openwrtv4/target/linux/ramips/base-files/etc/board.d/01_leds

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#!/bin/sh
. /lib/functions/uci-defaults.sh
set_usb_led() {
ucidef_set_led_usbdev "usb" "USB" "${1}" "${2:-1-1}"
}
set_wifi_led() {
ucidef_set_led_netdev "wifi_led" "wifi" "${1}" "${2:-wlan0}"
}
board=$(board_name)
board_config_update
case $board in
11acnas|\
all0239-3g|\
ew1200|\
hw550-3g|\
mofi3500-3gn|\
sap-g3200u3|\
sk-wb8|\
w2914nsv2|\
wf-2881)
set_usb_led "$board:green:usb"
;;
3g150b|\
3g300m)
set_usb_led "$board:blue:3g"
;;
3g-6200n)
set_wifi_led "$board:amber:wlan"
set_usb_led "$board:blue:3g"
;;
3g-6200nl|\
wnce2001)
set_wifi_led "$board:green:wlan"
;;
br-6475nd|\
mzk-w300nh2)
set_wifi_led "$board:amber:wlan"
;;
a5-v11|\
cs-qr10)
ucidef_set_led_default "power" "POWER" "$board:red:power" "1"
;;
ai-br100)
ucidef_set_led_netdev "wan" "wan" "$board:blue:wan" "eth0.2"
set_wifi_led "$board:blue:wlan"
;;
air3gii)
set_wifi_led "$board:green:wlan"
set_usb_led "$board:green:mobile"
;;
all0256n-4M|\
all0256n-8M)
ucidef_set_rssimon "wlan0" "200000" "1"
ucidef_set_led_rssi "rssilow" "RSSILOW" "all0256n:green:rssilow" "wlan0" "1" "40" "0" "6"
ucidef_set_led_rssi "rssimedium" "RSSIMEDIUM" "all0256n:green:rssimed" "wlan0" "30" "80" "-29" "5"
ucidef_set_led_rssi "rssihigh" "RSSIHIGH" "all0256n:green:rssihigh" "wlan0" "70" "100" "-69" "8"
set_wifi_led "rt2800pci-phy0::radio"
;;
ar670w|\
ar725w|\
awapn2403)
set_wifi_led "rt2800soc-phy0::radio"
;;
asl26555-8M|\
asl26555-16M)
ucidef_set_led_default "power" "POWER" "asl26555:green:power" "1"
ucidef_set_led_netdev "eth" "ETH" "asl26555:green:eth" "eth0"
set_wifi_led "asl26555:green:wlan"
set_usb_led "asl26555:green:3g"
;;
bc2)
set_usb_led "$board:blue:usb"
;;
broadway)
set_usb_led "$board:red:diskmounted"
set_wifi_led "$board:red:wps_active"
;;
ramips: add support for the HNET C108 The HNET C108 (http://www.szhwtech88.com/Product-product-cid-100-id-4374.html) is a mifi based on MT7602A, which has the following specifications: * CPU: MT7620A * 1x 10/100Mbps Ethernet. * 16 MB Flash. * 64 MB RAM. * 1x USB 2.0 port. Only power is connected, this port is meant for charging other devices. * 1x mini-PCIe slots. * 1x SIM slots. * 1x 2.4Ghz WIFI. * 1x button. * 6000 mAh battery. * 5x controllable LEDs. Works: * Wifi. * Switch. * mini-PCIe slot. Only tested with a USB device (a modem). * SIM slot. * Sysupgrade. * Button (reset). Not working (also applies to the factory firmware): * Wifi LED. It is always switched on, there is no relation to the up/down state or activity of the wireless interface. Not tested: * SD card reader. Notes: * The C108 has no dedicated status LED. I therefore set the LAN LED as status LED. Installation: The router comes pre-installed with OpenWRT, including a variant of Luci. The initial firmware install can be done through this UI, following normal procedure. I.e., access the UI and update the firmware using the sysupgrade-image. Remember to select that you do not want to keep existing settings. Recovery: If you brick the device, the C108 supports recovery using TFTP. Keep the reset button pressed for ~5sec when booting to trigger TFTP. Set the address of the network interface on your machine to 10.10.10.3/24, and rename your image file to Kernal.bin. Signed-off-by: Kristian Evensen <kristian.evensen@gmail.com>
2017-09-06 09:14:16 +00:00
c108)
ucidef_set_led_netdev "lan" "lan" "$board:green:lan" "eth0"
ucidef_set_led_netdev "modem" "modem" "$board:green:modem" "wwan0"
;;
