| Commit message (Collapse) | Author | Age | Files | Lines |
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TP-Link RE455 v1 is a dual band router/range-extender based on
Qualcomm/Atheros QCA9563 + QCA9880.
This device is nearly identical to RE450 v3
Specification:
- 775 MHz CPU
- 64 MB of RAM (DDR2)
- 8 MB of FLASH (SPI NOR)
- 3T3R 2.4 GHz
- 3T3R 5 GHz
- 1x 10/100/1000 Mbps Ethernet (AR8033 PHY)
- 7x LED, 4x button
- UART header on PCB[1]
Flash instruction:
Apply factory image in OEM firmware web-gui.
[1] Didn't work, probably need to short unpopulated resistor R64
and R69 as RE450v3
Signed-off-by: Roberto Valentini <valantin89@gmail.com>
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sysupgrade metadata is not flashed to the device, so check-size
should be called _before_ adding metadata to the image.
While at it, do some obvious wrapping improvements.
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
Acked-by: Paul Spooren <mail@aparcar.org>
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Device specifications
* SoC: QCA9563 @ 775MHz (MIPS 74Kc)
* RAM: 128MiB DDR2
* Flash: 16MiB SPI-NOR (EN25QH128)
* Wireless 2.4GHz (SoC): b/g/n, 3x3
* Wireless 5Ghz (QCA9988): a/n/ac, 4x4 MU-MIMO
* IoT Wireless 2.4GHz (QCA6006): currently unusable
* Ethernet (AR8327): 3 LAN × 1GbE, 1 WAN × 1GbE
* LEDs: Internet (blue/orange), System (blue/orange)
* Buttons: Reset
* UART: through-hole on PCB ([VCC 3.3v](RX)(GND)(TX) 115200, 8n1)
* Power: 12VDC, 1,5A
MAC addresses map (like in OEM firmware)
art@0x0 88:C3:97:*:57 wan/label
art@0x1002 88:C3:97:*:2D lan/wlan2g
art@0x5006 88:C3:97:*:2C wlan5g
Obtain SSH Access
1. Download and flash the firmware version 1.3.8 (China).
2. Login to the router web interface and get the value of `stok=` from the
URL
3. Open a new tab and go to the following URL (replace <STOK> with the stok
value gained above; line breaks are only for easier handling, please put
together all four lines into a single URL without any spaces):
http://192.168.31.1/cgi-bin/luci/;stok=<STOK>/api/misystem/set_config_iotdev
?bssid=any&user_id=any&ssid=-h%0Anvram%20set%20ssh_en%3D1%0Anvram%20commit
%0Ased%20-i%20%27s%2Fchannel%3D.%2A%2Fchannel%3D%5C%5C%22debug%5C%5C%22%2F
g%27%20%2Fetc%2Finit.d%2Fdropbear%0A%2Fetc%2Finit.d%2Fdropbear%20start%0A
4. Wait 30-60 seconds (this is the time required to generate keys for the
SSH server on the router).
Create Full Backup
1. Obtain SSH Access.
2. Create backup of all flash (on router):
dd if=/dev/mtd0 of=/tmp/ALL.backup
3. Copy backup to PC (on PC):
scp root@192.168.31.1:/tmp/ALL.backup ./
Tip: backup of the original firmware, taken three times, increases the
chances of recovery :)
Calculate The Password
* Locally using shell (replace "12345/E0QM98765" with your router's serial
number):
On Linux
printf "%s6d2df50a-250f-4a30-a5e6-d44fb0960aa0" "12345/E0QM98765" | \
md5sum - | head -c8 && echo
On macOS
printf "%s6d2df50a-250f-4a30-a5e6-d44fb0960aa0" "12345/E0QM98765" | \
md5 | head -c8
* Locally using python script (replace "12345/E0QM98765" with your
router's serial number):
wget https://raw.githubusercontent.com/eisaev/ax3600-files/master/scripts/calc_passwd.py
python3.7 -c 'from calc_passwd import calc_passwd; print(calc_passwd("12345/E0QM98765"))'
* Online
https://www.oxygen7.cn/miwifi/
Debricking (lite)
If you have a healthy bootloader, you can use recovery via TFTP using
programs like TinyPXE on Windows or dnsmasq on Linux. To switch the router
to TFTP recovery mode, hold down the reset button, connect the power
supply, and release the button after about 10 seconds. The router must be
connected directly to the PC via the LAN port.
Debricking
You will need a full dump of your flash, a CH341 programmer, and a clip
for in-circuit programming.
Install OpenWRT
1. Obtain SSH Access.
2. Create script (on router):
echo '#!/bin/sh' > /tmp/flash_fw.sh
echo >> /tmp/flash_fw.sh
echo '. /bin/boardupgrade.sh' >> /tmp/flash_fw.sh
echo >> /tmp/flash_fw.sh
echo 'board_prepare_upgrade' >> /tmp/flash_fw.sh
echo 'mtd erase rootfs_data' >> /tmp/flash_fw.sh
echo 'mtd write /tmp/openwrt.bin firmware' >> /tmp/flash_fw.sh
echo 'sleep 3' >> /tmp/flash_fw.sh
echo 'reboot' >> /tmp/flash_fw.sh
echo >> /tmp/flash_fw.sh
chmod +x /tmp/flash_fw.sh
3. Copy `openwrt-ath79-generic-xiaomi_aiot-ac2350-squashfs-sysupgrade.bin`
to the router (on PC):
scp openwrt-ath79-generic-xiaomi_aiot-ac2350-squashfs-sysupgrade.bin \
root@192.168.31.1:/tmp/openwrt.bin
4. Flash OpenWRT (on router):
/bin/ash /tmp/flash_fw.sh &
5. SSH connection will be interrupted - this is normal.
6. Wait for the indicator to turn blue.
Signed-off-by: Evgeniy Isaev <isaev.evgeniy@gmail.com>
[improve commit message formatting slightly]
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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Specifications:
SOC: Qualcomm Atheros TP9343 (750 MHz)
Flash: 8 Mb (GigaDevice GD25Q64CSIG)
RAM: 64 Mb (Zentel A3R12E40DBF-8E)
Serial: yes, 4-pin header
Wlan: Qualcomm Atheros TP9343, antenna: MIM0 3x3:3 RP-SMA
3 x 2.4GHz power amp module Skyworks (SiGe) SE2576L
Ethernet: Qualcomm Atheros TP9343
Lan speed: 100M ports: 4
Lan speed: 100M ports: 1
Other info: same case, ram and flash that TP-Link TL-WR841HP,
different SOC
https://forum.openwrt.org/t/adding-device-support-tp-link-wr941hp/
Label MAC addresses based on vendor firmware:
LAN *:ee label
WAN *:ef label +1
WLAN *:ee label
The label MAC address found in "config" partition at 0x8
Flash instruction:
Upload the generated factory firmware on web interface.
Signed-off-by: Diogenes Rengo <rengocbx250@gmail.com>
[remove various whitespace issues, squash commits, use short 0x0]
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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This patch adds support for the Ubiquiti PowerBeam M (XW), e.g. PBE-M5-400,
a 802.11n wireless with a feed+dish form factor. This device was previously
supported by the ar71xx loco-m-xw firmware.
Specifications:
- Atheros AR9342 SoC
- 64 MB RAM
- 8 MB SPI flash
- 1x 10/100 Mbps Ethernet port, 24 Vdc PoE-in
- Power and LAN green LEDs
- 4x RSSI LEDs (red, orange, green, green)
- UART (115200 8N1)
Flashing via stock GUI:
- Downgrade to AirOS v5.5.x (latest available is 5.5.10-u2) first (see
https://openwrt.org/toh/ubiquiti/powerbeam installation instructions)
- Upload the factory image via AirOS web GUI.
Flashing via TFTP:
- Use a pointy tool (e.g., unbent paperclip) to keep the
reset button pressed.
- Power on the device (keep reset button pressed).
- Keep pressing until LEDs flash alternatively LED1+LED3 =>
LED2+LED4 => LED1+LED3, etc.
- Release reset button.
- The device starts a TFTP server at 192.168.1.20.
- Set a static IP on the computer (e.g., 192.168.1.21/24).
- Upload via tftp the factory image:
$ tftp 192.168.1.20
tftp> bin
tftp> trace
tftp> put openwrt-ath79-generic-xxxxx-ubnt_powerbeam-m-xw-squashfs-factory.bin
WARNING: so far, no non-destructive method has been discovered for
opening the enclosure to reach the serial console. Internal photos
are available here: https://fcc.io/SWX-NBM5HP
Signed-off-by: Russell Senior <russell@personaltelco.net>
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This commit adds support for the Teltonika RUT230 v1, a Atheros AR9331
based router with a Quectel UC20 UMTS modem.
Hardware
--------
Atheros AR9331
16 MB SPI-NOR XTX XT25F128B
64M DDR2 memory
Atheros AR9331 1T1R 802.11bgn Wireless
Boootloader: pepe2k U-Boot mod
Hardware-Revision
-----------------
There are two board revisions of the RUT230, a v0 and v1.
