R
BTN: 1x Reset
GPIO: multiple GPIO on header, PoE passthrough enable
UART: 3.3V 115200 8N1 header on the board
WDG: ATTiny13 watchdog
JTAG: header on the board
USB: 1x connector and 1x header on the board
PoE: 10-32V input in ETH port 1, passthrough in port 2
mPCIE: 2x populated with radios (but replaceable)
OpenWrt is preinstalled from factory. To install use <your-image>-sysupgade.bin
using the web interface or with sysupgrade -n.
Flash from bootloader (in case failsafe does not work)
1. Connect the LibreRouter with a serial adapter (TTL voltage) to the UART
header in the board.
2. Connect an ETH cable and configure static ip addres 192.168.1.10/24
3. Turn on the device and stop the bootloader sending any key through the serial
interface.
4. Use a TFTP server to serve <your image>-sysupgrade.bin file.
5. Execute the following commands at the bootloader prompt:
ath> tftp 82000000 <your image>-sysupgrade.bin
ath> erase 0x9f050000 +$filesize
ath> cp.b 0x82000000 0x9f050000 $filesize
ath> bootm 0x9f050000
More docs
* Bootloader https://github.com/librerouterorg/u-boot
* Board details (schematics, gerbers): https://github.com/librerouterorg/board
Signed-off-by: Santiago Piccinini <spiccinini@altermundi.net>
Use tested values on shuttle,kd20 and assumed values for
mitrastar,stg-212 and cloudengines,pogoplug*.
akitio users have yet to report back stock flash layout to support
vendor bootloader environment there as well.
Signed-off-by: Daniel Golle <daniel@makrotopia.org>
This commit adds support for the Linksys EA6350v3 device in the ipq40xx
target.
This is needed for uboot-envtools to access the environment. Without this
patch, the Linksys EA6350v3 will not be able to access the uboot
environment. As a side effect, the feature auto_recovery will make the
device unstable by switching between the latest and the current firmware.
Signed-off-by: Ryan Pannell <ryan@osukl.com>
Signed-off-by: Oever González <notengobattery@gmail.com>
CPU: FSL P1020 (2x 800MHz E500 PPC)
RAM: 1GB DDR3
FLASH: 256MiB NAND
WiFi: 2x Atheros AR9382 2x2:2 abgn
ETH: 2x BCM54616S - 1x BCM53128 8-port switch
LED: 5x LEDs (Power, WiFi1, WiFi2, N/D, SYS)
BTN: 1x RESET
Installation
------------
1. Download initrams kernel image, dtb binary and sysupgrade image.
2. Place initramfs kernel into tftp root directory. Rename to
"panda-uimage-factory".
3. Place dtb binary into tftp root directory. Rename to "panda.fdt".
4. Start tftp server on 192.168.100.8/24.
5. Power up the device with the reset button pressed. It will download
the initrams and dtb via tftp and boot into OpenWRT in RAM.
6. SSH into the device and remove the factory partitions.
> ubirmvol /dev/ubi0 --name=kernel1
> ubirmvol /dev/ubi0 --name=rootfs1
> ubirmvol /dev/ubi0 --name=devicetree1
You will have around 60 MiB of free space with that.
You can also delete "kernel2", "devicetree2", "rootfs2" and "storage"
respectively in case you do not want to go back to the vendor firmware.
7. Modify the U-Boot bootcmd to allow for booting OpenWRT
> fw_setenv bootcmd_owrt "ubi part ubi && ubi read 0x1000000 kernel
&& bootm 0x1000000"
> fw_setenv bootargs_owrt "setenv bootargs console=ttyS0,115200
ubi.mtd=3,2048"
> fw_setenv bootcmd "run bootargs_owrt; run bootcmd_owrt"
8. Transfer the sysupgrade image via scp into the /tmp directory.
9. Upgrade the device
> sysupgrade -n /tmp/<imagename>
Signed-off-by: David Bauer <mail@david-bauer.net>
This commit adds the nescessary settings to allow reading the uboot environment variables on the GL.iNet GL-B1300 board.