ramips: add support for TP-Link Archer C20 v1 TP-Link Archer C20 v1 is a router with 5-port FE switch and non-detachable antennas. It's very similiar to TP-Link Archer C50. Also it's based on MediaTek MT7620A+MT7610EN. Specification: - MediaTek MT7620A (580 Mhz) - 64 MB of RAM - 8 MB of FLASH - 2T2R 2.4 GHz and 1T1R 5 GHz - 5x 10/100 Mbps Ethernet - 2x external, non-detachable antennas - UART (J1) header on PCB (115200 8n1) - 8x LED (GPIO-controlled*), 2x button, power input switch - 1 x USB 2.0 port * WAN LED in this devices is a dual-color, dual-leads type which isn't (fully) supported by gpio-leds driver. This type of LED requires both GPIOs state change at the same time to select color or turn it off. For now, we support/use only the blue part of the LED. * MT7610EN ac chip isn't not supported by LEDE. Therefore 5Ghz won't work. Factory image notes: These devices use version 3 of TP-Link header, fortunately without RSA signature (at least in case of devices sold in Europe). The difference lays in the requirement for a non-zero value in "Additional Hardware Version" field. Ideally, it should match the value stored in vendor firmware header on device. We are able to prepare factory firwmare file which is accepted and (almost) correctly flashed from the vendor GUI. As it turned out, it accepts files without U-Boot image with second header at the beginning but due to some kind of bug in upgrade routine, flashed image gets corrupted before it's written to flash. So, to flash this device we must to prepare image using original firmware from tp-link site with uboot. Flash instruction: Until (if at all) TP-Link fixes described problem, the only way to flash LEDE image in these devices is to use tftp recovery mode in U-Boot. There are two ways to flash the device to LEDE: 1) Using tftp mode with UART connection and original LEDE image - Place lede-ramips-mt7620-ArcherC20-squashfs-factory.bin in tftp server directory - Configure PC with static IP 192.168.0.66/24 and tftp server. - Connect PC with one of LAN ports, power up the router and press key "4" to access U-Boot CLI. - Use the following commands to update the device to LEDE: setenv serverip 192.168.0.66 tftp 0x80060000 lede-ramips-mt7620-ArcherC20-squashfs-factory.bin erase tplink 0x20000 0x7a0000 cp.b 0x80060000 0x20000 0x7a0000 reset - After that the device will reboot and boot to LEDE 2) Using tftp mode without UART connection but require some manipulations with target image - Download and unpack TP-Link Archer C20 v1 firmware from original web site - Split uboot.bin from original firmware by this command (example): dd if=Archer_C20v1_0.9.1_4.0_up_boot(160427)_2016-04-27_13.53.59.bin of=uboot.bin bs=512 count=256 skip=1 - Create ArcherC20V1_tp_recovery.bin using this command: cat uboot.bin lede-ramips-mt7620-ArcherC20-squashfs-factory.bin > ArcherC20V1_tp_recovery.bin - Place ArcherC20V1_tp_recovery.bin in tftp server directory. - Configure PC with static IP 192.168.0.66/24 and tftp server. - Connect PC with one of LAN ports, press the reset button, power up the router and keep button pressed for around 6-7 seconds, until device starts downloading the file. - Router will download file from server, write it to flash and reboot. Signed-off-by: Maxim Anisimov <maxim.anisimov.ua@gmail.com>
2017-09-08 09:39:17 +00:00
c20)
ucidef_set_led_switch "lan" "lan" "$board:blue:lan" "switch0" "0x1e"
ucidef_set_led_switch "wan" "wan" "$board:blue:wan" "switch0" "0x01"
set_usb_led "$board:blue:usb"
ucidef_set_led_netdev "wlan2g" "wlan2g" "$board:blue:wlan2g" "wlan0"
;;
c20i)