A HW version is silkscreened on the top of the PCBs front side as well
as shown in the Teltonika UI. However, this looks to be a different
identifier, as the GPl dump shows this silkscreened / UI shown version
are internally treated identically.
Th following mapping has been obtained from the latest GPl dump.
HW Ver 01 - 04 --> v0
HW Ver > 05 --> v1
My board was a HW Ver 09 and is treated as a v1.
Installation
------------
While attaching power, hold down the reset button and release it after
the signal LEDs flashed 3 times.
Attach your Computer with the devices LAN port and assign yourself the
IPv4 address 192.168.1.10/24. Open a web browser, navigate to
192.168.1.1. Upload the OpenWrt factory image.
The device will install OpenWrt and automatically reboots afterwards.
You can use the smae procedure with the stock firmware to return back to
the vendor firmware.
Signed-off-by: David Bauer <mail@david-bauer.net>
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The beeper is currently not fully functional and has also
been removed from DTS.
Also remove the dependency for the gpio-beeper module.
Fixes: 695a1cd53c ("ath79: add support for MikroTik RouterBOARD 912UAG-2HPnD")
Signed-off-by: Koen Vandeputte <koen.vandeputte@ncentric.com>
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This board has been supported in the ar71xx.
Links:
* https://mikrotik.com/product/RB912UAG-2HPnD
* https://openwrt.org/toh/hwdata/mikrotik/mikrotik_rb912uag-2hpnd
This also supports the 5GHz flavour of the board.
Hardware:
* SoC: Atheros AR9342,
* RAM: DDR 64MB,
* SPI NOR: 64KB,
* NAND: 128MB,
* Ethernet: x1 10/100/1000 port with passive POE in,
* Wi-Fi: 802.11 b/g/n,
* PCIe,
* USB: 2.0 EHCI controller, connected to mPCIe slot and a Type-A
port -- both can be used for LTE modem, but only one can be
used at any time.
* LEDs: 5 general purpose LEDs (led1..led5), power LED, user LED,
Ethernet phy LED,
* Button,
* Beeper.
Not working:
* Button: it shares gpio line 15 with NAND ALE and NAND IO7,
and current drivers doesn't easily support this configuration,
* Beeper: it is connected to bit 5 of a serial shift register
(tested with sysfs led trigger timer). But kmod-gpio-beeper
doesn't work -- we left this as is for now.
Flashing:
* Use the RouterBOARD Reset button to enable TFTP netboot,
boot kernel and initramfs and then perform sysupgrade.
* From ar71xx OpenWrt firmware run:
$ sysupgrade -F /tmp/<sysupgrade.bin>
For more info see: https://openwrt.org/toh/mikrotik/common.
Co-Developed-by: Koen Vandeputte <koen.vandeputte@citymesh.com>
Reviewed-by: Sergey Ryazanov <ryazanov.s.a@gmail.com>
Signed-off-by: Denis Kalashnikov <denis281089@gmail.com>
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Specifications:
- QCA9533 SoC, 8 MB nor flash, 64 MB DDR2 RAM
- 2x2 9dBi antenna, wifi 2.4Ghz 300Mbps
- 4x Ethernet LAN 10/100, 1x Ethernet WAN 10/100
- 1x WAN, LAN, Wifi, PWR, WPS, RE Leds
- Reset, Wifi on/off, WPS, RE buttons
- Serial UART at J4 onboard: 3.3v GND RX TX, 1152008N1
Label MAC addresses based on vendor firmware:
LAN *:ea label
WAN *:eb label +1
2.4 GHz *:ea label
The label MAC address in found in u-boot 0x1fc00
Installation:
Upload openwrt-ath79-generic-tplink_tl-wr841hp-v3-squashfs-factory.bin
from stock firmware webgui.
Maybe we need rename to shorten file name due to stock webgui error.
Revert back to stock firmware instructions:
- set your PC to static IP address 192.168.0.66 netmask 255.255.255.0
- download stock firmware from Tp-link website
- put it in the root directory of tftp server software
- rename it to wr841hpv3_tp_recovery.bin
- power on while pressing Reset button until any Led is lighting up
- wait for the router to reboot. done
Forum support topic:
https://forum.openwrt.org/t/support-for-tp-link-tl-wr841hp-v3-router
Signed-off-by: Andy Lee <congquynh284@yahoo.com>
[rebase and squash]
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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The Ubiquiti Rocket 5AC Lite (R5AC-Lite) is an outdoor router.
Specifications:
- SoC: Qualcomm Atheros QCA9558
- RAM: 128 MB
- Flash: 16 MB SPI
- Ethernet: 1x 10/100/1000 Mbps
- WiFi 5 GHz: QCA988x
- Buttons: 1x (reset)
- LEDs: 1x power, 1x Ethernet, 4x RSSI
Installation:
- Instructions for XC-type Ubiquiti:
https://openwrt.org/toh/ubiquiti/common
Signed-off-by: Nick Hainke <vincent@systemli.org>
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NEC Aterm WF1200CR is a 2.4/5 GHz band 11ac (Wi-Fi 5) router, based on
QCA9561.
Specification:
- SoC : Qualcomm Atheros QCA9561
- RAM : DDR2 128 MiB (W971GG6SB-25)
- Flash : SPI-NOR 8 MiB (MX25L6433FM2I-08G)
- WLAN : 2.4/5 GHz 2T2R
- 2.4 GHz : QCA9561 (SoC)
- 5 GHz : QCA9888
- Ethernet : 2x 10/100 Mbps
- Switch : QCA9561 (SoC)
- LEDs/Keys : 8x/3x (2x buttons, 1x slide-switch)
- UART : through-hole on PCB
- JP1: Vcc, GND, NC, TX, RX from "JP1" marking
- 115200n8
- Power : 12 VDC, 0.9 A
Flash instruction using factory image (stock: < v1.3.2):
1. Boot WF1200CR normally with "Router" mode
2. Access to "http://192.168.10.1/" and open firmware update page
("ファームウェア更新")
3. Select the OpenWrt factory image and click update ("更新") button to
perform firmware update
4. Wait ~150 seconds to complete flashing
Alternate flash instruction using initramfs image (stock: >= v1.3.2):
1. Prepare the TFTP server with the IP address 192.168.1.10 and place
the OpenWrt initramfs image to the TFTP directory with the name
"0101A8C0.img"
2. Connect serial console to WF1200CR
3. Boot WF1200CR and interrupt with any key after the message
"Hit any key to stop autoboot: 2", the U-Boot starts telnetd after
the message "starting telnetd server from server 192.168.1.1"
4. login the telnet (address: 192.168.1.1)
5. Perform the following commands to modify "bootcmd" variable
temporary and check the value
(to ignore the limitation of available commands, "tp; " command at
the first is required as dummy, and the output of "printenv" is
printed on the serial console)
tp; set bootcmd 'set autostart yes; tftpboot'
tp; printenv
6. Save the modified variable with the following command and reset
device
tp; saveenv
tp; reset
7. The U-Boot downloads initramfs image from TFTP server and boots it
8. On initramfs image, download the sysupgrade image to the device and
perform the following commands to erase stock firmware and sysupgrade
mtd erase firmware
sysupgrade <sysupgrade image>
9. After the rebooting by completion of sysupgrade, start U-Boot telnetd
and login with the same way above (3, 4)
10. Perform the following commands to reset "bootcmd" variable to the
default and reset the device
tp; run seattle
tp; reset
(the contents of "seattle":
setenv bootcmd 'bootm 0x9f070040' && saveenv)
11. Wait booting-up the device
Known issues:
- the following 6x LEDs are connected to the gpio controller on QCA9888
chip and the implementation of control via the controller is missing in
ath10k/ath10k-ct
- "ACTIVE" (Red/Green)
- "2.4GHz" (Red/Green)
- "5GHz" (Red/Green)
Note:
- after the version v1.3.2 of stock firmware, "offline update" by
uploading image by user is deleted and the factory image cannot be
used
- the U-Boot on WF1200CR doesn't configure the port-side LEDs on WAN/LAN
and the configuration is required on OpenWrt
- gpio-hog: set the direction of GPIO 14(WAN)/19(LAN) to output
- pinmux: set GPIO 14/19 as switch-controlled LEDs
Signed-off-by: INAGAKI Hiroshi <musashino.open@gmail.com>
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This patch adds support for the Devolo dLAN pro 1200+ WiFi ac.
This device is a plc wifi AC2400 router/extender with 2 Ethernet ports,
has a QCA7500 PLC and uses the HomePlug AV2 standard.
Other than the PLC the hardware is identical to the Devolo Magic 2 WIFI.
Therefore it uses the same dts, which was moved to a dtsi to be included
by both boards.
This is a board that was previously included in the ar71xx tree.