Signed-off-by: Ibrahim Tachijian <barhom@netsat.se>
This device is called GL-AR300M, therefore rename the board(s)
to 'gl-ar300m-nor' and 'gl-ar300m-nand'
Signed-off-by: Paul Wassi <p.wassi@gmx.at>
[change boardname in uboot envtools as well, don't use wildcards for
boardname]
Signed-off-by: Mathias Kresin <dev@kresin.me>
After changing board names to DT compat string, we also need to
adjust the script which generates uboot-env configuration files.
Fixes: e880a30549 ("mxs: use generic sysinfo board detection")
Signed-off-by: Michael Heimpold <mhei@heimpold.de>
According to https://github.com/openwrt/openwrt/pull/1527, support
for the Buffalo BHR-4GRV2 in ath79 requires repartitioning from
an initramfs image, make this easier by supporting uboot-envtools
support out of the box.
Build tested, but not runtime tested.
Signed-off-by: Stefan Lippers-Hollmann <s.l-h@gmx.de>
Port support for the Buffalo WZR-HP-AG300H from the ar71xx target to
ath79 as well.
Build- and runtime tested on the Buffalo WZR-HP-AG300H.
Signed-off-by: Stefan Lippers-Hollmann <s.l-h@gmx.de>
Beside one exception, no one took care of these two remaining boards
still using the legacy image build code during the last two years.
Since OpenWrt 14.07 the ALLNET ALL0239-3G image building is broken.
The Sitecom WL-341 v3 image build code looks pretty hackish and broken.
It's questionable if the legacy image works as all.
Signed-off-by: Mathias Kresin <dev@kresin.me>
This patch adds support for the Netgear WNDAP620 and WNDAP660,
they are similar devices, but due to the LAN LED configuration,
the switch setup and WIFI configuration each gets a different
device target.
Hardware Highlights WNDAP620:
CPU: AMCC PowerPC APM82181 at 1000 MHz
DRAM: 128 MB, 2 x 64 MiB DDR2 Hynix H5PS5162GF
CPU: AMCC PowerPC APM82181 at 1000 MHz
FLASH: 32 MiB, NAND SLC, Hynix HY27US08561A
Ethernet: RealTek RTL8363SB 2x2-Port Switch PHY - Only 1 GBit Port (POE)
Wifi: Atheros AR9380 minipcie - Dual-Band - 3x3:3
Serial: console port with RJ45 Interface (9600-N-8-1)
LEDS: Power, LAN-Activity, dual color LAN-Linkspeed, 2.4GHz, 5GHz LEDs
Button: Soft Reset Button
Antennae: 3 internal dual-band antennae + 3 x RSMA for external antennaes
Hardware Highlights WNDAP660:
CPU: AMCC PowerPC APM82181 at 1000 MHz + 2 Heatsinks
DRAM: 256 MB, 2 x 128 MiB DDR2
FLASH: 32 MiB, NAND SLC, Hynix HY27US08561A
Ethernet: RealTek RTL8363SB 2x2-Port Switch PHY (POE)
Wifi1: Atheros AR9380 minipcie - Dual-Band - 3x3:3
Wifi2: Atheros AR9380 minipcie - Dual-Band - 3x3:3
Serial: console port with RJ45 Interface (9600-N-8-1)
LEDS: Power, LAN-Activity, 2x dual color LAN-Linkspeed, 2.4GHz, 5GHz LEDs
Button: Soft Reset Button
Antennae: 6 internal dual-band antennae + 3 x RSMA for external antennaes
Flashing requirements:
- needs a tftp server at 192.168.1.10/serverip.
- special 8P8C(aka RJ45)<->D-SUB9 Console Cable
("Cisco Console Cable"). Note: Both WNDAP6x0 have
a MAX3232 transceivers, hence no need for any separate
CMOS/TTL level shifters.