ucidef_set_led_switch "lan" "lan" "$board:blue:lan" "switch0" "0x1e"
ucidef_set_led_switch "wan" "wan" "$board:blue:wan" "switch0" "0x01"
set_usb_led "$board:blue:usb" "2-1"
ucidef_set_led_wlan "wlan" "wlan" "$board:blue:wlan" "phy0radio"
;;
c50)
ucidef_set_led_switch "lan" "lan" "$board:green:lan" "switch0" "0x1e"
ucidef_set_led_switch "wan" "wan" "$board:green:wan" "switch0" "0x01"
set_usb_led "$board:green:usb"
ucidef_set_led_netdev "wlan2g" "wlan2g" "$board:green:wlan2g" wlan1
set_wifi_led "$board:green:wlan5g"
;;
cf-wr800n)
ucidef_set_led_netdev "lan" "lan" "$board:white:ethernet" eth0.1
set_wifi_led "$board:white:wifi"
;;
cy-swr1100)
ucidef_set_led_default "wps" "WPS" "$board:blue:wps" "0"
set_usb_led "$board:blue:usb"
;;
d105)
ucidef_set_led_default "power" "POWER" "$board:red:power" "1"
set_usb_led "$board:green:usb"
;;
d240)
set_wifi_led "$board:blue:wifi"
set_usb_led "$board:blue:usb"
;;
db-wrt01)
ucidef_set_led_default "power" "power" "$board:orange:power" "1"
;;
dch-m225)
ucidef_set_led_default "power" "POWER" "$board:geeen:power" "1"
ucidef_set_led_default "status" "STATUS" "$board:red:status" "0"
;;
dcs-930l-b1)
ucidef_set_led_default "power" "POWER" "$board:red:power" "1"
ucidef_set_led_netdev "wifi" "WiFi" "$board:blue:wps"
;;
dir-300-b1|\
dir-600-b1|\
dir-620-a1)
ucidef_set_led_default "wan" "WAN LED (amber)" "$board:amber:wan" "1"
set_wifi_led "rt2800pci-phy0::radio"
;;
dir-300-b7|\
dir-320-b1|\
dir-610-a1|\
esr-9753|\
hlk-rm04|\
sl-r7205|\
v11st-fe|\
w306r-v20|\
wt1520-4M|\
wt1520-8M)
set_wifi_led "rt2800pci-phy0::radio"
;;
dir-615-d|\
dir-615-h1)
ucidef_set_led_default "status" "Status LED (amber)" "$board:amber:status" "0"
set_wifi_led "rt2800pci-phy0::radio"
;;
dir-620-d1|\
mzk-ex300np)
set_wifi_led "$board:green:wifi"
;;
dir-810l|\
mzk-750dhp|\
mzk-dp150n|\
vr500)
ucidef_set_led_default "power" "power" "$board:green:power" "1"
;;
dir-860l-b1)
ucidef_set_led_netdev "wan" "wan" "$board:green:net" "eth0.2"
;;
ex2700|\
wn3000rpv3)
set_wifi_led "$board:green:router"
;;
ex3700)
ucidef_set_led_netdev "wlan5g" "ROUTER (green)" "$board:green:router" "wlan0"
ucidef_set_led_netdev "wlan2g" "DEVICE (green)" "$board:green:device" "wlan1"
;;
f5d8235-v1)
ucidef_set_led_default "lan" "lan" "$board:blue:wired" "0"
set_usb_led "$board:blue:storage"
set_wifi_led "$board:blue:wireless"
;;
f5d8235-v2)
set_usb_led "$board:blue:storage"
;;
fonera20n)
set_usb_led "$board:orange:usb"
set_wifi_led "$board:orange:wifi"
;;
gb-pc1)
ucidef_set_led_switch "lan1" "lan1" "$board:green:lan1" "switch0" "0x01"
ucidef_set_led_switch "lan2" "lan2" "$board:green:lan2" "switch0" "0x10"
;;
gl-mt300a|\
gl-mt300n|\
gl-mt750)
set_wifi_led "$board:wlan"
;;
gl-mt300n-v2)
set_wifi_led "$board:red:wlan"
;;
hc5661|\
hc5661a)
ucidef_set_led_default "system" "system" "$board:blue:system" "1"
ucidef_set_led_netdev "internet" "internet" "$board:blue:internet" "eth0.2"
set_wifi_led "$board:blue:wlan2g"
;;
hc5761)
ucidef_set_led_default "system" "system" "$board:blue:system" "1"
ucidef_set_led_netdev "internet" "internet" "$board:blue:internet" "eth0.2"
set_wifi_led "$board:blue:wlan2g"
ucidef_set_led_netdev "wifi5g" "wifi5g" "$board:blue:wlan5g" "rai0"
;;
hc5861)
ucidef_set_led_default "system" "system" "$board:blue:system" "1"
ucidef_set_led_netdev "internet" "internet" "$board:blue:internet" "eth0.2"
set_wifi_led "$board:blue:wlan2g"
ucidef_set_led_netdev "wifi5g" "wifi5g" "$board:blue:wlan5g" "rai0"
ucidef_set_led_default "turbo" "turbo" "$board:blue:turbo" "0"
;;
hg255d)
set_wifi_led "$board:green:wlan"
set_usb_led "$board:green:usb"