Hardware:
SoC: AR9344
CPU: 560 MHz
Flash: 16 MiB (W25Q128JVSIQ)
RAM: 128 MiB DDR2
Ethernet: 2xLAN 10/100/1000
PLC: QCA75000 (Qualcomm HPAV2)
PLC Uplink: 1Gbps MIMO
PLC Link: RGMII 1Gbps (WAN)
WiFi: Atheros AR9340 2.4GHz 802.11bgn
Atheros AR9882-BR4A 5GHz 802.11ac
Switch: QCA8337, Port0:CPU, Port2:PLC, Port3:LAN1, Port4:LAN2
Button: 3x Buttons (Reset, wifi and plc)
LED: 3x Leds (wifi, plc white, plc red)
GPIO Switch: 11-PLC Pairing (Active Low)
13-PLC Enable
21-WLAN power
MACs Details verified with the stock firmware:
Radio1: 2.4 GHz &wmac *:4c Art location: 0x1002
Radio0: 5.0 GHz &pcie *:4d Art location: 0x5006
Ethernet ðernet *:4e = 2.4 GHz + 2
PLC uplink --- *:4f = 2.4 GHz + 3
Label MAC address is from PLC uplink
The Powerline (PLC) interface of the dLAN pro 1200+ WiFi ac requires 3rd
party firmware which is not available from standard OpenWrt package
feeds. There is a package feed on github which you must add to
OpenWrt buildroot so you can build a firmware image which supports the
plc interface.
See: https://github.com/0xFelix/dlan-openwrt (forked from Devolo and
added compatibility for OpenWrt 21.02)
Flash instruction (TFTP):
1. Set PC to fixed ip address 192.168.0.100
2. Download the sysupgrade image and rename it to uploadfile
3. Start a tftp server with the image file in its root directory
4. Turn off the router
5. Press and hold Reset button
6. Turn on router with the reset button pressed and wait ~15 seconds
7. Release the reset button and after a short time
the firmware should be transferred from the tftp server
8. Allow 1-2 minutes for the first boot.
Signed-off-by: Felix Matouschek <felix@matouschek.org>
[add "plus" to compatible and device name]
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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Specifications:
SoC: QCA9533
DRAM: 32Mb DDR1
Flash: 8/16Mb SPI-NOR
LAN: 4x 10/100Mbps via AR8229 switch (integrated into SoC)
on GMII
WAN: 1x 10/100Mbps via MII
WLAN: QCA9530
USB: 1x 2.0
UART: standard QCA UART header
JTAG: yes
Button: 1x WPS, 1x reset
LEDs: 8x LEDs
A version with 4Mb flash is also available, but due to lack of
enough space it's not supported.
As the original flash layout does not provide enough space for
the kernel (1472k), the firmware uses OKLI and concat flash to
overcome the limitation without changing the boot address of the
bootloaders.
Installation:
1. Original bootloader
Connect the board to ethernet
Set up a server with an IP address of 192.168.1.10
Make the openwrt-ath79-generic-qca_ap143-8m-squashfs-factory.bin
available via TFTP
tftpboot 0x80060000 openwrt-ath79-generic-qca_ap143-8m-squashfs-factory.bin
erase 0x9f050000 +$filesize
cp.b $fileaddr 0x9f050000 $filesize
Reboot the board.
2. pepe2k's u-boot_mod
Connect the board to ethernet
Set up a server with an IP address of 192.168.1.10
Make the openwrt-ath79-generic-qca_ap143-8m-squashfs-factory.bin
available via TFTP, as "firmware.bin"
run fw_upg
Reboot the board.
For the 16M version of the board, please use
openwrt-ath79-generic-qca_ap143-16m-squashfs-factory.bin
Signed-off-by: Zoltan HERPAI <wigyori@uid0.hu>
[use fwconcatX names, drop redundant uart status, fix IMAGE_SIZE,
set up IMAGE/factory.bin without metadata]
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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Device specifications:
======================
* Qualcomm/Atheros QCA9558 ver 1 rev 0
* 720/600/240 MHz (CPU/DDR/AHB)
* 128 MB of RAM
* 16 MB of SPI NOR flash
- 2x 7 MB available; but one of the 7 MB regions is the recovery image
* 2T2R 2.4 GHz Wi-Fi (11n)
* 2T2R 5 GHz Wi-Fi (11ac)
* multi-color LED (controlled via red/green/blue GPIOs)
* 1x GPIO-button (reset)
* external h/w watchdog (enabled by default))
* TTL pins are on board (arrow points to VCC, then follows: GND, TX, RX)
* 2x ethernet
- eth0
+ Label: Ethernet 1
+ AR8035 ethernet PHY (RGMII)
+ 10/100/1000 Mbps Ethernet
+ 802.3af POE
+ used as WAN interface
- eth1
+ Label: Ethernet 2
+ AR8035 ethernet PHY (SGMII)
+ 10/100/1000 Mbps Ethernet
+ used as LAN interface
* 1x USB
* internal antennas
Flashing instructions:
======================
Various methods can be used to install the actual image on the flash.
Two easy ones are:
ap51-flash
----------
The tool ap51-flash (https://github.com/ap51-flash/ap51-flash) should be
used to transfer the image to the u-boot when the device boots up.
initramfs from TFTP
-------------------
The serial console must be used to access the u-boot shell during bootup.
It can then be used to first boot up the initramfs image from a TFTP server
(here with the IP 192.168.1.21):
setenv serverip 192.168.1.21
setenv ipaddr 192.168.1.1
tftpboot 0c00000 <filename-of-initramfs-kernel>.bin && bootm $fileaddr
The actual sysupgrade image can then be transferred (on the LAN port) to the
device via
scp <filename-of-squashfs-sysupgrade>.bin root@192.168.1.1:/tmp/
On the device, the sysupgrade must then be started using
sysupgrade -n /tmp/<filename-of-squashfs-sysupgrade>.bin
Signed-off-by: Sven Eckelmann <sven@narfation.org>
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Device specifications:
======================
* Qualcomm/Atheros QCA9558 ver 1 rev 0
* 720/600/240 MHz (CPU/DDR/AHB)
* 128 MB of RAM
* 16 MB of SPI NOR flash
- 2x 7 MB available; but one of the 7 MB regions is the recovery image
* 3T3R 2.4 GHz Wi-Fi (11n)
* 3T3R 5 GHz Wi-Fi (11ac)
* multi-color LED (controlled via red/green/blue GPIOs)
* 1x GPIO-button (reset)
* external h/w watchdog (enabled by default))
* TTL pins are on board (arrow points to VCC, then follows: GND, TX, RX)
* 2x ethernet
- eth0
+ Label: Ethernet 1
+ AR8035 ethernet PHY (RGMII)
+ 10/100/1000 Mbps Ethernet
+ 802.3af POE
+ used as WAN interface
- eth1
+ Label: Ethernet 2
+ AR8031 ethernet PHY (SGMII)
+ 10/100/1000 Mbps Ethernet
+ used as LAN interface
* 1x USB
* internal antennas
Flashing instructions:
======================
Various methods can be used to install the actual image on the flash.
Two easy ones are:
ap51-flash
----------
The tool ap51-flash (https://github.com/ap51-flash/ap51-flash) should be
used to transfer the image to the u-boot when the device boots up.
initramfs from TFTP
-------------------
The serial console must be used to access the u-boot shell during bootup.
It can then be used to first boot up the initramfs image from a TFTP server
(here with the IP 192.168.1.21):
setenv serverip 192.168.1.21
setenv ipaddr 192.168.1.1
tftpboot 0c00000 <filename-of-initramfs-kernel>.bin && bootm $fileaddr
The actual sysupgrade image can then be transferred (on the LAN port) to the
device via
scp <filename-of-squashfs-sysupgrade>.bin root@192.168.1.1:/tmp/
On the device, the sysupgrade must then be started using
sysupgrade -n /tmp/<filename-of-squashfs-sysupgrade>.bin
Signed-off-by: Sven Eckelmann <sven@narfation.org>
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ZiKing CPE46B is a POE outdoor 2.4ghz device with an integrated directional
antenna. It is low cost and mostly available via Aliexpress, references can
be found at:
- https://forum.openwrt.org/t/anddear-ziking-cpe46b-ar9331-ap121/60383
- https://git.lsd.cat/g/openwrt-cpe46b
Specifications:
- Atheros AR9330
- 32MB of RAM
- 8MB of flash (SPI NOR)
- 1 * 2.4ghz integrated antenna
- 2 * 10/100/1000 ethernet ports (1 POE)
- 3 * Green LEDs controlled by the SoC
- 3 * Green LEDs controlled via GPIO
- 1 * Reset Button controlled via GPIO
- 1 * 4 pin serial header on the PCB
- Outdoor packaging
Flashing instruction:
You can use sysupgrade image directly in vendor firmware which is based
on OpenWrt/LEDE. In case of issues with the vendor GUI, the vendor
Telnet console is vulnerable to command injection and can be used to gain
a shell directly on the OEM OpenWrt distribution.
