This is required for upcoming Keenetic KN-3911 support
Signed-off-by: Maxim Anisimov <maxim.anisimov.ua@gmail.com>
Link: https://github.com/openwrt/openwrt/pull/16830
Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de>
Code cleanup. Simplify and unify how kernel image is passed to
Build/dna-bootfs
Signed-off-by: Mauri Sandberg <maukka@ext.kapsi.fi>
Link: https://github.com/openwrt/openwrt/pull/16811
Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de>
The Zbtlink ZBT-WE2426-B is an indoor dual band WiFi router
with 4 external non detachable antennas and 5 Fast Ethernet ports.
Hardware of ZBT-WE2426-B:
- SoC: MT7628AN
- RAM: 64 MB (Winbond W9751G6K8-25)
- Storage: 8 MB SPI flash (S25FL064K)
- Ethernet: 5x 10/100 Mbps LAN1,LAN2,LAN3,LAN4 & WAN
- Wireless: 2.4GHz: on SoC (802.11b/g/n)
- Wireless: 5GHz: Mediatek MT7612EN (802.11n/ac)
- LEDs: 8x
- Buttons: 1x reset
- USB: 1x 2.0
- MicroSD slot: 1x
- Power: 9 VDC, 1 A
- Uart: GND TX RX PWR - J1 on the PCB
- Board silkscreen: "ZBT-WE2426-C V04" "2018-02-28" "CTT" "13 18"
Backup the stock firmware, settings and calibration data:
This router comes with PandoraBox OpenWrt firmware, so it is
possible to get all MTD partitions using scp.
Installation:
- Using the bootloader web server. Hold the reset button while turning
the power on. Upload the sysupgrade image on http://192.168.1.1.
- Using the sysupgrade command in PandoraBox OpenWrt.
LEDs:
- LAN1,LAN2,LAN3,LAN4,WAN,WLAN2G use GPIO pins of the MT7628AN SoC
(GPIOs 43,42,41,40,39,44)
- WLAN5G uses pin of MT7612EN.
- The POWER LED is directly connected to the VCC. It can be reconnected to
the GPIO 37 of the MT7628AN SoC by resoldering SMD resistor on the PCB.
Buttons:
- The RESET button is connected to the GPIO 38 of the MT7628AN SoC.
MAC addresses as verified by OEM firmware:
use address source
2g *:b0 factory 0x4 (label)
5g *:b1 factory 0x8004
LAN *:b2 factory 0x28
WAN *:b3 factory 0x2e
Signed-off-by: Vaclav Svoboda <svoboda@neng.cz>
Link: https://github.com/openwrt/openwrt/pull/16927
Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de>
IMAGE_SIZE was previously set to kernel1 + ubi size = 256768k, now
kernel1 is 6MB adjust this value to add 3072k to total image size.
Signed-off-by: Tim Lunn <tim@feathertop.org>
Link: https://github.com/openwrt/openwrt/pull/15194
Signed-off-by: Petr Štetiar <ynezz@true.cz>
Edgerouter-X factory images have not built automatically since 19.x due
to images being over 3MB. While it was possible to build custom images
with very stripped down config, this is no longer possible with the size
increases of linux 6.1 and 6.6.
Drop code for generation of factory images, if some dev later wishes to
try custom images they can revert this commit.
Signed-off-by: Tim Lunn <tim@feathertop.org>
Link: https://github.com/openwrt/openwrt/pull/15194
Signed-off-by: Petr Štetiar <ynezz@true.cz>
With the new layout providing 6MB for kernel there will be no issues
with kernel size affecting build of images.
Re-enable image builds for Edgerouter-X and X-SFP.
Signed-off-by: Tim Lunn <tim@feathertop.org>
Tested-by: Mauri Sandberg <maukka@ext.kapsi.fi>
Link: https://github.com/openwrt/openwrt/pull/15194
Signed-off-by: Petr Štetiar <ynezz@true.cz>
Refer user to the wiki page for instructions on how to migrate to the
new kernel layout.
Signed-off-by: Tim Lunn <tim@feathertop.org>
Tested-by: Mauri Sandberg <maukka@ext.kapsi.fi>
Link: https://github.com/openwrt/openwrt/pull/15194
Signed-off-by: Petr Štetiar <ynezz@true.cz>
With the updated partition layout set in dts, set the KERNEL_SIZE
parameter to 6MB allowing builds of Linux 6.1 and later to fit.
Signed-off-by: Tim Lunn <tim@feathertop.org>
Tested-by: Mauri Sandberg <maukka@ext.kapsi.fi>
Link: https://github.com/openwrt/openwrt/pull/15194
Signed-off-by: Petr Štetiar <ynezz@true.cz>
A factory image for DNA EX400 depends on an initramfs image and they
were explicitly removed from the imagebuilder recently. Now the factory
image creation fails miserably and it also affects custom image creation
with the firmware selector.
Add the initramfs kernel to the staging so that it's shipped with the
imagebuilder. Also remove a image build target added solely for DNA EX400.
Tested by creating a factory and syspupgrade images locally with
the imagebuilder and verified their functionality.