ucidef_set_led_netdev "internet" "internet" "$board:green:internet" "eth0.2"
;;
hpm)
ucidef_set_led_default "power" "POWER" "$board:orange:power" "1"
ucidef_set_led_netdev "eth" "ETH" "$board:green:eth" "eth0"
set_wifi_led "$board:green:wifi"
;;
ht-tm02)
ucidef_set_led_netdev "eth" "Ethernet" "$board:green:lan" "eth0"
set_wifi_led "$board:blue:wlan"
;;
kn|\
nbg-419n2)
set_usb_led "$board:green:usb"
set_wifi_led "rt2800pci-phy0::radio"
;;
kn_rc|\
kn_rf|\
kng_rc)
set_usb_led "$board:green:usb"
set_wifi_led "$board:green:wifi"
;;
m2m)
set_wifi_led "$board:blue:wifi"
ucidef_set_led_netdev "eth" "Ethernet" "$board:green:wan" "eth0"
;;
miniembplug)
set_wifi_led "$board:red:wlan"
set_usb_led "$board:green:mobile"
;;
mir3g)
ramips: improve Xiaomi Mi Router 3G support This commit improves support for the Xiaomi Mi Router 3G originally added in commit 6e283cdc0da25928f8148805ebef7f8f2b769ee8 Improvements: - Remove software watchdog as hardware watchdog now working as per commit 3fbf3ab44f5cebb22e30a4c8681b13341feed6a6 for all mt7621 devices. - Reset button polarity corrected - length of press determines reboot (short press) vs. reset to defaults (long press) behaviour. - Enable GPIO amber switch port LEDs on board rear - lit indicates 1Gbit link and blink on activity. Green LEDs driven directly by switch indicating any link speed and tx activity. - USB port power on/off GPIO exposed as 'usbpower' - Add access to uboot environment settings for checking/setting uboot boot order preference from user space. Changes: - Front LED indicator is physically made of independent Yellow/Amber, Red & Blue LEDs combined via a plastic 'lightpipe' to a front panel indicator, hence the colour behaviour is similar to an RGB LED. RGB LEDs are not supported at this time because they produce colour results that do not then match colour labels, e.g. enabling 'mir3g:red' and 'mir3g:blue' would result in a purple indicator and we have no such label for purple. The yellow, red & blue LEDs have been split out as individual yellow, red & blue status LEDs, with yellow being the default status LED as before and with red's WAN and blue's USB default associations removed. - Swapped order of vlan interfaces (eth0.1 & eth0.2) to match stock vlan layout. eth0.1 is LAN, eth0.2 is WAN - Add 'lwlll' vlan layout to mt7530 switch driver to prevent packet leakage between kernel switch init and uci swconfig uboot behaviour & system 'recovery' uboot expects to find bootable kernels at nand addresses 0x200000 & 0x600000 known by uboot as "system 1" and "system 2" respectively. uboot chooses which system to hand control to based on 3 environment variables: flag_last_success, flag_try_sys1_failed & flag_try_sys2_failed last_success represents a preference for a particular system and is set to 0 for system 1, set to 1 for system 2. last_success is considered *if* and only if both try_sys'n'_failed flags are 0 (ie. unset) If *either* failed flags are set then uboot will attempt to hand control to the non failed system. If both failed flags are set then uboot will check the uImage CRC of system 1 and hand control to it if ok. If the uImage CRC of system is not ok, uboot will hand control to system 2 irrespective of system 2's uImage CRC. NOTE: uboot only ever sets failed flags, it *never* clears them. uboot sets a system's failed flag if that system's was selected for boot but the uImage CRC is incorrect. Fortunately with serial console access, uboot provides the ability to boot an initramfs image transferred via tftp, similarly