Signed-off-by: Giulio Lorenzo <salveenee@mortemale.org>
[fix whitespaces, drop redundant uart status and serial0, drop
num-chipselects, drop 0x1002 MAC address for wmac]
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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COMFAST CF-E375AC is a ceiling mount AP with PoE support,
based on Qualcomm/Atheros QCA9563 + QCA9886 + QCA8337.
Short specification:
2x 10/100/1000 Mbps Ethernet, with PoE support
128MB of RAM (DDR2)
16 MB of FLASH
3T3R 2.4 GHz, 802.11b/g/n
2T2R 5 GHz, 802.11ac/n/a, wave 2
built-in 5x 3 dBi antennas
output power (max): 500 mW (27 dBm)
1x RGB LED, 1x button
built-in watchdog chipset
Flash instruction:
1) Original firmware is based on OpenWrt.
Use sysupgrade image directly in vendor GUI.
2) TFTP
2.1) Set a tftp server on your machine with a fixed IP address of
192.168.1.10. A place the sysupgrade as firmware_auto.bin.
2.2) boot the device with an ethernet connection on fixed ip route
2.3) wait a few seconds and try to login via ssh
3) TFTP trough Bootloader
3.1) open the device case and get a uart connection working
3.2) stop the autoboot process and test connection with serverip
3.3) name the sysupgrade image firmware.bin and run firmware_upg
MAC addresses:
Though the OEM firmware has four adresses in the usual locations,
it appears that the assigned addresses are just incremented in a
different way:
interface address location
LAN: *:DC 0x0
WAN *:DD 0x1002
WLAN 2.4g *:E6 n/a (0x0 + 10)
WLAN 5g *:DE 0x6
unused *:DF 0x5006
The MAC address pointed at the label is the one assign to the LAN
interface.
Signed-off-by: Joao Henrique Albuquerque <joaohccalbu@gmail.com>
[add label-mac-device, remove redundant uart status, fix whitespace
issues, fix commit message wrapping, remove x bit on DTS file]
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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This fixes a small regression where the lzma-loader variable values
are being shared between boards that require different configurations.
If not set to "" globally, a device without these settings will just take
the last values another device has set before in the queue.
Fixes: 1b8bd17c2d07 ("ath79: lzma-loader: allow setting custom kernel magic")
Signed-off-by: Michael Pratt <mcpratt@pm.me>
[add detailed explanation to the commit message]
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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Before this commit, it was assumed that mkhash is in the PATH. While
this was fine for the normal build workflow, this led to some issues if
make TOPDIR="$(pwd)" -C "$pkgdir" compile
was called manually. In most of the cases, I just saw warnings like this:
make: Entering directory '/home/.../package/gluon-status-page'
bash: line 1: mkhash: command not found
bash: line 1: mkhash: command not found
bash: line 1: mkhash: command not found
bash: line 1: mkhash: command not found
bash: line 1: mkhash: command not found
bash: line 1: mkhash: command not found
bash: line 1: mkhash: command not found
bash: line 1: mkhash: command not found
[...]
While these were only warnings and the package still compiled sucessfully,
I also observed that some package even fail to build because of this.
After applying this commit, the variable $(MKHASH) is introduced. This
variable points to $(STAGING_DIR_HOST)/bin/mkhash, which is always the
correct path.
Signed-off-by: Leonardo Mörlein <me@irrelefant.net>
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The kernel image is too big now and the build fails.
WARNING: Image file zyxel_nbg6716-kernel.bin is too big: 4205404 > 4194304
Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de>
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This patch enables the SFP cage on the MikroTik RouterBOARD 922UAGS-5HPacD.
GPIO16 (tx-disable-gpios) should be governed by the SFP driver to enable
or disable transmission, but no change is observed. Therefore, it is
left as output high to ensure the SFP module is forced to transmit.
Tested on a RouterBOARD 922UAGS-5HPacD board, with a CISCO GLC-LH-SMD
1310nm module and an unbranded GLC-T RJ45 Gigabit module. PC=>router
iperf3 tests deliver 440/300 Mbps up/down, both via regular eth0 port
or SFP port with RJ45 module. Bridge between eth0 and eth1 delivers
950 Mbps symmetric.
Signed-off-by: Roger Pueyo Centelles <roger.pueyo@guifi.net>
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This device is a Senao-based product
using hardware and software from Senao
with the tar-gz platform for factory.bin
and checksum verification at boot time
using variables stored in uboot environment
and a 'failsafe' image when it fails.
Extremely similar hardware/software to Engenius EAP1200H
and other Engenius APs with qca955x
Tested-by: Tomasz Maciej Nowak <tmn505@gmail.com>
Signed-off-by: Michael Pratt <mcpratt@pm.me>
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Use a similar upgrade method for sysupgrade.bin, like factory.bin,
for Senao boards with the tar.gz OEM upgrade platform,
and 'failsafe' image which is loaded on checksum failure.
This is inspired by the OEM upgrade script /etc/fwupgrade.sh
and the existing platforms for dual-boot Senao boards.
Previously, if the real kernel was damaged or missing
the only way to recover was with UART serial console,
because the OKLI lzma-loader is programmed to halt.
uboot did not detect cases where kernel or rootfs is damaged
and boots OKLI instead of the failsafe image,
because the checksums stored in uboot environment
did not include the real kernel and rootfs space.
Now, the stored checksums include the space for both
the lzma-loader, kernel, and rootfs.
Therefore, these boards are now practically unbrickable.
Also, the factory.bin and sysupgrade.bin are now the same,
except for image metadata.
This allows for flashing OEM image directly from openwrt
as well as flashing openwrt image directly from OEM.
Make 'loader' partition writable so that it can be updated
during a sysupgrade.
tested with
ENS202EXT v1
EAP1200H
EAP350 v1
EAP600
ECB350 v1
ECB600
ENH202 v1
Signed-off-by: Michael Pratt <mcpratt@pm.me>
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ath79/tiny kernel config has
CONFIG_MTD_SPI_NOR_USE_4K_SECTORS=y
from commit
05d35403b211ccb9bf20e2b3c0b7a30c82c6d6a2
Because of this, these changes are required for 2 reasons:
1.
Senao devices in ath79/tiny
with a 'failsafe' partition and the tar.gz sysupgrade platform
and a flash chip that supports 4k sectors
will fail to reboot to openwrt after a sysupgrade.
the stored checksum is made with the 64k blocksize length
of the image to be flashed,
and the actual checksum changes after flashing due to JFFS2 space
being formatted within the length of the rootfs from the image
example:
0x440000 length of kernel + rootfs (from sysupgrade.bin)
0x439000 offset of rootfs_data (from kernel log)
2.
for boards with flash chips that support 4k sectors:
saving configuration over sysupgrade is not possible
because sysupgrade.tgz is appended at a 64k boundary
and the mtd parser starts JFFS2 at a 4k boundary.
for boards with flash chips that do not support 4k sectors:
partitioning with 4k boundaries causes a boot loop
from the mtd parser not finding kernel and rootfs.
Also:
Some of the Senao boards that belong in ath79/tiny,
for example ENH202,
have a flash chip that does not support 4k sectors
(no SECT_4K symbol in upstream source).
Because of this, partitioning must be different for these devices
depending on the flash chip model detected by the kernel.
Therefore:
this creates 2 DTSI files
to replace the single one with 64k partitioning
for 4k and 64k partitioning respectively.
Signed-off-by: Michael Pratt <mcpratt@pm.me>
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By using the same custom kernel header magic
in both OKLI lzma-loader, DTS, and makefile
this hack is not necessary anymore
However, "rootfs" size and checksum
must now be supplied by the factory.bin image
through a script that is accepted by the OEM upgrade script.
This is because Senao OEM scripts assume a squashfs header exists
at the offset for the original "rootfs" partition
which is actually the kernel + rootfs in this implementation,
and takes size value from the header that would be there with hexdump,
but this offset is now the uImage header instead.
This frees up 1 eraseblock
previously used by the "fakeroot" partition
for bypassing the OEM image verification.
Also, these Senao devices with a 'failsafe' partition
and the tar-gz factory.bin platform would otherwise require
flashing the new tar-gz sysupgrade.bin afterward.
So this also prevents having to flash both images
when starting from OEM or 'failsafe'
the OEM upgrade script verifies the header magic numbers,
but only the first two bytes.
Example:
[ "${magic_word_kernel}" = "2705" ] &&
[ "${magic_word_rootfs}" = "7371" -o "${magic_word_rootfs}" = "6873" ] &&
errcode="0"
therefore picked the magic number
0x73714f4b
which is
'sqOK'
Signed-off-by: Michael Pratt <mcpratt@pm.me>
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...and max flash offset
The mtdsplit parser was recently refactored
to allow the kernel to have custom image header magic.
Let's also do this for the lzma-loader
For example:
When implemented together,
this allows the kernel to "appear" to be a rootfs
by OEM software in order to write an image
that is actually kernel + rootfs.