Related work
c85348d9ab ("imagebuilder: remove initramfs image files")
Fixes: fea2264d9f ("ramips: mt7621: Add DNA Valokuitu Plus EX400")
Signed-off-by: Mauri Sandberg <maukka@ext.kapsi.fi>
---
v4: use append-image-stage, remove Build/kernel-initramfs-bin
v3: adjust commit subject
v2: remove fix for inconsistent line ending elsewhere in the file
Link: https://github.com/openwrt/openwrt/pull/16659
Signed-off-by: Robert Marko <robimarko@gmail.com>
Drop kmod-i2c-ralink from ASUS RP-AC56 as it was wrongly added. Such
kmod is not supported on mt7621 as i2c is handled by the mediatek driver
and not bay the ralink downstream one.
Signed-off-by: Christian Marangi <ansuelsmth@gmail.com>
The Gemtek WVRTM-127ACN is an indoor dual band wifi router
with internal antennas and 3 Gigabit Ethernet ports.
The Gemtek WVRTM-130ACN is an indoor dual band wifi router
with external antennas and 5 Gigabit Ethernet ports.
Hardware of WVRTM-127ACN:
- SoC: Mediatek MT7621AT (880 MHz, dual core)
- RAM: 128 MB
- Storage: 128 MB NAND SLC flash
- Ethernet: 3x 10/100/1000 Mbps LAN1,LAN2 & WAN
- Wireless: 2.4GHz: Mediatek MT7603EN (802.11b/g/n)
- Wireless: 5GHz: Mediatek MT7612EN (802.11n/ac)
- LEDs: 11x
- Buttons: 2x WPS, reset
- USB: 1x 3.0
- Power: 56 VDC, 0.54 A, PoE+ IN (WAN)
- PoE: 1x PoE+ 802.3af/at (WAN)
- Uart: GND RX TX VCC - J2 (GND near WAN)
- Board silkscreen: "WVRTM-127ACN_V02" "19K-513-8500R" "RoHS" "1717"
Hardware of WVRTM-130ACN:
- SoC: Mediatek MT7621AT (880 MHz, dual core)
- RAM: 128 MB (Kioxia TC58BVG0S3HTA00)
- Storage: 128 MB NAND SLC (Winbond W971GG6SB-25)
- Ethernet: 5x 10/100/1000 Mbps LAN1,LAN2,LAN3,LAN4 & WAN
- Wireless: 2.4GHz and 5GHz Mediatek MT7615DN (802.11ac/b/g/n) (DBDC)
- LEDs: 10x
- Buttons: 3x Power, WPS, reset
- USB: 1x 3.0
- Power: 56 VDC, 0.54 A, PoE+ (WAN)
- PoE: 1x PoE+ 802.3af/at (WAN)
- Uart: GND RX TX VCC - J2 (GND near WAN)
- Board silkscreen: "WVRTM-130ACN_V01" "19K-515-4500R" "RoHS" "2112"
Enable access to uboot menu (needed in wvrtm-130acn):
- The access to uboot menu is blocked by `bootdelay = 0` set in ubootenv.
With stock firmware version 01.01.02.163 and previous, you can use CVE 2020-24365
command injection https://nvd.nist.gov/vuln/detail/CVE-2020-24365
python3 exploit.py -t 192.168.1.1 -c "fw_setenv bootdelay 3; fw_saveenv"
Backup the stock firmware:
- Connect via uart
- Connect via ethernet and assign your pc the address 192.168.15.x/24
- Power on the device; and start typing '4' to enter uboot menu
- Set factory mode and boot
MT7621 # setenv factory 2; saveenv
MT7621 # nand read 2800000 2000000 81000000; bootm
- Telnet and copy all mtd blocks
telnet 192.168.15.1
- Copy all mtd blocks and start webserver
for N in $(seq 0 6); do dd if=/dev/mtd$N of=/tmp/eeprom_mtd$N.bin; done
mount -o bind /tmp /www
lighttpd -f /etc/lighttpd.conf
- Backup stock rootfs_data (optional)
dd if=/dev/mtd7 of=/tmp/eeprom_mtd7.bin
dd if=/dev/mtd8 of=/tmp/eeprom_mtd8.bin
- Download to your pc from http://192.168.15.1/eeprom_mtd$N.bin
Installation:
- Connect via uart
- Connect via ethernet and assign your pc the address 10.10.10.3/24
- Start a tftp server and serve the image initramfs-kernel.bin
mkdir /tmp/ftpd;
cp initramfs-kernel.bin /tmp/ftpd/kernel.bin
dnsmasq --enable-tftp --tftp-root=/tmp/ftpd
- Power on the device; and start typing '4' to halt the bootloader
- Change the active mtd partition from mtd6 to mtd5 (needed by uboot)
MT7621 # setenv mtddevnum 5; saveenv
- Write the openwrt initramfs in ram via tftp and boot it
MT7621 # tftpboot 81000000 kernel.bin; bootm
- From the initramfs create the ubi device and install openwrt via sysupgrade
ubiformat /dev/mtd11 -y
sysupgrade -n -v /tmp/sysupgrade.bin
Recovery:
Restore the stock firmware from the backup of the mtd blocks
mtd write eeprom_mtd5.bin firmware
mtd write eeprom_mtd6.bin Kernel2
mtd write eeprom_mtd7.bin Storage1
mtd write eeprom_mtd8.bin Storage2
ubiformat /dev/mtd8 -y
reboot
Links to previous works on wvrtm-127acn:
https://github.com/digiampietro/hacking-gemtekhttps://forum.openwrt.org/t/add-support-for-gemtek-wvrtm-127acn-linkem-provider/168757
Signed-off-by: Samuele Longhi <agave@dracaena.it>
Link: https://github.com/openwrt/openwrt/pull/16685
Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de>
Currently eth1 (which is the first "lan" interface) doesn't work on this device.