an image may be flashed to nand however it will flash to *both* kernels so a backup of stock kernel image is suggested. Note that the suggested install procedure below set's system 1's failed flag (stock) thus uboot ignores the last_success preference and boots LEDE located in system 2. Considerable thought has gone into whether LEDE should replace both kernels, only one (and which one) etc. LEDE kernels do not include a minimal rootfs and thus unlike the stock kernel cannot include a method of controlling uboot environment variables in the event of rootfs mount failure. Similarly uboot fails to provide an external mechanism for indicating boot system failure. Installation - from stock. Installation through telnet/ssh: - copy lede-ramips-mt7621-mir3g-squashfs-kernel1.bin and lede-ramips-mt7621-mir3g-squashfs-rootfs0.bin to usb disk or wget it from LEDE download site to /tmp - switch to /extdisks/sda1/ (if copied to USB drive) or to /tmp if wgetted from LEDE download site - run: mtd write lede-ramips-mt7621-mir3g-squashfs-kernel1.bin kernel1 - run: mtd write lede-ramips-mt7621-mir3g-squashfs-rootfs0.bin rootfs0 - run: nvram set flag_try_sys1_failed=1 - run: nvram commit - run: reboot Recovery - to stock. Assuming you used the above installation instructions you will have a stock kernel image in system 1. If it can be booted then it may be used to perform a stock firmware recovery, thus erasing LEDE completely. From a 'working' LEDE state (even failsafe) Failsafe only: - run: mount_root - run: sh /etc/uci-defaults/30_uboot-envtools Then do the steps for 'All' All: - run: fw_setenv flag_try_sys2_failed 1 - run: reboot The board will reboot into system 1 (stock basic kernel) and wait with system red light slowly blinking for a FAT formatted usb stick with a recovery image to be inserted. Press and hold the reset button for around 1 second. Status LED will turn yellow during recovery and blue when recovery complete. Signed-off-by: Kevin Darbyshire-Bryant <ldir@darbyshire-bryant.me.uk>
2017-09-25 19:41:13 +00:00
ucidef_set_led_switch "wan-amber" "WAN (amber)" "$board:amber:wan" "switch0" "0x02" "0x08"
ucidef_set_led_switch "lan1-amber" "LAN1 (amber)" "$board:amber:lan1" "switch0" "0x08" "0x08"
ucidef_set_led_switch "lan2-amber" "LAN2 (amber)" "$board:amber:lan2" "switch0" "0x04" "0x08"
;;
miwifi-mini)
ucidef_set_led_default "power" "power" "$board:red:status" "1"
;;
mlw221|\
mlwg2)
set_wifi_led "$board:blue:wifi"
ucidef_set_led_default "system" "system" "$board:blue:system" "1"
;;
mpr-a1|\
mpr-a2)
set_wifi_led "$board:blue:system"
;;
mr-102n)
set_wifi_led "$board:green:wlan"
set_usb_led "$board:green:usb"
;;
mr200)
ucidef_set_led_default "power" "power" "$board:white:power" "1"
ucidef_set_led_netdev "lan" "lan" "$board:white:lan" "eth0.1"
ucidef_set_led_netdev "wan" "wan" "$board:white:wan" "usb0"
set_wifi_led "$board:white:wlan"
;;
mzk-ex750np)
ucidef_set_led_default "power" "power" "$board:red:power" "1"
set_wifi_led "$board:red:wifi"
;;
na930)
set_usb_led "$board:blue:status"
;;
newifi-d1)
set_usb_led "$board:red:status"
;;
nw718)
set_usb_led "$board:amber:usb"
;;
oy-0001)
ucidef_set_led_default "power" "power" "$board:green:power" "1"
set_wifi_led "$board:green:wifi"
;;
pbr-d1)
set_usb_led "$board:orange:usb"
;;
pbr-m1)
ucidef_set_led_netdev "internet" "internet" "$board:blue:internet" "eth0.2"
ucidef_set_led_default "power" "power" "$board:blue:power" "1"
ucidef_set_led_default "sys" "sys" "$board:blue:sys" "1"
;;
psg1208)
set_wifi_led "$board:white:wlan2g"
;;
psg1218a|\
psg1218b)