At the same time,
it would boot to openwrt normally
by setting the same magic in DTS.
Both of the variables
have a default value that is unchanged
when not defined in the makefiles
This has no effect on the size of the loader
when lzma compressed.
Signed-off-by: Michael Pratt <mcpratt@pm.me>
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This device is a wireless router working on 2.4GHz band based on
Qualcom/Atheros AR9132 rev 2 SoC and is accompanied by Atheros AR9103
wireless chip and Realtek RTL8366RB/S switches. Due to two different
switches being used also two different devices are provided.
Specification:
- 400 MHz CPU
- 64 MB of RAM
- 32 MB of FLASH (NOR)
- 3x3:2 2.4 GHz 802.11bgn
- 5x 10/100/1000 Mbps Ethernet
- 4x LED, 3x button, On/Off slider, Auto/On/Off slider
- 1x USB 2.0
- bare UART header place on PCB
Flash instruction:
- NOTE: Pay attention to the switch variant and choose the image to
flash accordingly. (dmesg / kernel logs can tell it)
- Methods for flashing
- Apply factory image in OEM firmware web-gui.
- Sysupgrade on top of existing OpenWRT image
- U-Boot TFPT recovery for both stock or OpenWRT images:
The device U-boot contains a TFTP server that by default has
an address 192.168.11.1 (MAC 02:AA:BB:CC:DD:1A). During the boot
there is a time window, during which the device allows an image to
be uploaded from a client with address 192.168.11.2. The image will
be written on flash automatically.
1) Have a computer with static IP address 192.168.11.2 and the
router device switched off.
2) Connect the LAN port next to the WAN port in the device and the
computer using a network switch.
3) Assign IP 192.168.11.1 the MAC address 02:AA:BB:CC:DD:1A
arp -s 192.168.11.1 02:AA:BB:CC:DD:1A
4) Initiate an upload using TFTP image variant
curl -T <imagename> tftp://192.168.11.1
5) Switch on the device. The image will be uploaded subsequently.
You can keep an eye on the diag light on the device, it should
keep on blinking for a while indicating the writing of the image.
General notes:
- In the stock firmware the MAC address is the same among all
interfaces so it is left here that way too.
Recovery:
- TFTP method
- U-boot serial console
Differences to ar71xx platform
- This device is split in two different targets now due to hardware
being a bit different under the hood. Dynamic solution within the same
image is left for later time.
- GPIOs for a sliding On/Off switch, marked 'Movie engine' on the device
cover, were the wrong way around and were renamed qos_on -> movie_off,
qos_off -> movie_on. Associated key codes remained the same they were.
The device tree source code is mostly based on musashino's work
Signed-off-by: Mauri Sandberg <sandberg@mailfence.com>
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Make packages depending on usb-serial selective, so we do not have
to add kmod-usb-serial manually for every device.
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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These recipes and definitions can apply
to devices from other vendors
with PCB boards or SDK produced by Senao
not only the brand Engenius
possible examples:
Extreme Networks, WatchGuard, OpenMesh,
Fortinet, ALLNET, OCEDO, Plasma Cloud, devolo, etc.
so rename all of these items
and move DEVICE_VENDOR from common to generic/tiny.mk
Signed-off-by: Michael Pratt <mcpratt@pm.me>
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The factory images need to embed specific IDs to pass verification with
the OEM firmware (including TFTP recovery), so they need to be
per-device variables.
Fixes: ab1584a797ad ("ath79: netgear: trim down uImage customisations")
Fixes: 459c8c9ef816 ("ath79: add support for ZyXEL NBG6616")
Reported-by: Marcin Juszkiewicz <marcin-openwrt@juszkiewicz.com.pl>
Signed-off-by: Paul Fertser <fercerpav@gmail.com>
[minor commit message adjustments, sort DEVICE_VARS]
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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Specifications:
* QCA9557, 16 MiB Flash, 128 MiB RAM, 802.11n 2T2R
* QCA9882, 802.11ac 2T2R
* 2x Gigabit LAN (1x 802.11af PoE)
* IP68 pole-mountable outdoor case
Installation:
* Factory Web UI is at 192.168.0.50
login with 'admin' and blank password, flash factory.bin
* Recovery Web UI is at 192.168.0.50
connect network cable, hold reset button during power-on and keep it
pressed until uploading has started (only required when checksum is ok,
e.g. for reverting back to oem firmware), flash factory.bin
After flashing factory.bin, additional free space can be reclaimed by
flashing sysupgrade.bin, since the factory image requires some padding
to be accepted for upgrading via OEM Web UI.
Both ethernet ports are set to LAN by default, matching the labelling on
the case. However, since both GMAC Interfaces eth0 and eth1 are connected
to the switch (QCA8337), the user may create an additional 'wan' interface
as desired and override the vlan id settings to map br-lan / wan to either
the PoE or non-PoE port, depending on the individual scenario of use.
So, the LAN and WAN ports would then be connected to different GMACs, e.g.
config interface 'lan'
option ifname 'eth0.1'
...
config interface 'wan'
option ifname 'eth1.2'
...
config switch_vlan
option device 'switch0'
option vlan '1'
option ports '1 0t'
config switch_vlan
option device 'switch0'
option vlan '2'
option ports '2 6t'
Signed-off-by: Sebastian Schaper <openwrt@sebastianschaper.net>
[add configuration example]
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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Port device support for Meraki MR12 from the ar71xx target to ath79.
Specifications:
- SoC: AR7242-AH1A CPU
- RAM: 64MiB (NANYA NT5DS32M16DS-5T)
- NOR Flash: 16MiB (MXIC MX25L12845EMI-10G)
- Ethernet: 1 x PoE Gigabit Ethernet Port (SoC MAC + AR8021-BL1E PHY)
- Ethernet: 1 x 100Mbit port (SoC MAC+PHY)
- Wi-Fi: Atheros AR9283-AL1A (2T2R, 11n)
Installation:
1. Requires TFTP server at 192.168.1.101, w/ initramfs & sysupgrade .bins
2. Open shell case
3. Connect a USB->TTL cable to headers furthest from the RF shield
4. Power on the router; connect to U-boot over 115200-baud connection
5. Interrupt U-boot process to boot Openwrt by running:
setenv bootcmd bootm 0xbf0a0000; saveenv;
tftpboot 0c00000 <filename-of-initramfs-kernel>.bin;
bootm 0c00000;
6. Copy sysupgrade image to /tmp on MR12
7. sysupgrade /tmp/<filename-of-sysupgrade>.bin
Notes:
- kmod-owl-loader is still required to load the ART partition into the
driver.
- The manner of storing MAC addresses is updated from ar71xx; it is
at 0x66 of the 'config' partition, where it was discovered that the
OEM firmware stores it. This is set as read-only. If you are
migrating from ar71xx and used the method mentioned above to
upgrade, use kmod-mtd-rw or UCI to add the MAC back in. One more
method for doing this is described below.
- Migrating directly from ar71xx has not been thoroughly tested, but
one method has been used a couple of times with good success,
migrating 18.06.2 to a full image produced as of this commit. Please
note that these instructions are only for experienced users, and/or
those still able to open their device up to flash it via the serial
headers should anything go wrong.
1) Install kmod-mtd-rw and uboot-envtools
2) Run `insmod mtd-rw.ko i_want_a_brick=1`
3) Modify /etc/fw_env.config to point to the u-boot-env partition.
The file /etc/fw_env.config should contain:
# MTD device env offset env size sector size
/dev/mtd1 0x00000 0x10000 0x10000
See https://openwrt.org/docs/techref/bootloader/uboot.config
for more details.
4) Run `fw_printenv` to verify everything is correct, as per the
link above.
5) Run `fw_setenv bootcmd bootm 0xbf0a0000` to set a new boot address.
6) Manually modify /lib/upgrade/common.sh's get_image function:
Change ...
cat "$from" 2>/dev/null | $cmd
... into ...
(
dd if=/dev/zero bs=1 count=$((0x66)) ; # Pad the first 102 bytes
echo -ne '\x00\x18\x0a\x12\x34\x56' ; # Add in MAC address
dd if=/dev/zero bs=1 count=$((0x20000-0x66-0x6)) ; # Pad the rest
cat "$from" 2>/dev/null
) | $cmd
... which, during the upgrade process, will pad the image by
128K of zeroes-plus-MAC-address, in order for the ar71xx's
firmware partition -- which starts at 0xbf080000 -- to be
instead aligned with the ath79 firmware partition, which
starts 128K later at 0xbf0a0000.
7) Copy the sysupgrade image into /tmp, as above
8) Run `sysupgrade -F /tmp/<sysupgrade>.bin`, then wait
Again, this may BRICK YOUR DEVICE, so make *sure* to have your
serial cable handy.
Signed-off-by: Martin Kennedy <hurricos@gmail.com>
[add LED migration and extend compat message]
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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Hardware
--------
Atheros AR7241
16M SPI-NOR
64M DDR2
Atheros AR9283 2T2R b/g/n
2x Fast Ethernet (built-in)
Installation
------------
Transfer the Firmware update to the device using SCP.