During boot the following can be seen in logs:
```
[ 2.252804] mt7530-mdio mdio-bus:1f: MT7530 adapts as multi-chip module
[ 2.266060] mtk_soc_eth 1e100000.ethernet eth0: mediatek frame engine at 0xbe100000, irq 19
[ 2.277889] mtk_soc_eth 1e100000.ethernet eth1: mediatek frame engine at 0xbe100000, irq 19
...
[ 2.355157] mt7530-mdio mdio-bus:1f: MT7530 adapts as multi-chip module
[ 2.390312] mt7530-mdio mdio-bus:1f: configuring for fixed/rgmii link mode
[ 2.398597] mt7530-mdio mdio-bus:1f: Link is Up - 1Gbps/Full - flow control rx/tx
[ 2.403872] mt7530-mdio mdio-bus:1f eth1 (uninitialized): PHY [mt7530-0:01] driver [MediaTek MT7530 PHY] (irq=21)
[ 2.416988] mtk_soc_eth 1e100000.ethernet eth0: error -17 registering interface eth1
[ 2.426973] mt7530-mdio mdio-bus:1f eth2 (uninitialized): PHY [mt7530-0:02] driver [MediaTek MT7530 PHY] (irq=22)
[ 2.440996] mt7530-mdio mdio-bus:1f eth3 (uninitialized): PHY [mt7530-0:03] driver [MediaTek MT7530 PHY] (irq=23)
[ 2.454405] mt7530-mdio mdio-bus:1f eth4 (uninitialized): PHY [mt7530-0:04] driver [MediaTek MT7530 PHY] (irq=24)
[ 2.467198] mtk_soc_eth 1e100000.ethernet eth0: entered promiscuous mode
[ 2.474117] DSA: tree 0 setup
...
[ 6.820998] mtk_soc_eth 1e100000.ethernet dsa: renamed from eth0
[ 6.919904] mtk_soc_eth 1e100000.ethernet wan: renamed from eth1
```
So the problem seems to be the fact that built-in gmacs get default
names (eth0/eth1) and are renamed after switch ports are initialized. This means
that when switch port with name `eth1` is brought up this name is still used by
gmac1 causing switch port's init to fail.
This patch just renames the ports to avoid name collision.
Note: this will break existing configs for this device because it renames all
the ports. This should not be major problem because this device doesn't have a
proper OEM image and is only flashable with serial access, meaning there should
not be many users.
Signed-off-by: Nikolay Martynov <mar.kolya@gmail.com>
Link: https://github.com/openwrt/openwrt/pull/15865
Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de>
Hardware Specification:
SoC: Mediatek MT7621DAT (MIPS1004Kc 880 MHz, dual core)
RAM: 128 MB
Storage: 128 MB NAND flash
Ethernet: 5x 10/100/1000 Mbps LAN1,LAN2,LAN3,LAN4 & WAN
Wireless: 2.4GHz: Mediatek MT7603EN up to 300Mbps (802.11b/g/n MIMO 2x2)
Wireless: 5GHz: Mediatek MT7615N up to 1733Mbps (802.11n/ac MU-MIMO 4x4)
LEDs: Power (white & amber), Internet (white & amber)
LEDs: 2.4G (White), 5Ghz (White)
Buttons: WPS, Reset
USB: Front V3.0 & Rear V2.0
MAC Table
Label xx:xx:xx:xx:xx:38
LAN xx:xx:xx:xx:xx:39
2.4Ghz xx:xx:xx:xx:xx:3A
5Ghz xx:xx:xx:xx:xx:3C
WAN xx:xx:xx:xx:xx:38
Flash Instructions:
D-Link normal OEM firmware update page
1. upload OpenWRT factory.bin like any D-Link upgrade image
D-Link Fail Safe GUI:
1. Push and hold reset button (on the bottom of the device) until power led starts flashing (about 10 secs or so) while plugging in the power cable.
2. Give it ~30 seconds, to boot the fail safe GUI
3. Connect your client computer to LAN1 of the device
4. Set your client IP address manually to 192.168.0.2 / 255.255.255.0
5. Call the fail safe page for the device at http://192.168.0.1/
6. Use the provided fail safe web GUI to upload the factory.bin to the device
Signed-off-by: Alan Luck <luckyhome2008@gmail.com>
Link: https://github.com/openwrt/openwrt/pull/16269
Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de>
SoC: MediaTek MT7621
Flash: 16MB (Macronix MX25L12805D)
RAM: 128MB
Serial: As marked on PCB, baudrate is 57600, DO NOT CONNECT 3.3V!!!
Ethernet: 4x 10/100/1000 Mbps (3x LAN + WAN)
WIFI0: MT7615 2.4GHz 802.11b/g/n
WIFI1: MT7615 5GHz 802.11ac
Antennas: 6x external (3 per radio), non-detachable
LEDs: Programmable power-LED (blue-colored)
Buttons: Reset
INSTALLATION:
Get rootshell using insructions from https://gist.github.com/ZIKH26/18693c67ee7d2f8d2c60231b19194c37
Download and flash image
On computer:
python -m http.server
On router:
cd /tmp
wget http://:8000/factory.bin
mtd -r write factory.bin firmware
Device should reboot at this point.