External Antenna:
The antennae mux is controlled by GPIO 11 and GPIO14. Valid Configurations:
= Config# = | = GPIO 11 = | = GPIO 14 = | ===== Description =====
1. | 1 / High | 0 / Low | Use the internal antennae (default)
2. | 0 / Low | 1 / High | Use the external antennae
The external antennaes are only meant for the 2.4 GHz band.
One-way Flashing instructions via u-boot:
0. connect the serial cable to the RJ45 Console Port
Note: This requires a poper RS232 and not a TTL/USB adaptor.
1. power up the AP and interrupt the u-boot process at
'Hit any key to stop autoboot'
2. setup serverip and ipaddr env settings
Enter the following commands into the u-boot shell
# setenv ipaddr 192.168.1.1
# setenv serverip 192.168.1.10
3. download the factory.img image to the AP
Enter the following commands into the u-boot shell
# tftp ${kernel_addr_r} openwrt-apm821xx-nand-netgear_wndap660-squashfs-factory.img
4. verfiy image integrity
Enter the following commands into the u-boot shell
# crc32 $fileaddr $filesize
If the calculated crc32 checksum does not match, go back to step 3.
5. flash the image
Enter the following commands into the u-boot shell
# nand erase 0x110000 0x1bd0000
# nand write ${kernel_addr_r} 0x110000 ${filesize}
6. setup uboot environment
Enter the following commands into the u-boot shell
# setenv bootargs
# setenv fileaddr
# setenv filesize
# setenv addroot 'setenv bootargs ${bootargs} root=/dev/ubiblock0_0'
# setenv owrt_boot 'nboot ${kernel_addr_r} nand0 0x110000; run addroot; run addtty; bootm ${kernel_addr_r}'
# setenv bootcmd 'run owrt_boot'
# saveenv
7. boot
# run bootcmd
Booting initramfs instructions via u-boot:
Follow steps 0 - 2 from above.
3. boot initramfs
Enter the following commands into the u-boot shell
# tftp ${kernel_addr_r} openwrt-apm821xx-nand-netgear_wndap660-initramfs-kernel.bin
# run addtty
# bootm ${kernel_addr_r}
Signed-off-by: Christian Lamparter <chunkeey@gmail.com>
This patch adds u-boot environment access to the MX60(W) target.
"The environment size is one NAND block (128KiB on Buckminster).
We allocate four NAND blocks to deal with bad blocks which may
exist in the saved environment"
Signed-off-by: Christian Lamparter <chunkeey@gmail.com>
All apm821xx devices use u-boot and most of them have
an accessible u-boot environment. This patch adds the
necessary template file, but does not add the
uboot-envtools package to any of the targets.
Signed-off-by: Christian Lamparter <chunkeey@gmail.com>
This commit adds support for the OCEDO Koala
SOC: Qualcomm QCA9558 (Scorpion)
RAM: 128MB
FLASH: 16MiB
WLAN1: QCA9558 2.4 GHz 802.11bgn 3x3
WLAN2: QCA9880 5 GHz 802.11nac 3x3
INPUT: RESET button
LED: Power, LAN, WiFi 2.4, WiFi 5, SYS
Serial: Header Next to Black metal shield
Pinout is 3.3V - GND - TX - RX (Arrow Pad is 3.3V)
The Serial setting is 115200-8-N-1.
Tested and working:
- Ethernet
- 2.4 GHz WiFi
- 5 GHz WiFi
- TFTP boot from ramdisk image
- Installation via ramdisk image
- OpenWRT sysupgrade
- Buttons
- LEDs
Installation seems to be possible only through booting an OpenWRT
ramdisk image.
Hold down the reset button while powering on the device. It will load a
ramdisk image named 'koala-uImage-initramfs-lzma.bin' from 192.168.100.8.
Note: depending on the present software, the device might also try to
pull a file called 'koala-uimage-factory'. Only the name differs, it
is still used as a ramdisk image.
Wait for the ramdisk image to boot. OpenWRT can be written to the flash
via sysupgrade or mtd.