ucidef_set_led_netdev "Network" "Network" "$board:blue:status" "eth0"
ucidef_set_led_default "status" "STATUS" "$board:yellow:status" "0"
;;
px-4885-4M|\
px-4885-8M)
set_wifi_led "px-4885:orange:wifi"
set_usb_led "px-4885:blue:storage"
;;
r6220)
ucidef_set_led_netdev "wan" "wan" "$board:green:wan" eth0.2
set_wifi_led "$board:green:wifi"
set_usb_led "$board:green:usb"
;;
re350-v1)
ucidef_set_led_netdev "wifi2g" "Wifi 2.4G" "$board:blue:wifi2G" "wlan0"
ucidef_set_led_netdev "wifi5g" "Wifi 5G" "$board:blue:wifi5G" "wlan1"
ucidef_set_led_netdev "eth_act" "LAN act" "$board:green:eth_act" "eth0" "tx rx"
ucidef_set_led_switch "eth_link" "LAN link" "$board:green:eth_link" "switch0" "0x01"
;;
re6500)
ucidef_set_led_default "power" "power" "$board:white:power" "1"
ucidef_set_led_default "wifi" "wifi" "$board:orange:wifi" "1"
;;
rp-n53)
ucidef_set_led_netdev "eth" "Network" "$board:white:back" "eth0"
set_wifi_led "$board:blue:wifi"
;;
rt-ac51u)
set_wifi_led "$board:blue:wifi"
set_usb_led "$board:blue:usb" "1-1"
;;
rt-n14u)
ucidef_set_led_default "power" "power" "$board:blue:power" "1"
ucidef_set_led_netdev "lan" "lan" "$board:blue:lan" eth0.1
ucidef_set_led_netdev "wan" "wan" "$board:blue:wan" eth0.2
set_wifi_led "$board:blue:air"
set_usb_led "$board:blue:usb"
;;
tew-714tru)
set_usb_led "$board:red:usb"
set_wifi_led "$board:green:wifi"
;;
tiny-ac)
set_wifi_led "$board:orange:wifi"
set_usb_led "$board:green:usb"
;;
ramips: add support for TP-Link TL-WR840N v4 and TL-WR841N v13 TP-Link TL-WR840N v4 and TL-WR841N v13 are simple N300 routers with 5-port FE switch and non-detachable antennas. Both are very similar and are based on MediaTek MT7628NN (aka MT7628N) WiSoC. The difference between these two models is in number of available LEDs, buttons and power input switch. This work is partially based on GitHub PR#974. Specification: - MT7628N/N (580 MHz) - 64 MB of RAM (DDR2) - 8 MB of FLASH - 2T2R 2.4 GHz - 5x 10/100 Mbps Ethernet - 2x external, non-detachable antennas - UART (J1) header on PCB (115200 8n1) - TL-WR840N v4: 5x LED (GPIO-controlled), 1x button - TL-WR841N v13: 8x LED (GPIO-controlled*), 2x button, power input switch * WAN LED in TL-WR841N v13 is a dual-color, dual-leads type which isn't (fully) supported by gpio-leds driver. This type of LED requires both GPIOs state change at the same time to select color or turn it off. For now, we support/use only the green part of the LED. Factory image notes: These devices use version 3 of TP-Link header, fortunately without RSA signature (at least in case of devices sold in Europe). The difference lays in the requirement for a non-zero value in "Additional Hardware Version" field. Ideally, it should match the value stored in vendor firmware header on device ("0x4"/"0x13" for these devices) but it seems that anything other than "0" is correct. We are able to prepare factory firwmare file which is accepted and (almost) correctly flashed from the vendor GUI. As it turned out, it accepts files without U-Boot image with second header at the beginning but due to some kind of bug in upgrade routine, flashed image gets corrupted before it's written to flash. Tests showed that the GUI upgrade routine copies value of "Additional Hardware Version" from existing firmware into offset "0x2023c" in provided file, _before_ storing it in flash. In case of vendor firmware upgrade files (which all include U-Boot image and two headers), this offset points to the matching field in kernel+rootfs firmware part header. Unfortunately, in case of LEDE factory image file