Reverting to stock:
Download archive with firmware from Ruijie's site and
get .bin file from it. Then write that binary to firmware
partition. After reboot, factory-reset the router using
reset button.
Signed-off-by: Yahor Leonenka <staryjakau@gmail.com>
Link: https://github.com/openwrt/openwrt/pull/16202
Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de>
ELECOM WSC-X1800GS is a 2.4/5 GHz band 11ax (Wi-Fi 6) mesh extender,
based on MT7621A
Specification:
- SoC : MediaTek MT7621A
- RAM : DDR3 512 MiB (Nanya NT5CC256M16ER-EK)
- Flash : RAW-NAND 128 MiB (Winbond W29N01HVSINF)
- WLAN : 2.4/5 GHz 2T2R (MediaTek MT7915D + MT7975D)
- Ethernet : 2x 10/100/1000 Mbps
- switch : MediaTek MT7530 (SoC)
- LEDs/Keys (GPIO): 9x/2x
- UART : through-hole on PCB ("J4")
- arrangement : 3.3V, GND, TX, RX from tri-angle marking
- settings : 115200n8
- Power : 12 VDC, 1 A (Max. 10.5 W)
Flash instruction using initramfs-factory image
1. Boot WMC-X1800GST normally
2. Access to "http://192.168.2.1/" and open firmware update page
("ファームウェア更新")
3. Select the OpenWrt initramfs-factory image and click apply ("適用")
button
4. On initramfs image, download sysupgrade image to the device and
perform sysupgrade with that image
5. Wait ~120 seconds to complete flashing
Notes:
- The "firmware" partition on the stock image is only 0xF00000 (15 MiB)
and it's too small for the current OpenWrt firmware with UBI format.
So use the unused area at the end of NAND flash for rootfs (UBI).
MAC addresses:
LAN : 04:AB:18:xx:xx:6E (Factory, 0x3fff4 (hex))
2.4 GHz: 04:AB:18:xx:xx:6F (Factory, 0x3fffa (hex))
5 GHz : 04:AB:18:xx:xx:70 (Factory, 0x4 (hex))
Signed-off-by: INAGAKI Hiroshi <musashino.open@gmail.com>
Link: https://github.com/openwrt/openwrt/pull/16384
Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de>
ELECOM WMC-X1800GST is a 2.4/5 GHz band 11ax (Wi-Fi 6) mesh router,
based on MT7621A
Specification:
- SoC : MediaTek MT7621A
- RAM : DDR3 512 MiB (Nanya NT5CC256M16ER-EK)
- Flash : RAW-NAND 128 MiB (Winbond W29N01HVSINF)
- WLAN : 2.4/5 GHz 2T2R (MediaTek MT7915D + MT7975D)
- Ethernet : 3x 10/100/1000 Mbps
- switch : MediaTek MT7530 (SoC)
- LEDs/Keys (GPIO): 9x/5x
- UART : through-hole on PCB ("J4")
- arrangement : 3.3V, GND, TX, RX from tri-angle marking
- settings : 115200n8
- Power : 12 VDC, 1 A (Max. 11.5 W)
Flash instruction using initramfs-factory image
1. Boot WMC-X1800GST normally with "Router" mode
2. Access to "http://192.168.2.1/" and open firmware update page
("ファームウェア更新")
3. Select the OpenWrt initramfs-factory image and click apply ("適用")
button
4. On initramfs image, download sysupgrade image to the device and
perform sysupgrade with that image
5. Wait ~120 seconds to complete flashing
Notes:
- The "firmware" partition on the stock image is only 0xF00000 (15 MiB)
and it's too small for the current OpenWrt firmware with UBI format.
So use the unused area at the end of NAND flash for rootfs (UBI).
MAC addresses:
LAN : 04:AB:18:xx:xx:BF (Factory, 0x3fff4 (hex))
WAN : 04:AB:18:xx:xx:C0 (Factory, 0x3fffa (hex))
2.4 GHz: 04:AB:18:xx:xx:C1 (Factory, 0x4 (hex))
5 GHz : 04:AB:18:xx:xx:C2
Signed-off-by: INAGAKI Hiroshi <musashino.open@gmail.com>
Link: https://github.com/openwrt/openwrt/pull/16384
Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de>
Rename the sysupgrade.tar step to sysupgrade.bin. The sysupgrade.tar is
used in other places and we prefer a sysupgrade.bin instead.
Fixes: fea2264d9f ("ramips: mt7621: Add DNA Valokuitu Plus EX400")
Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de>
The sysupgrade-tar image build is not defined for this target, do not
add a build instruction for it. The build system will use the definition
from the dna_valokuitu-plus-ex400 board and the build will fail.
This fixes the build of the ramips target.
Fixes: 665c2154ef ("ramips: add basic support for tp-link er605-v2")
Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de>
This commit adds support for netis N6 WiFi 6 router.