Due to the flip-flop bootloader which we not (yet) support, you need to
set the partition the bootloader is selecting. It is possible from the
initramfs image with
> fw_setenv bootcmd run bootcmd_1
Afterwards you can reboot the device.
Signed-off-by: David Bauer <mail@david-bauer.net>
This adds uci entries for all ath79 devices for which this already was
the case on ar71xx. Additionally we add the OCEDO Koala as there was no
support in OpenWRT yet.
Signed-off-by: David Bauer <mail@david-bauer.net>
This patch adds support for ZyXEL NBG6617
Hardware highlights:
SOC: IPQ4018 / QCA Dakota
CPU: Quad-Core ARMv7 Processor rev 5 (v7l) Cortex-A7
DRAM: 256 MiB DDR3L-1600/1866 Nanya NT5CC128M16IP-DI @ 537 MHz
NOR: 32 MiB Macronix MX25L25635F
ETH: Qualcomm Atheros QCA8075 Gigabit Switch (4 x LAN, 1 x WAN)
USB: 1 x 3.0 (via Synopsys DesignWare DWC3 controller in the SoC)
WLAN1: Qualcomm Atheros QCA4018 2.4GHz 802.11bgn 2:2x2
WLAN2: Qualcomm Atheros QCA4018 5GHz 802.11a/n/ac 2:2x2
INPUT: RESET Button, WIFI/Rfkill Togglebutton, WPS Button
LEDS: Power, WAN, LAN 1-4, WLAN 2.4GHz, WLAN 5GHz, USB, WPS
Serial:
WARNING: The serial port needs a TTL/RS-232 3.3v level converter!
The Serial setting is 115200-8-N-1. The 1x4 .1" header comes
pre-soldered. Pinout:
1. 3v3 (Label printed on the PCB), 2. RX, 3. GND, 4. TX
first install / debricking / restore stock:
0. Have a PC running a tftp-server @ 192.168.1.99/24
1. connect the PC to any LAN-Ports
2. put the openwrt...-factory.bin (or V1.00(ABCT.X).bin for stock) file
into the tftp-server root directory and rename it to just "ras.bin".
3. power-cycle the router and hold down the the WPS button (for 30sek)
4. Wait (for a long time - the serial console provides some progress
reports. The u-boot says it best: "Please be patient".
5. Once the power LED starts to flashes slowly and the USB + WPS LEDs
flashes fast at the same time. You have to reboot the device and
it should then come right up.
Installation via Web-UI:
0. Connect a PC to the powered-on router. It will assign your PC a
IP-address via DHCP
1. Access the Web-UI at 192.168.1.1 (Default Passwort: 1234)
2. Go to the "Expert Mode"
3. Under "Maintenance", select "Firmware-Upgrade"
4. Upload the OpenWRT factory image
5. Wait for the Device to finish.
It will reboot into OpenWRT without any additional actions needed.
To open the ZyXEL NBG6617:
0. remove the four rubber feet glued on the backside
1. remove the four philips screws and pry open the top cover
(by applying force between the plastic top housing from the
backside/lan-port side)
Access the real u-boot shell:
ZyXEL uses a proprietary loader/shell on top of u-boot: "ZyXEL zloader v2.02"
When the device is starting up, the user can enter the the loader shell
by simply pressing a key within the 3 seconds once the following string
appears on the serial console:
| Hit any key to stop autoboot: 3
The user is then dropped to a locked shell.
|NBG6617> HELP
|ATEN x[,y] set BootExtension Debug Flag (y=password)
|ATSE x show the seed of password generator
|ATSH dump manufacturer related data in ROM
|ATRT [x,y,z,u] RAM read/write test (x=level, y=start addr, z=end addr, u=iterations)
|ATGO boot up whole system
|ATUR x upgrade RAS image (filename)
|NBG6617>
In order to escape/unlock a password challenge has to be passed.
Note: the value is dynamic! you have to calculate your own!