which contains only one header, it points to the offset "0x2023c" in kernel image. This leads to a corrupted kernel and ends up with a "soft-bricked" device. The good news is that U-Boot in these devices contains well known tftp recovery mode, which can be triggered with "reset" button. What's more, in comparison to some of older MediaTek based TP-Link devices, this recovery mode doesn't write whole file at offset "0x0" in flash, without verifying provided file in advance. In case of recovery mode in these devices, first "0x20000" bytes are always skipped and "0x7a0000" bytes from rest of the file are stored in flash at offset "0x20000". Flash instruction: Until (if at all) TP-Link fixes described problem, the only way to flash LEDE image in these devices is to use tftp recovery mode in U-Boot: 1. Configure PC with static IP 192.168.0.66/24 and tftp server. 2. Rename "lede-ramips-mt7628-tl-wr84...-squashfs-tftp-recovery.bin" to "tp_recovery.bin" and place it in tftp server directory. 3. Connect PC with one of LAN ports, press the reset button, power up the router and keep button pressed for around 6-7 seconds, until device starts downloading the file. 4. Router will download file from server, write it to flash and reboot. To access U-Boot CLI, keep pressed "4" key during boot. Signed-off-by: Piotr Dymacz <pepe2k@gmail.com>
2017-06-21 12:16:15 +00:00
tl-wr840n-v4)
set_wifi_led "$board:green:wlan"
ucidef_set_led_switch "lan" "lan" "$board:green:lan" "switch0" "0x1e"
ucidef_set_led_switch "wan" "wan" "$board:green:wan" "switch0" "0x01"
;;
tl-wr841n-v13)
set_wifi_led "$board:green:wlan"
ucidef_set_led_switch "lan1" "lan1" "$board:green:lan1" "switch0" "0x2"
ucidef_set_led_switch "lan2" "lan2" "$board:green:lan2" "switch0" "0x4"
ucidef_set_led_switch "lan3" "lan3" "$board:green:lan3" "switch0" "0x8"
ucidef_set_led_switch "lan4" "lan4" "$board:green:lan4" "switch0" "0x10"
ucidef_set_led_switch "wan" "wan" "$board:green:wan" "switch0" "0x01"
;;
u25awf-h1)
set_wifi_led "u25awf:red:wifi"
ucidef_set_led_netdev "eth" "eth" "u25awf:green:lan" "eth0"
;;
vocore-8M|\
vocore-16M)
ucidef_set_led_netdev "eth" "ETH" "vocore:orange:eth" "eth0"
set_wifi_led "vocore:green:status"
;;
vocore2)
set_wifi_led "$board:fuchsia:status"
;;
vocore2lite)
set_wifi_led "$board:green:status"
;;
w502u)
set_usb_led "$board:blue:usb"
set_wifi_led "rt2800pci-phy0::radio"
;;
wcr-150gn)
set_usb_led "$board:amber:user"
;;
ramips: Add support for ZBT WE1026-5G The ZBT WE1026-5G (http://www.zbtlink.com/products/router/WE1026-5G.html) is the follow-up to the ZBT WE1026 and is based on MT7620. For the previous WE1026, the ZBT WE826 image could be used. However, as the name implies, the -5G comes equipped with a 5GHz wifi radio. As the WE826 only has a 2.4GHz radio, the addition of 5GHz means that a separate image is needed for the WE1026-5G. I suspect that this image will also work on the previous WE1026, but I don't have a device to test with. The WE1026-5G has following specifications: * CPU: MT7620A * 1x 10/100Mbps Ethernet. * 16 MB Flash. * 64 MB RAM. * 1x USB 2.0 port. * 1x mini-PCIe slots. * 1x SIM slots. * 1x 2.4Ghz WIFI. * 1x 5GHz wifi (MT7612) * 1x button. * 3x controllable LEDs. Works: * Wifi. * Switch. * mini-PCIe slot. Only tested with a USB device (a modem). * SIM slot. * Sysupgrade. * Button (reset). Not working: * The 5GHz WIFI LED is completely dead. I suspect the issue is the same as on other devices with Mediatek 5Ghz wifi-cards/chips. The LED is controlled by the driver, and mt76 (currently) does not support