Specification
-------------
- SoC : MediaTek MT7621AT, MIPS, 880 MHz
- RAM : 256 MiB
- Flash : NAND 128 MiB (ESMT PSU1GA30DT)
- WLAN : MT7905DAN + MT7975DN
- 2.4 GHz : b/g/n/ax, 574 Mbps, MIMO 2x2
- 5 GHz : a/n/ac/ax, 1201 Mbps, MIMO 2x2
- Ethernet : 10/100/1000 Mbps x5 (1x WAN, 4x LAN)
- USB : 1x 3.0
- UART : 3.3V, 115200n8
- Buttons : 1x Reset
1x WPS
- LEDs : 1x Power (green)
1x System (green)
1x WAN (green)
1x WiFi 2.4 GHz (green), controlled by phy
1x WiFi 5 GHz (green), controlled by phy
1x WPS (green)
1x USB (green)
5x ethernet leds (green), controlled by switch
- Power : 12 VDC, 1.5 A
Installation
------------
1. Update the router using stock firmware web interface and OpenWrt
factory.bin image.
Recovery and return to stock
----------------------------
1. Assign your PC a static IP 192.168.1.2 and connect to the router using
the ethernet cable;
2. Power off the router;
3. Press Reset button, power on the router and wait until ethernet led
start blinking;
4. Release the button;
5. Open http://192.168.1.1/ (N6 System Recovery Mode) in your browser;
6. Upload OpenWrt factory.bin (or stock firmware *.bin) image and proceed
with upgrade.
MAC addresses
-------------
+---------+-------------------+
| | MAC example |
+---------+-------------------+
| LAN | dc:xx:xx:49:xx:04 |
| WAN | dc:xx:xx:49:xx:05 |
| WLAN 2g | dc:xx:xx:19:xx:06 |
| WLAN 5g | dc:xx:xx:79:xx:06 |
+---------+-------------------+
The WLAN MAC prototype was found in 'Factory', 0x4
The LAN MAC was found in 'Factory', 0x7ef20
The WAN MAC was found in 'Factory', 0x7ef26
Known issue
-----------
2.4 GHz WLAN doesn't start with mt76 driver.
Probable reason:
Original Netis N6 EEPROM contains wrong MT_EE_WIFI_CONF value (0xd2).
Other routers with the same WLAN hardware (e.g., Routerich AX1800)
have MT_EE_WIFI_CONF = 0x92.
Workaround (already included in this commit):
Extract EEPROM to a file at the first time boot and change
MT_EE_WIFI_CONF (offset 0x190) value from 0xd2 to 0x92. See
/etc/hotplug.d/firmware/11-mt76-caldata for details.
Signed-off-by: Mikhail Zhilkin <csharper2005@gmail.com>
Link: https://github.com/openwrt/openwrt/pull/16322
Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de>
This fixes a well-known "LZMA ERROR 1" error on Sercomm NA502s, reported
on the OpneWrt forum [0].
[0] https://forum.openwrt.org/t/206640
Signed-off-by: Andreas Böhler <dev@aboehler.at>
Specifications:
- Device: DNA Valokuitu Plus EX400
- SoC: MT7621A
- Flash: 256MB NAND
- RAM: 256MB
- Ethernet: Built-in, 2 x 1GbE
- Wifi: MT7603 2.4 GHz, MT7615 5 GHz (4x internal antennas)
- USB: 1x 3.0
- LED: 1x green/red, 1x green
- Buttons: Reset
MAC addresses:
- LAN: u-boot 'ethaddr' (label)
- WAN: label + 1
- 2.4 GHz: label + 6
- 5 GHz: label + 7
Serial:
There is a black block connector next to the red ethernet connector. It
is accessible also through holes in the casing.
Pinout (TTL 3.3V)
+---+---+
|Tx |Rx |
+---+---+
|Vcc|Gnd|
+---+---+
Firmware:
The vendor firmware is a fork of OpenWrt (Reboot) with a kernel version
4.4.93. The flash is arranged as below and there is a dual boot
mechanism alternating between rootfs_0 and rootfs_1.
+-------+------+------+-----------+-----------+
| | env1 | env2 | rootfs_0 | rootfs_1 |
| +------+------+-----------+-----------+
| | UBI volumes |
+-------+-------------------------------------+
|U-Boot | UBI |
+-------+-------------------------------------+
|mtd0 | mtd1 |
+-------+-------------------------------------+
| NAND |
+---------------------------------------------+
In OpenWrt rootfs_0 will be used as a boot partition that will contain the
kernel and the dtb. The squashfs rootfs and overlay are standard OpenWrt
behaviour.
+-------+------+------+-----------+--------+------------+
| | env1 | env2 | rootfs_0 | rootfs | rootfs_data|
| +------+------+-----------+--------+------------+
| | UBI volumes |
+-------+-----------------------------------------------+
|U-Boot | UBI |
+-------+-----------------------------------------------+
|mtd0 | mtd1 |
+-------+-----------------------------------------------+
| NAND |
+-------------------------------------------------------+
U-boot:
With proper serial access booting can be halted to U-boot by pressing any
key. TFTP and flash writes are available, but only the first one has been
tested.
NOTE: Recovery mode can be accessed by holding down the reset button while
powering on the device. The led 'Update' will show a solid green light
once ready. A web server will be running at 192.168.1.1:80 and it will
allow flashing a firmware package. You can cycle between rootfs_0 and
rootfs_1 by pressing the reset button once.
Root password:
With the vendor web UI create a backup of your settings and download the
archive to your computer. Within the archive in the file
/etc/shadow replace the password hash for root with that of a password you
know. Restore the configuration with the vendor web UI and you will have
changed the root password.
SSH access:
You might need to enable the SSH service for LAN interface as by default
it's enabled for WAN only.