First use ATSE $MODELNAME (MODELNAME is the hostname in u-boot env)
to get the challange value/seed.
|NBG6617> ATSE NBG6617
|012345678901
This seed/value can be converted to the password with the help of this
bash script (Thanks to http://www.adslayuda.com/Zyxel650-9.html authors):
- tool.sh -
ror32() {
echo $(( ($1 >> $2) | (($1 << (32 - $2) & (2**32-1)) ) ))
}
v="0x$1"
a="0x${v:2:6}"
b=$(( $a + 0x10F0A563))
c=$(( 0x${v:12:14} & 7 ))
p=$(( $(ror32 $b $c) ^ $a ))
printf "ATEN 1,%X\n" $p
- end of tool.sh -
|# bash ./tool.sh 012345678901
|
|ATEN 1,879C711
copy and paste the result into the shell to unlock zloader.
|NBG6617> ATEN 1,0046B0017430
If the entered code was correct the shell will change to
use the ATGU command to enter the real u-boot shell.
|NBG6617> ATGU
|NBG6617#
Co-authored-by: David Bauer <mail@david-bauer.net>
Signed-off-by: Christian Lamparter <chunkeey@googlemail.com>
Signed-off-by: David Bauer <mail@david-bauer.net>
This commit adds support for the OCEDO Koala
SOC: Qualcomm QCA9558 (Scorpion)
RAM: 128MB
FLASH: 16MiB
WLAN1: QCA9558 2.4 GHz 802.11bgn 3x3
WLAN2: QCA9880 5 GHz 802.11nac 3x3
INPUT: RESET button
LED: Power, LAN, WiFi 2.4, WiFi 5, SYS
Serial: Header Next to Black metal shield
Pinout is 3.3V - GND - TX - RX (Arrow Pad is 3.3V)
The Serial setting is 115200-8-N-1.
Tested and working:
- Ethernet
- 2.4 GHz WiFi
- 5 GHz WiFi
- TFTP boot from ramdisk image
- Installation via ramdisk image
- OpenWRT sysupgrade
- Buttons
- LEDs
Installation seems to be possible only through booting an OpenWRT
ramdisk image.
Hold down the reset button while powering on the device. It will load a
ramdisk image named 'koala-uImage-initramfs-lzma.bin' from 192.168.100.8.
Note: depending on the present software, the device might also try to
pull a file called 'koala-uimage-factory'. Only the name differs, it
is still used as a ramdisk image.
Wait for the ramdisk image to boot. OpenWRT can be written to the flash
via sysupgrade or mtd.
Due to the flip-flop bootloader which we not (yet) support, you need to
set the partition the bootloader is selecting. It is possible from the
initramfs image with
> fw_setenv bootcmd run bootcmd_1
Afterwards you can reboot the device.
Signed-off-by: David Bauer <mail@david-bauer.net>
Linksys WRT32X (Venom) is identical in hardware to the WRT3200ACM
with a different flash layout and boots zImage rather than uImage.
Specification:
- Marvell Armada 385 88F6820 (2x 1.8GHz)
- 256MB of Flash
- 512MB of RAM
- 2.4GHz (bgn) and 5GHz (an+ac wave 2)
- 4x 1Gbps LAN + 1x 1Gbps WAN
- 1x USB 3.0 and 1x USB 2.0/eSATA (combo port)
Flash instruction:
Apply factory image via web-gui.
Signed-off-by: Michael Gray <michael.gray@lantisproject.com>
Currently, the build system uses an openwrt mirror which does not currently
work and FTP can be unreliable under several circumstances. This change
implicitly allows using all the mirrors to download.
Signed-off-by: Rosen Penev <rosenp@gmail.com>
Added for convenience. These boards can be used as dev boards running
various operating systems from different media, and this simplifies work
with U-Boot environment.