Install using fwupdate.real -m <openwrt.bin> -d
Signed-off-by: David Bauer <mail@david-bauer.net>
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A header used in ELECOM WRC-300GHBK2-I and WRC-1750GHBK2-I/C is also
used in ELECOM WRC-2533GHBK-I, so split the code to generate the header
and move it to image-commands.mk to use from ramips target.
Signed-off-by: INAGAKI Hiroshi <musashino.open@gmail.com>
Reviewed-by: Sungbo Eo <mans0n@gorani.run>
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FCC ID: A8J-EAP1200H
Engenius EAP1200H is an indoor wireless access point with
1 Gb ethernet port, dual-band wireless,
internal antenna plates, and 802.3at PoE+
**Specification:**
- QCA9557 SOC
- QCA9882 WLAN PCI card, 5 GHz, 2x2, 26dBm
- AR8035-A PHY RGMII GbE with PoE+ IN
- 40 MHz clock
- 16 MB FLASH MX25L12845EMI-10G
- 2x 64 MB RAM NT5TU32M16FG
- UART at J10 populated
- 4 internal antenna plates (5 dbi, omni-directional)
- 5 LEDs, 1 button (power, eth0, 2G, 5G, WPS) (reset)
**MAC addresses:**
MAC addresses are labeled as ETH, 2.4G, and 5GHz
Only one Vendor MAC address in flash
eth0 ETH *:a2 art 0x0
phy1 2.4G *:a3 ---
phy0 5GHz *:a4 ---
**Serial Access:**
the RX line on the board for UART is shorted to ground by resistor R176
therefore it must be removed to use the console
but it is not necessary to remove to view boot log
optionally, R175 can be replaced with a solder bridge short
the resistors R175 and R176 are next to the UART RX pin at J10
**Installation:**
2 ways to flash factory.bin from OEM:
Method 1: Firmware upgrade page:
OEM webpage at 192.168.1.1
username and password "admin"
Navigate to "Firmware Upgrade" page from left pane
Click Browse and select the factory.bin image
Upload and verify checksum
Click Continue to confirm and wait 3 minutes
Method 2: Serial to load Failsafe webpage:
After connecting to serial console and rebooting...
Interrupt uboot with any key pressed rapidly
execute `run failsafe_boot` OR `bootm 0x9fd70000`
wait a minute
connect to ethernet and navigate to
"192.168.1.1/index.htm"
Select the factory.bin image and upload
wait about 3 minutes
**Return to OEM:**
If you have a serial cable, see Serial Failsafe instructions
otherwise, uboot-env can be used to make uboot load the failsafe image
*DISCLAIMER*
The Failsafe image is unique to Engenius boards.
If the failsafe image is missing or damaged this will brick the device
DO NOT downgrade to ar71xx this way, it can cause kernel loop or halt
ssh into openwrt and run
`fw_setenv rootfs_checksum 0`
reboot, wait 3 minutes
connect to ethernet and navigate to 192.168.1.1/index.htm
select OEM firmware image from Engenius and click upgrade
**TFTP recovery:**
Requires serial console, reset button does nothing
rename initramfs to 'vmlinux-art-ramdisk'
make available on TFTP server at 192.168.1.101
power board, interrupt boot
execute tftpboot and bootm 0x81000000
NOTE: TFTP is not reliable due to bugged bootloader
set MTU to 600 and try many times
**Format of OEM firmware image:**
The OEM software of EAP1200H is a heavily modified version
of Openwrt Kamikaze. One of the many modifications
is to the sysupgrade program. Image verification is performed
simply by the successful ungzip and untar of the supplied file
and name check and header verification of the resulting contents.
To form a factory.bin that is accepted by OEM Openwrt build,
the kernel and rootfs must have specific names...
openwrt-ar71xx-generic-eap1200h-uImage-lzma.bin
openwrt-ar71xx-generic-eap1200h-root.squashfs
and begin with the respective headers (uImage, squashfs).
Then the files must be tarballed and gzipped.
The resulting binary is actually a tar.gz file in disguise.
This can be verified by using binwalk on the OEM firmware images,
ungzipping then untaring.
Newer EnGenius software requires more checks but their script
includes a way to skip them, otherwise the tar must include
a text file with the version and md5sums in a deprecated format.
The OEM upgrade script is at /etc/fwupgrade.sh.
OKLI kernel loader is required because the OEM software
expects the kernel to be no greater than 1536k
and the factory.bin upgrade procedure would otherwise
overwrite part of the kernel when writing rootfs.
Note on PLL-data cells:
The default PLL register values will not work
because of the external AR8035 switch between
the SOC and the ethernet port.
For QCA955x series, the PLL registers for eth0 and eth1
can be see in the DTSI as 0x28 and 0x48 respectively.
Therefore the PLL registers can be read from uboot
for each link speed after attempting tftpboot
or another network action using that link speed
with `md 0x18050028 1` and `md 0x18050048 1`.
The clock delay required for RGMII can be applied
at the PHY side, using the at803x driver `phy-mode`.
Therefore the PLL registers for GMAC0
do not need the bits for delay on the MAC side.
This is possible due to fixes in at803x driver
since Linux 5.1 and 5.3
Signed-off-by: Michael Pratt <mcpratt@pm.me>
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The majority of our targets provide a default value for the variable
SUPPORTED_DEVICES, which is used in images to check against the
compatible on a running device:
SUPPORTED_DEVICES := $(subst _,$(comma),$(1))
At the moment, this is implemented in the Device/Default block of
the individual targets or even subtargets. However, since we
standardized device names and compatible in the recent past, almost
all targets are following the same scheme now:
device/image name: vendor_model
compatible: vendor,model
The equal redundant definitions are a symptom of this process.
Consequently, this patch moves the definition to image.mk making it
a global default. For the few targets not using the scheme above,
SUPPORTED_DEVICES will be defined to a different value in
Device/Default anyway, overwriting the default. In other words:
This change is supposed to be cosmetic.
This can be used as a global measure to get the current compatible
with: $(firstword $(SUPPORTED_DEVICES))
(Though this is not precisely an achievement of this commit.)
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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Device specifications:
======================
* Qualcomm/Atheros QCA9558 ver 1 rev 0
* 720/600/240 MHz (CPU/DDR/AHB)
* 128 MB of RAM
* 16 MB of SPI NOR flash
- 2x 7 MB available; but one of the 7 MB regions is the recovery image
* 3T3R 2.4 GHz Wi-Fi (11n)
* 3T3R 5 GHz Wi-Fi (11ac)
* 6x GPIO-LEDs (2x wifi, 2x status, 1x lan, 1x power)
* 1x GPIO-button (reset)
* external h/w watchdog (enabled by default))
* TTL pins are on board (arrow points to VCC, then follows: GND, TX, RX)
* 1x ethernet
- AR8035 ethernet PHY (RGMII)
- 10/100/1000 Mbps Ethernet
- 802.3af POE
- used as LAN interface
* 12-24V 1A DC
* internal antennas
Flashing instructions:
======================
Various methods can be used to install the actual image on the flash.
Two easy ones are:
ap51-flash
----------
The tool ap51-flash (https://github.com/ap51-flash/ap51-flash) should be
used to transfer the image to the u-boot when the device boots up.
initramfs from TFTP
-------------------
The serial console must be used to access the u-boot shell during bootup.
It can then be used to first boot up the initramfs image from a TFTP server
(here with the IP 192.168.1.21):
setenv serverip 192.168.1.21
setenv ipaddr 192.168.1.1
tftpboot 0c00000 <filename-of-initramfs-kernel>.bin && bootm $fileaddr
The actual sysupgrade image can then be transferred (on the LAN port) to the
device via
scp <filename-of-squashfs-sysupgrade>.bin root@192.168.1.1:/tmp/
On the device, the sysupgrade must then be started using
sysupgrade -n /tmp/<filename-of-squashfs-sysupgrade>.bin
Signed-off-by: Sven Eckelmann <sven@narfation.org>
[rebase, add LED migration]
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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Device specifications:
======================
* Qualcomm/Atheros QCA9558 ver 1 rev 0
* 720/600/240 MHz (CPU/DDR/AHB)
* 128 MB of RAM
* 16 MB of SPI NOR flash
- 2x 7 MB available; but one of the 7 MB regions is the recovery image
* 3T3R 2.4 GHz Wi-Fi (11n)
* 3T3R 5 GHz Wi-Fi (11ac)
* 6x GPIO-LEDs (2x wifi, 2x status, 1x lan, 1x power)
* 1x GPIO-button (reset)
* external h/w watchdog (enabled by default))
* TTL pins are on board (arrow points to VCC, then follows: GND, TX, RX)
* 1x ethernet
- AR8035 ethernet PHY (RGMII)
- 10/100/1000 Mbps Ethernet
- 802.3af POE
- used as LAN interface
* 12-24V 1A DC
* internal antennas
Flashing instructions:
======================
Various methods can be used to install the actual image on the flash.