Installing OpenWrt:
With the vendor web UI install the OpenWrt factory image. Alternatively,
ssh to the device and use sysupgrade -n from cli.
Finalize by installing the OpenWrt sysupgrade image to get a fully
functioning system.
Reverting to the vendor firmware:
Boot with OpenWrt initramfs image
- Remove volumes rootfs_0, rootfs and rootfs_data and create vendor
volumes.
ubirmvol /dev/ubi0 -n 2
ubirmvol /dev/ubi0 -n 3
ubirmvol /dev/ubi0 -n 4
ubimkvol /dev/ubi0 -N rootfs_0 -S 990
ubimkvol /dev/ubi0 -N rootfs_1 -S 990
Power off and enter to the U-boot recovery to install the vendor
firmware.
Known issues:
- MACs for wifi are stored in currently unknown place but it seems
to persist over power-off. They might be stored on the chip.
Signed-off-by: Mauri Sandberg <maukka@ext.kapsi.fi>
[rmilecki: try NVMEM for MACs]
Signed-off-by: Rafał Miłecki <rafal@milecki.pl>
Yuncore CPE200 is an outdoor unit with IEEE 802.11ac radio.
Hardware:
- SoC: MediaTek MT7628DAN (MIPS 580MHz)
- Flash: 8 MiB Spansion S25FL064K
- RAM: 64 MiB (built-into SoC)
- WLAN: 5 GHz (MT7613AE)
- Ethernet: 1x 10/100 Mbps WAN, 1x 10/100 LAN (MT7628)
- Buttons: 1 Reset button, 2 buttons for display UI (unsupported)
- LEDs: 4x Green (Power, LAN, WAN, WiFi)
- Display: 4 digit 7-segment display driven by an additional
microcontroller (unsupported)
- Serial console: unpopulated header, 57600 8n1 (RX only)
- Power: 12 VDC, 1 A
Installation:
The installation can be done via the recovery HTTP server which is built
into the bootloader. Hold down the reset button while connecting the
device to power and keep holding a bit more than 3 seconds. Connect to
http://192.168.0.100/ and upload sysupgrade.bin file.
Signed-off-by: Daniel Golle <daniel@makrotopia.org>
The company Zyxel rebranded some years ago.
Currently the casing is according to the old branding even
for newer devices which already use the new branding.
This commit aligns the casing of Zyxel everywhere.
Signed-off-by: Goetz Goerisch <ggoerisch@gmail.com>
Link: https://github.com/openwrt/openwrt/pull/15652
Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de>
Hardware:
- SoC: MediaTek MT7628DAN (MIPS 580MHz)
- Flash: 8 MiB Spansion S25FL064K
- RAM: 64 MiB (built-into SoC)
- WLAN: 2.4 GHz (MT7628)
- Ethernet: 1x 10/100 Mbps WAN, 1x 10/100 LAN (MT7628)
- Buttons: 1 Reset button
- LEDs: 1x Red, 1x Green
- Serial console: unpopulated header, 57600 8n1 (RX only)
- Power: 12 VDC, 1 A
There are unpopulated areas on the board for 5 GHz WiFi via PCIe as well
as (most likely) Quectel EG25-G 4G module. As both are not populated on
my board support for both is missing for now.
Installation:
The installation can be done via the recovery HTTP server which is built
into the bootloader. Hold down the reset button while connecting the
device to power and keep holding a bit more than 3 seconds. Connect to
http://192.168.188.253/ and upload sysupgrade.bin file.
Signed-off-by: Daniel Golle <daniel@makrotopia.org>
The second edition of international version of Mi Router 4A 100M is
very similar to the non-international one, but has another wireless chip.
Installation
--------------
1. Initialize build-in firmware (use webgui for 192.168.31.1)
You should install root password
2. Run OpenWRTInvasion for the first time (probably it will fail)
Version 0.0.10 is working as well as 0.0.1.
3. Run OpenWRTInvasion for the second time
It will create an access to your router
4. Upload sysupgrade image to router (/tmp/fw.bin)
pc# nc -l 8080 < …/ramips/mt76x8/…-100m-intl-v2-squashfs-sysupgrade.bin
router# nc 192.168.31.175 8080 > /tmp/fw.bin
5. Flash new firmware
router# run mtd -r write /tmp/fw.bin OS1
6. Check result
Wait about 5-10 minutes after flash. Router should reboot itself and
turn left led from orange to blue.
In case of failure one can use Xiaomi 4a 100m debrick tool
(it uploads special image via tftpd in recovery mode)
After that you can start again from step 1.
Another actions are very similar to original Mi Router 4A 100M
Original mtd paritions:
-------------------------
```
Creating 9 MTD partitions on "raspi":
0x000000000000-0x000001000000 : "ALL"
0x000000000000-0x000000020000 : "Bootloader"
0x000000020000-0x000000030000 : "Config"
0x000000030000-0x000000040000 : "Factory"
0x000000040000-0x000000050000 : "crash"
0x000000050000-0x000000060000 : "cfg_bak"
0x000000060000-0x000000160000 : "overlay"
0x000000160000-0x000000dc0000 : "OS1"
0x000000dc0000-0x000001000000 : "disk"
with special sub-partition
0x0000002c0000-0x000000dc0000 : "rootfs"
```
We will use OS1+disk space:
```
0x000000160000-0x000001000000 : "firmware"
```
Co-authored-by: Nita Vesa <nita.vesa@elektrik.link>
Signed-off-by: Anton Stratonnikov <billic@yandex.ru>
Link: https://github.com/openwrt/openwrt/pull/14304
Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de>
This commit adds support for a dual-band AX1800 wall plug manufactured
by Shenzhen Century Xinyang Tech Co., Ltd.