Signed-off-by: Damir Samardzic <damir.samardzic@sartura.hr>
* QCA IPQ4019
* 256 MB of RAM
* 32 MB of SPI NOR flash (s25fl256s1)
- 2x 15 MB available; but one of the 15 MB regions is the recovery image
* 2T2R 2.4 GHz
- QCA4019 hw1.0 (SoC)
- requires special BDF in QCA4019/hw1.0/board-2.bin with
bus=ahb,bmi-chip-id=0,bmi-board-id=20,variant=OM-A62
* 2T2R 5 GHz (channel 36-64)
- QCA9888 hw2.0 (PCI)
- requires special BDF in QCA9888/hw2.0/board-2.bin
bus=pci,bmi-chip-id=0,bmi-board-id=16,variant=OM-A62
* 2T2R 5 GHz (channel 100-165)
- QCA4019 hw1.0 (SoC)
- requires special BDF in QCA4019/hw1.0/board-2.bin with
bus=ahb,bmi-chip-id=0,bmi-board-id=21,variant=OM-A62
* multi-color LED (controlled via red/green/blue GPIOs)
* 1x button (reset; kmod-input-gpio-keys compatible)
* external watchdog
- triggered GPIO
* 1x USB (xHCI)
* TTL pins are on board (arrow points to VCC, then follows: GND, TX, RX)
* 2x gigabit ethernet
- phy@mdio3:
+ Label: Ethernet 1
+ gmac0 (ethaddr) in original firmware
+ 802.3at POE+
- phy@mdio4:
+ Label: Ethernet 2
+ gmac1 (eth1addr) in original firmware
+ 18-24V passive POE (mode B)
* powered only via POE
The tool ap51-flash (https://github.com/ap51-flash/ap51-flash) should be
used to transfer the factory image to the u-boot when the device boots up.
The initramfs image can be started using
setenv bootargs 'loglevel=8 earlycon=msm_serial_dm,0x78af000 console=ttyMSM0,115200 mtdparts=spi0.0:256k(0:SBL1),128k(0:MIBIB),384k(0:QSEE),64k(0:CDT),64k(0:DDRPARAMS),64k(0:APPSBLENV),512k(0:APPSBL),64k(0:ART),64k(0:custom),64k(0:KEYS),15552k(inactive),15552k(inactive2)'
tftpboot 0x84000000 openwrt-ipq40xx-openmesh_a62-initramfs-fit-uImage.itb
set fdt_high 0x85000000
bootm 0x84000000
Signed-off-by: Sven Eckelmann <sven.eckelmann@openmesh.com>
Several changes has been made:
+ AES support has been removed by
upstream commit c6831c7 (2017-11-14)
[remove patch "200-fw_env_no_aes.patch"]
+ Support for UBI volumes has beed added by
upstream commit 34255b9 (2017-11-15)
[remove patch "300-support-env-in-ubivol-chardev.patch"]
+ A command line argument has beed added ("-c") to manually indicate
the location of the environment configuration file
Also, patch "400-u-boot-2015.10-stdint.patch" is no longer
necessary, and the config option to enable UBI support has
been removed.
Size comparisons:
fw_printenv size:
Target Before After
ar71xx 15,189 bytes 18,133 bytes (+2,944 bytes)
ipq40xx 20,873 bytes 20,987 bytes (+114 bytes)
mvebu 20,881 bytes 20,991 bytes (+110 bytes)
ramips 15,128 bytes 18,072 bytes (+2,944 bytes)
OPKG package size:
Target Before After
ar71xx 11,309 bytes 12,875 bytes (+1,566 bytes)
ipq40xx 11,772 bytes 13,299 bytes (+1,527 bytes)
mvebu 11,609 bytes 13,114 bytes (+1,505 bytes)
ramips 10,975 bytes 12,503 bytes (+1,528 bytes)
Compile tested: ipq40xx (musl, glibc, gcc5-musl), ar71xx, mvebu, ramips
Run tested: ipq40xx (ASUS RT-AC58U)
Signed-off-by: Luis Araneda <luaraneda@gmail.com>
Adds support for the Turris Omnia and builds an eMMC sysupgrade image in
the same format as the SolidRun ClearFog.
An initramfs image in the simple yet Omnia-specific 'medkit' image format
is also built in order to ease the initial flashing process.
Notable hardware support omissions are support for switching between SFP
cage and copper PHY, and RGB LED control.