this. Not tested: * SD card reader. Notes: * The modem (labeled 3G/4G) and power LEDs are controlled by the hardware. * There is a 32MB version of this device available, but I do not have access to it. I have therefor only added support for the 16MB version, but added all the required infrastructure to make adding support for the 32MB version easy. Installation: The router comes pre-installed with OpenWRT, including a variant of Luci. The initial firmware install can be done through this UI, following normal procedure. I.e., access the UI and update the firmware using the sysupgrade-image. Remember to select that you do not want to keep existing settings. Recovery: If you brick the device, the WE1026-5G supports recovery using HTTP. Keep the reset button pressed for ~5sec when booting to start the web server. Set the address of the network interface on your machine to 192.168.1.2/24, and point your browser to 192.168.1.1 to access the recovery UI. From the recovery UI you can upload a firmware image. Signed-off-by: Kristian Evensen <kristian.evensen@gmail.com>
2017-09-10 12:44:47 +00:00
we1026-5g-16m)
ucidef_set_led_netdev "lan" "LAN" "we1026-5g:green:lan" "eth0"
set_wifi_led "we1026-5g:green:wifi"
set_usb_led "we1026-5g:green:usb" "1-1.1"
;;
whr-1166d|\
whr-300hp2|\
whr-600d)
ucidef_set_led_default "power" "power" "$board:green:power" "1"
ucidef_set_led_default "router" "router" "$board:green:router" "1"
;;
wl-wn575a3)
ucidef_set_rssimon "wlan1" "200000" "1"
ucidef_set_led_rssi "wifi-low" "wifi-low" "$board:green:wifi-low" "wlan1" "1" "49"
ucidef_set_led_rssi "wifi-med" "wifi-med" "$board:green:wifi-med" "wlan1" "50" "84"
ucidef_set_led_rssi "wifi-high" "wifi-high" "$board:green:wifi-high" "wlan1" "85" "100"
;;
wrh-300cr)
set_wifi_led "$board:green:wlan"
ucidef_set_led_netdev "lan" "lan" "$board:green:ethernet" "eth0"
;;
wndr3700v5)
ucidef_set_led_default "power" "POWER" "$board:green:power" "0"
;;
wt3020-4M|\
wt3020-8M)
ucidef_set_led_default "power" "power" "wt3020:blue:power" "0"
;;
y1)
set_usb_led "$board:blue:usb"
ucidef_set_led_netdev "wifi" "WIFI" "$board:blue:wifi" "wlan1"
ucidef_set_led_netdev "wifi5g" "WIFI5G" "$board:blue:wifi5g" "wlan0"
ucidef_set_led_netdev "lan" "LAN" "$board:blue:lan" "eth0.1" "tx rx"
ucidef_set_led_netdev "wan" "WAN" "$board:blue:internet" "eth0.2" "tx rx"
;;
y1s)
set_usb_led "$board:blue:usb"
ucidef_set_led_netdev "wifi" "WIFI" "$board:yellow:wifi" "wlan1"
ucidef_set_led_netdev "wifi5g" "WIFI5G" "$board:blue:wifi" "wlan0"
ucidef_set_led_netdev "wan" "WAN" "$board:blue:internet" "eth0.2" "tx rx"
;;
zbt-ape522ii)
ucidef_set_led_netdev "wlan2g4" "wlan1-link" "$board:green:wlan2g4" "wlan1"
ucidef_set_led_netdev "sys1" "wlan1" "$board:green:sys1" "wlan1" "tx rx"
ucidef_set_led_netdev "sys2" "wlan0" "$board:green:sys2" "wlan0" "tx rx"
;;
zbt-cpe102)
ucidef_set_led_default "power" "power" "$board:green:4g-0" "0"
;;
zbt-wa05)
ucidef_set_led_default "power" "power" "$board:blue:power" "1"
set_wifi_led "$board:blue:air"
set_usb_led "$board:blue:usb"
;;
zbt-we2026)
set_wifi_led "$board:green:wlan"
;;
zbt-we826-16M|\
zbt-we826-32M)
set_wifi_led "zbt-we826:green:wifi"
set_usb_led "zbt-we826:green:usb"
;;
zbt-wr8305rt)
ucidef_set_led_default "power" "power" "$board:green:sys" "1"
set_usb_led "$board:green:usb"
set_wifi_led "$board:green:wifi"
;;
zte-q7)
set_wifi_led "$board:blue:status"
;;
youku-yk1)
set_wifi_led "$board:blue:air"
set_usb_led "$board:blue:usb"
ucidef_set_led_switch "wan" "wan" "$board:blue:wan" "switch0" "0x10"
;;
esac
board_config_flush
exit 0