CPU: Mediatek MT7621A (2 cores, 4 threads)
RAM: 256i MiB DDR3 (Samsung K4B2G1646F-BCNB)
ROM: 16 MiB SPI NOR (Winbond W25Q128JVPQ)
Wired: one gigabit RJ45 port (with green/yellow non-GPIO LEDs)
WiFi: Mediatek MT7905DAN + MT7975DN (DBDC 2x 2T2R)
Ant.: four 2 dBi external antennas (two 2.4GHz, two 5 GHz)
GPIO: tri-color status LED (GPIO 13, 14, 16);
reset button (GPIO 18)
Power: 12V 2-pin JST-XH on main PCB
110/220V AC to 12V1A DC on auxiliary PCB
UART: 115200 8n1, SMD pads available on the PCB as J4
pinout is [3v3] (Rx) (Tx) (Gnd)
MAC: 1C:BF:CE:xx:xx:xx (2.4 GHz, label)
1C:BF:CE:xx:xx:xx + 1 (ethernet [1])
1C:BF:CE:xx:xx:xx + 2 (5 GHz)
Original firmware is LEDE Reboot 17.01-SNAPSHOT (kernel 4.4.198)
with a few custom packages and a non-LuCI web interface.
Telnet and SSH are enabled, requiring an unknown root password [2].
Root password is also needed to access the router via UART console,
but passwordless telnet can be enabled via a trivial web exploit [3]
and then the root password can be removed by editing `/etc/shadow`.
Installation: First upload `sysupgrade` binary via web interface at
`http://192.168.188.1/settings.shtml` and wait until getting back to
the home screen (select network to extend). The installation fails
since the original firmware uses `swconfig` and recent versions of
OpenWrt use DSA. However, the sysupgrade file is uploaded correctly
and stored at `/tmp/upgrade.bin`, so it can be written to flash via
the web exploit [4] (both `mtd -r write` and `sysupgrade -Fn` work
fine). Passwordless telnet/ssh is not needed for installation.
Alternatively, use u-boot menu to load image via TFTP.
Notes:
- Device model in LEDE is "MediaTek MT7621 RFB (802.11ax,SNOR)".
- It is sold under several names, among them are Wodesys WD-R1802U,
Fenvi F-AX1802U, and EDUP EP-2971; the Wodesys brand was selected
since it is referenced in `/etc/banner` and `/etc/hosts`, and the
PCB is marked "WD518A V1.0".
- Instead of a standard ethernet transformer, the PCB has a few tiny
SMD coils.
[1] Original firmware sets ethernet MAC to 1C:BF:CE:E7:62:1D based on
offset `0x3fff4` in the Factory partition; since this is the same
MAC for all units, whereas WiFi MACs stored at offsets 0x6 and 0xc
are unique, it was decided to use <label MAC + 1> for ethernet.
[2] root:$1$7rmMiPJj$91iv9LWhfkZE/t7aCBdo.0:18388:0:99999:7:::
[3] curl -X POST http://192.168.188.1/cgi-bin/adm.cgi \
-d page=Lang -d langType="en;killall telnetd;telnetd -l /bin/sh"
[4] curl -X POST http://192.168.188.1/cgi-bin/adm.cgi \
-d page=Lang -d langType="en;mtd -r write /tmp/upgrade.bin firmware"
Signed-off-by: Rani Hod <rani.hod@gmail.com>
Link: https://github.com/openwrt/openwrt/pull/15777
Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de>
Ubiquiti has a set of UniFi 802.11ax (Wi-Fi 6) AP devices. All models
include "U6" in their names and also have code names with no special
characters (including spaces).
Examples:
1. U6 Lite (codename U6-Lite)
2. U6 Long-Range (codename U6-LR)
3. U6+ (codename U6-PLUS)
4. U6 Pro (codename U6-Pro)
5. U6 Mesh (codename U6-Mesh)
6. U6 Mesh Pro (codename U6-Mesh-Pro)
7. U6 Enterprise (codename U6-Enterprise)
Use proper full names for those devices. Names in OpenWrt/DTS code may
need updating too but it can be handled later.
Cc: Elbert Mai <code@elbertmai.com>
Cc: Daniel Golle <daniel@makrotopia.org>
Cc: Henrik Riomar <henrik.riomar@gmail.com>
Cc: David Bauer <mail@david-bauer.net>
Signed-off-by: Rafał Miłecki <rafal@milecki.pl>
Keenetic KN-3510 is a 2.4/5 Ghz band 11ax access point
Specification:
- System-On-Chip: MT7621AT
- CPU/Speed: 880 MHz
- Flash-Chip: Macronix MX30LF1G28AD-TI
- Flash size: 128 MiB
- RAM: 256 MiB
- 2x 10/100/1000 Mbps Ethernet
- PoE, 802.3af/at
- 4x internal antennas
- UART (J1) header on PCB (115200 8n1)
- WiFi: MT7915 2x2 2.4G 573.5Mbps + 2x2 5G 1201Mbps
- 2x LED, 2x button, 1x mode switch
Notes:
- The device supports dual boot mode
- The firmware partitions were concatinated into one
Flash instruction:
The only way to flash OpenWrt image is to use tftp recovery mode in U-Boot:
1. Configure PC with static IP 192.168.1.2/24 and tftp server.
2. Rename "openwrt-ramips-mt7621-keenetic_kn-3510-squashfs-factory.bin"
to "KN-3510_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 until power led start blinking.