Two easy ones are:
ap51-flash
----------
The tool ap51-flash (https://github.com/ap51-flash/ap51-flash) should be
used to transfer the image to the u-boot when the device boots up.
initramfs from TFTP
-------------------
The serial console must be used to access the u-boot shell during bootup.
It can then be used to first boot up the initramfs image from a TFTP server
(here with the IP 192.168.1.21):
setenv serverip 192.168.1.21
setenv ipaddr 192.168.1.1
tftpboot 0c00000 <filename-of-initramfs-kernel>.bin && bootm $fileaddr
The actual sysupgrade image can then be transferred (on the LAN port) to the
device via
scp <filename-of-squashfs-sysupgrade>.bin root@192.168.1.1:/tmp/
On the device, the sysupgrade must then be started using
sysupgrade -n /tmp/<filename-of-squashfs-sysupgrade>.bin
Signed-off-by: Sven Eckelmann <sven@narfation.org>
[rebase, apply shared DTSI/device node, add LED migration]
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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The shared image definitions for OpenMesh devices are currently
organized based on device families. This introduces some duplicate
code, as the image creation code is mostly the same for those.
This patch thus derives two basic shared definitions that work for
all devices and only requires a few variables to be moved back to
the device definitions.
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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Device specifications:
======================
* Qualcomm/Atheros QCA9558 ver 1 rev 0
* 720/600/240 MHz (CPU/DDR/AHB)
* 128 MB of RAM
* 16 MB of SPI NOR flash
- 2x 7 MB available; but one of the 7 MB regions is the recovery image
* 3T3R 2.4 GHz Wi-Fi
* 3T3R 5 GHz Wi-Fi
* 6x GPIO-LEDs (2x wifi, 2x status, 1x lan, 1x power)
* 1x GPIO-button (reset)
* external h/w watchdog (enabled by default))
* TTL pins are on board (arrow points to VCC, then follows: GND, TX, RX)
* 1x ethernet
- AR8035 ethernet PHY (RGMII)
- 10/100/1000 Mbps Ethernet
- 802.3af POE
- used as LAN interface
* 12-24V 1A DC
* internal antennas
Flashing instructions:
======================
Various methods can be used to install the actual image on the flash.
Two easy ones are:
ap51-flash
----------
The tool ap51-flash (https://github.com/ap51-flash/ap51-flash) should be
used to transfer the image to the u-boot when the device boots up.
initramfs from TFTP
-------------------
The serial console must be used to access the u-boot shell during bootup.
It can then be used to first boot up the initramfs image from a TFTP server
(here with the IP 192.168.1.21):
setenv serverip 192.168.1.21
setenv ipaddr 192.168.1.1
tftpboot 0c00000 <filename-of-initramfs-kernel>.bin && bootm $fileaddr
The actual sysupgrade image can then be transferred (on the LAN port) to the
device via
scp <filename-of-squashfs-sysupgrade>.bin root@192.168.1.1:/tmp/
On the device, the sysupgrade must then be started using
sysupgrade -n /tmp/<filename-of-squashfs-sysupgrade>.bin
Signed-off-by: Sven Eckelmann <sven@narfation.org>
[rebase, add LED migration]
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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Device specifications:
======================
* Qualcomm/Atheros QCA9558 ver 1 rev 0
* 720/600/240 MHz (CPU/DDR/AHB)
* 128 MB of RAM
* 16 MB of SPI NOR flash
- 2x 7 MB available; but one of the 7 MB regions is the recovery image
* 3T3R 2.4 GHz Wi-Fi
* 3T3R 5 GHz Wi-Fi
* 6x GPIO-LEDs (2x wifi, 2x status, 1x lan, 1x power)
* 1x GPIO-button (reset)
* external h/w watchdog (enabled by default))
* TTL pins are on board (arrow points to VCC, then follows: GND, TX, RX)
* 1x ethernet
- AR8035 ethernet PHY (RGMII)
- 10/100/1000 Mbps Ethernet
- 802.3af POE
- used as LAN interface
* 12-24V 1A DC
* internal antennas
Flashing instructions:
======================
Various methods can be used to install the actual image on the flash.
Two easy ones are:
ap51-flash
----------
The tool ap51-flash (https://github.com/ap51-flash/ap51-flash) should be
used to transfer the image to the u-boot when the device boots up.
initramfs from TFTP
-------------------
The serial console must be used to access the u-boot shell during bootup.
It can then be used to first boot up the initramfs image from a TFTP server
(here with the IP 192.168.1.21):
setenv serverip 192.168.1.21
setenv ipaddr 192.168.1.1
tftpboot 0c00000 <filename-of-initramfs-kernel>.bin && bootm $fileaddr
The actual sysupgrade image can then be transferred (on the LAN port) to the
device via
scp <filename-of-squashfs-sysupgrade>.bin root@192.168.1.1:/tmp/
On the device, the sysupgrade must then be started using
sysupgrade -n /tmp/<filename-of-squashfs-sysupgrade>.bin
Signed-off-by: Sven Eckelmann <sven@narfation.org>
[rebase, add LED migration]
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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Device specifications:
======================
* Qualcomm/Atheros AR9344 rev 2
* 560/450/225 MHz (CPU/DDR/AHB)
* 128 MB of RAM
* 16 MB of SPI NOR flash
- 2x 7 MB available; but one of the 7 MB regions is the recovery image
* 2T2R 2.4 GHz Wi-Fi
* 2T2R 5 GHz Wi-Fi
* 8x GPIO-LEDs (6x wifi, 1x wps, 1x power)
* 1x GPIO-button (reset)
* external h/w watchdog (enabled by default))
* TTL pins are on board (arrow points to VCC, then follows: GND, TX, RX)
* 1x ethernet
- AR8035 ethernet PHY (RGMII)
- 10/100/1000 Mbps Ethernet
- 802.3af POE
- used as LAN interface
* 12-24V 1A DC
* internal antennas
Flashing instructions:
======================
Various methods can be used to install the actual image on the flash.
Two easy ones are:
ap51-flash
----------
The tool ap51-flash (https://github.com/ap51-flash/ap51-flash) should be
used to transfer the image to the u-boot when the device boots up.
initramfs from TFTP
-------------------
The serial console must be used to access the u-boot shell during bootup.
It can then be used to first boot up the initramfs image from a TFTP server
(here with the IP 192.168.1.21):
setenv serverip 192.168.1.21
setenv ipaddr 192.168.1.1
tftpboot 0c00000 <filename-of-initramfs-kernel>.bin && bootm $fileaddr
The actual sysupgrade image can then be transferred (on the LAN port) to the
device via
scp <filename-of-squashfs-sysupgrade>.bin root@192.168.1.1:/tmp/
On the device, the sysupgrade must then be started using
sysupgrade -n /tmp/<filename-of-squashfs-sysupgrade>.bin
Signed-off-by: Sven Eckelmann <sven@narfation.org>
[rebase, add LED migration]
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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Device specifications:
======================
* Qualcomm/Atheros AR9344 rev 2
* 560/450/225 MHz (CPU/DDR/AHB)
* 128 MB of RAM
* 16 MB of SPI NOR flash
- 2x 7 MB available; but one of the 7 MB regions is the recovery image
* 2T2R 2.4 GHz Wi-Fi
* 2T2R 5 GHz Wi-Fi
* 4x GPIO-LEDs (2x wifi, 1x wps, 1x power)
* 1x GPIO-button (reset)
* TTL pins are on board (arrow points to VCC, then follows: GND, TX, RX)
* 1x ethernet
- AR8035 ethernet PHY (RGMII)
- 10/100/1000 Mbps Ethernet
- 802.3af POE
- used as LAN interface
* 12-24V 1A DC
* internal antennas
Flashing instructions:
======================
Various methods can be used to install the actual image on the flash.
Two easy ones are:
ap51-flash
----------
The tool ap51-flash (https://github.com/ap51-flash/ap51-flash) should be
used to transfer the image to the u-boot when the device boots up.
initramfs from TFTP
-------------------
The serial console must be used to access the u-boot shell during bootup.
It can then be used to first boot up the initramfs image from a TFTP server
(here with the IP 192.168.1.21):
setenv serverip 192.168.1.21
setenv ipaddr 192.168.1.1
tftpboot 0c00000 <filename-of-initramfs-kernel>.bin && bootm $fileaddr
The actual sysupgrade image can then be transferred (on the LAN port) to the
device via
scp <filename-of-squashfs-sysupgrade>.bin root@192.168.1.1:/tmp/
On the device, the sysupgrade must then be started using
sysupgrade -n /tmp/<filename-of-squashfs-sysupgrade>.bin
Signed-off-by: Sven Eckelmann <sven@narfation.org>
[rebase, make WLAN LEDs consistent, add LED migration]
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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CPU: Atheros AR9342 rev 3 SoC
RAM: 64 MB DDR2
Flash: 16 MB NOR SPI
WLAN 2.4GHz: Atheros AR9342 v3 (ath9k)
WLAN 5.0GHz: QCA988X
Ports: 1x GbE
Flashing procedure is identical to other ubnt devices.
https://openwrt.org/toh/ubiquiti/common
Flashing through factory firmware
1. Ensure firmware version v8.7.0 is installed.
Up/downgrade to this exact version.