Due to a current limitation of DSA, only 1/2 CPU switch uplinks are used.
Specifications:
- Marvell Armada 385 1.6GHz dual-core ARMv7 CPU
- 1GB DDR3 RAM
- 8GB eMMC Flash
- 5x Gigabit LAN via Marvell 88E6176 Switch (2x RGMII CPU ports)
- 1x switchable RJ45 (88E1514 PHY) / SFP SGMII WAN
- 2x USB 3.0
- 12x dimmable RGB LEDs controlled by independent MCU
- 3x Mini PCIe slots
- Optional Compex WLE200N2 Mini PCIe AR9287 2x2 802.11b/g/n (2.4GHz)
- Optional Compex WLE900VX Mini PCIe QCA9880 3x3 802.11ac (2.4 / 5GHz)
- Optional Quectel EC20 Mini PCIe LTE modem
Flash instructions:
If the U-Boot environment has been modified previously (likely manually via
serial console), first use serial to reset the default environment.
=> env default -a
=> saveenv
Method 1 - USB 'medkit' image w/o serial
- Copy openwrt-mvebu-turris-omnia-sysupgrade.img.gz and
omnia-medkit-openwrt-mvebu-turris-omnia-initramfs.tar.gz to the root of a
USB flash drive formatted with FAT32 / ext2/3/4 / btrfs / XFS.
Note that the medkit MUST be named omnia-medkit*.tar.gz
- Disconnect other USB devices from the Omnia and connect the flash drive
to either USB port.
- Power on the Omnia and hold down the rear reset button until 4 LEDs are
illuminated, then release.
- Wait approximately 2 minutes for the Turris Omnia to flash itself with
the temporary image, during which LEDs will change multiple times.
- Connect a computer to a LAN port of the Turris Omnia with a DHCP client
- (if necessary) ssh-keygen -R 192.168.1.1
- ssh root@192.168.1.1
$ mount /dev/sda1 /mnt
$ sysupgrade /mnt/openwrt-mvebu-turris-omnia-sysupgrade.img.gz
- Wait another minute for the final OpenWrt image to be flashed. The Turris
Omnia will reboot itself and you can remove the flash drive.
Method 2 - TFTP w/ serial
- Extract omnia-medkit-openwrt-mvebu-turris-omnia-initramfs.tar.gz and copy
dtb + zImage to your TFTP server (rename if desired)
- Connect Turris Omnia WAN port to DHCP-enabled network with TFTP server
- Connect serial console and interrupt U-Boot
=> dhcp
=> setenv serverip <tftp_server_ip_here>
=> tftpboot 0x01000000 zImage
=> tftpboot 0x02000000 dtb
=> bootz 0x01000000 - 0x02000000
- OpenWrt will now boot from ramdisk
- Download openwrt-mvebu-turris-omnia-sysupgrade.img.gz to /tmp/
$ sysupgrade /tmp/openwrt-mvebu-turris-omnia-sysupgrade.img.gz
- Wait another minute for the final OpenWrt image to be flashed. The Turris
Omnia will reboot itself.
Signed-off-by: Ryan Mounce <ryan@mounce.com.au>
EG-200 is a DIN rail mountable device with one ethernet port, wifi,
an RS-485 port, and an internal USB attached uSD card reader.
Two leds, "modbus" and "etactica" are managed by userspace applications
in factory firmware.
Flash instruction:
Original firmware is based on OpenWrt.
Use sysupgrade image directly in vendor GUI.
Signed-off-by: Karl Palsson <karlp@etactica.com>
Use the generic board detection method:
- Board name: First compatible string from the device tree
- Board model: Model property from the device tree
Change occurrences of board name in userspace by the compatible
string, and removed target specific board detection script
Replace the definition of SUPPORTED_DEVICES in Device/Default
to extract the dt compatible string from each device definition.
Additionally, for devices supported by lede-17.01, append
the value of BOARD_NAME to SUPPORTED_DEVICES in the device
definition.
Signed-off-by: Luis Araneda <luaraneda@gmail.com>