2. Patch fwupdate.real binary using
`hexdump -Cv /bin/ubntbox | sed 's/14 40 fe 27/00 00 00 00/g' | \
hexdump -R > /tmp/fwupdate.real`
3. Make the patched fwupdate.real binary executable using
`chmod +x /tmp/fwupdate.real`
4. Copy the squashfs factory image to /tmp on the device
5. Flash OpenWrt using `/tmp/fwupdate.real -m <squashfs-factory image>`
6. Wait for the device to reboot
(copied from Ubiquiti NanoBeam AC and modified)
Flashing from serial console
1. Connect serial console (115200 baud)
2. Connect ethernet to a network with a TFTP server, through a
passive PoE injector.
3. Press a key to obtain a u-boot prompt
4. Set your TFTP server's ip address, with:
setenv serverip <tftp-server-address>
5. Set the Bullet AC's ip address, with:
setenv ipaddr <bullet-ac-address>
6. Set the boot file, with:
setenv bootfile <name-of-initramfs-binary-on-tftp-server>
7. Fetch the binary with tftp:
tftpboot
8. Boot the initramfs binary:
bootm
9. From the initramfs, fetch the sysupgrade binary, and flash it with
sysupgrade.
The Bullet AC is identified as a 2WA board by Ubiquiti. As such, the UBNT_TYPE
must match from the "Flashing through factory firmware" install instructions
to work.
Phy0 is QCA988X which can tune either band (2.4 or 5GHz). Phy1 is AR9342,
on which 5GHz is disabled. It isn't currently known whether phy1 is
routed to the N connector at all.
Signed-off-by: Russell Senior <russell@personaltelco.net>
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This moves some of the Engenius boards from generic to tiny:
- EAP350 v1
- ECB350 v1
- ENH202 v1
For these, factory.bin builds are already failing on master
branch because of the unique situation for these boards:
- 8 MB flash
- an extra "failsafe" image for recovery
- TFTP does not work (barely possible with 600 MTU)
- bootloader loads image from a longer flash offset
- 1 eraseblock each needed for OKLI kernel loader and fake rootfs
- using mtd-concat to make use of remaining space...
The manual alternative would be removing the failsafe partition.
However this comes with the risk of extremely difficult recovery
if a flash ever fails because TFTP on the bootloader is bugged.
Signed-off-by: Michael Pratt <mcpratt@pm.me>
[improve commit message]
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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Specifications:
* QCA9533, 16 MiB Flash, 64 MiB RAM, 802.11n 2T2R
* 10/100 Ethernet Port, 802.11af PoE
* IP55 pole-mountable outdoor case
Installation:
* Factory Web UI is at 192.168.0.50
login with 'admin' and blank password, flash factory.bin
* Recovery Web UI is at 192.168.0.50
connect network cable, hold reset button during power-on and keep it
pressed until uploading has started (only required when checksum is ok,
e.g. for reverting back to oem firmware), flash factory.bin
After flashing factory.bin, additional free space can be reclaimed by
flashing sysupgrade.bin, since the factory image requires some padding
to be accepted for upgrading via OEM Web UI.
Signed-off-by: Sebastian Schaper <openwrt@sebastianschaper.net>
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Specifications:
* QCA9558, 16 MiB Flash, 256 MiB RAM, 802.11n 3T3R
* QCA9984, 802.11ac Wave 2 3T3R
* Gigabit LAN Port (AR8035), 802.11at PoE
Installation:
* Factory Web UI is at 192.168.0.50
login with 'admin' and blank password, flash factory.bin
* Recovery Web UI is at 192.168.0.50
connect network cable, hold reset button during power-on and keep it
pressed until uploading has started (only required when checksum is ok,
e.g. for reverting back to oem firmware), flash factory.bin
After flashing factory.bin, additional free space can be reclaimed by
flashing sysupgrade.bin, since the factory image requires some padding
to be accepted for upgrading via OEM Web UI.
Signed-off-by: Sebastian Schaper <openwrt@sebastianschaper.net>
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Specifications:
* QCA9533, 16 MiB Flash, 64 MiB RAM, 802.11n 2T2R
* 10/100 Ethernet Port, 802.11af PoE
Installation:
* Factory Web UI is at 192.168.0.50
login with 'admin' and blank password, flash factory.bin
* Recovery Web UI is at 192.168.0.50
connect network cable, hold reset button during power-on and keep it
pressed until uploading has started (only required when checksum is ok,
e.g. for reverting back to oem firmware), flash factory.bin
After flashing factory.bin, additional free space can be reclaimed by
flashing sysupgrade.bin, since the factory image requires some padding
to be accepted for upgrading via OEM Web UI.
Signed-off-by: Sebastian Schaper <openwrt@sebastianschaper.net>
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Device specifications:
======================
* Qualcomm/Atheros AR9344 rev 2
* 560/450/225 MHz (CPU/DDR/AHB)
* 64 MB of RAM
* 16 MB of SPI NOR flash
- 2x 7 MB available; but one of the 7 MB regions is the recovery image
* 2x 10/100 Mbps Ethernet
* 2T2R 5 GHz Wi-Fi
* 6x GPIO-LEDs (3x wifi, 2x ethernet, 1x power)
* 1x GPIO-button (reset)
* external h/w watchdog (enabled by default)
* TTL pins are on board (arrow points to VCC, then follows: GND, TX, RX)
* 2x fast ethernet
- eth0
+ builtin switch port 1
+ used as LAN interface
- eth1
+ 18-24V passive POE (mode B)
+ used as WAN interface
* 12-24V 1A DC
* internal antennas
WAN/LAN LEDs appear to be wrong in ar71xx and have been swapped here.
Flashing instructions:
======================
Various methods can be used to install the actual image on the flash.
Two easy ones are:
ap51-flash
----------
The tool ap51-flash (https://github.com/ap51-flash/ap51-flash) should be
used to transfer the image to the u-boot when the device boots up.
initramfs from TFTP
-------------------
The serial console must be used to access the u-boot shell during bootup.
It can then be used to first boot up the initramfs image from a TFTP server
(here with the IP 192.168.1.21):
setenv serverip 192.168.1.21
setenv ipaddr 192.168.1.1
tftpboot 0c00000 <filename-of-initramfs-kernel>.bin && bootm $fileaddr
The actual sysupgrade image can then be transferred (on the LAN port) to the
device via
scp <filename-of-squashfs-sysupgrade>.bin root@192.168.1.1:/tmp/
On the device, the sysupgrade must then be started using
sysupgrade -n /tmp/<filename-of-squashfs-sysupgrade>.bin
Signed-off-by: Sven Eckelmann <sven@narfation.org>
[add LED swap comment]
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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Device specifications:
======================
* Qualcomm/Atheros AR9330 rev 1
* 400/400/200 MHz (CPU/DDR/AHB)
* 64 MB of RAM
* 16 MB of SPI NOR flash
- 2x 7 MB available; but one of the 7 MB regions is the recovery image
* 2x 10/100 Mbps Ethernet
* 1T1R 2.4 GHz Wi-Fi
* 6x GPIO-LEDs (3x wifi, 2x ethernet, 1x power)
* 1x GPIO-button (reset)
* external h/w watchdog (enabled by default)
* TTL pins are on board (arrow points to VCC, then follows: GND, TX, RX)
* 2x fast ethernet
- eth0
+ builtin switch port 1
+ used as LAN interface
- eth1
+ 18-24V passive POE (mode B)
+ used as WAN interface
* 12-24V 1A DC
* external antenna
Flashing instructions:
======================
Various methods can be used to install the actual image on the flash.
Two easy ones are:
ap51-flash
----------
The tool ap51-flash (https://github.com/ap51-flash/ap51-flash) should be
used to transfer the image to the u-boot when the device boots up.
initramfs from TFTP
-------------------
The serial console must be used to access the u-boot shell during bootup.
It can then be used to first boot up the initramfs image from a TFTP server
(here with the IP 192.168.1.21):
setenv serverip 192.168.1.21
setenv ipaddr 192.168.1.1
tftpboot 0c00000 <filename-of-initramfs-kernel>.bin && bootm $fileaddr
The actual sysupgrade image can then be transferred (on the LAN port) to
the device via
scp <filename-of-squashfs-sysupgrade>.bin root@192.168.1.1:/tmp/
On the device, the sysupgrade must then be started using
sysupgrade -n /tmp/<filename-of-squashfs-sysupgrade>.bin
Signed-off-by: Sven Eckelmann <sven@narfation.org>
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