4. Router will download file from server, write it to flash and reboot
Signed-off-by: Maxim Anisimov <maxim.anisimov.ua@gmail.com>
Link: https://github.com/openwrt/openwrt/pull/15744
Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de>
This device is exactly the same as WL-WN531G3 but with different partition layout and different MAC layout. Labeled as Quantum D4G Rev.: A2.
Hardware
--------
SoC: Mediatek MT7620A
RAM: 64MB
FLASH: 8MB NOR (GigaDevice GD25Q64CS)
ETH:
- 2x 10/100/1000 Mbps Ethernet (RTL8211F)
- 3x 10/100 Mbps Ethernet (integrated in SOC)
WIFI:
- 2.4GHz: 1x (integrated in SOC) (2x2:2)
- 5GHz: 1x MT7612E (2x2:2)
- 4 external antennas
BTN:
- 1x Reset button
- 1x Touchlink button
- 1x Turbo button
- 1x Wps button
- 1x ON/OFF switch
LEDS:
- 1x Red led (system status)
- 1x Blue led (system status)
- 5x Blue leds (ethernet ports)
- 1x Power led
- 1x Wifi led
UART:
- 57600-8-N-1
Everything works correctly.
Installation
------------
Flash the initramfs image in the OEM firmware interface
When Openwrt boots, flash the sysupgrade image otherwise you won't be
able to keep configuration between reboots.
Notes
-----
1) Router mac addresses:
LAN XX:XX:XX:XX:XX:0F (factory @ 0x28)
WAN XX:XX:XX:XX:XX:10 (factory @ 0x2e)
WIFI 2G XX:XX:XX:XX:XX:11 (factory @ 0x04)
WIFI 5G XX:XX:XX:XX:XX:12 (factory @ 0x8004)
LABEL XX:XX:XX:XX:XX:11
Signed-off-by: Eros Brigmann <erosbrigmann@gmail.com>
Link: https://github.com/openwrt/openwrt/pull/15876
Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de>
Remove kmod-switch-rtl8366-smi from the package list, as it is still loaded
because kmod-switch-rtl8367b depends on it
Signed-off-by: Mieczyslaw Nalewaj <namiltd@yahoo.com>
Link: https://github.com/openwrt/openwrt/pull/15757
Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de>
Now that the SDHC of MT762{0,1,8} has been supported upstream, it's
time to switch the default driver to the upstream one. We will still
keep the old driver for users to choose from.
Tested on HiWiFi HC5861 (MT7620A) and HiWiFi HC5661A (MT7628N).
Signed-off-by: Shiji Yang <yangshiji66@qq.com>
The WLR-1240 (ZX-5434) is an AC1200 Wave 2 outdoor repeater
with omnidirectional antennas for wall or pole mounting.
The device is manufactured by Todaair and meant to be used with
a tuya-based app, there is no webinterface for configuration.
Specifications:
- MT7628AN, 8 MiB SPI NOR flash, 64 MiB RAM, 2x2 802.11n
- MT7613 2x2 802.11ac Wave 2
- 802.3af PoE or 12V 1A 5.5x2.1 power supply (included)
- top RGB LED ring
TFTP installation:
- rename sysupgrade to `firmware_auto.bin`
- provide at 192.168.1.10 during boot
HTTP installation:
- keep reset button pressed for 5 seconds during power on (light blue
LED flashes slowly, then quickly to confirm, then remains steady on)
- recovery web interface is at 192.168.1.1, upload sysupgrade
Opening the device
- use suction cup to remove top cap within LED ring
- two screws are located in holes underneath silicone sealant
- two further screws are located at the bottom
initramfs boot
- open device, connect serial console (pins are labelled)
- keep pressing `4` during second tftp attempt to enter uboot shell
- run `tftpboot 82000000` to avoid memory overlap, then `bootm`
Signed-off-by: Sebastian Schaper <openwrt@sebastianschaper.net>
The WLR-1230 (ZX-5207) is an AC1200 Wave 2 outdoor repeater
with sector antennas for wall or pole mounting.
The device is manufactured by Todaair and meant to be used with
a tuya-based app, there is no webinterface for configuration.
Specifications:
- MT7628AN, 8 MiB SPI NOR flash, 64 MiB RAM, 2x2 802.11n
- MT7613 2x2 802.11ac Wave 2
- 802.3af PoE or 12V 1A 5.5x2.1 power supply (included)
- 3 LEDs WLAN, LAN, RES; PWR LED is not software-controllable
TFTP installation:
- rename sysupgrade to `firmware_auto.bin`
- provide at 192.168.1.10 during boot
HTTP installation:
- keep reset button pressed for 5 seconds during power on (LEDs
flash slowly, then quickly to confirm, then remain steady on)
- recovery web interface is at 192.168.1.1, upload sysupgrade
Opening the device
- two screws are located in the bottom left and right corners
underneath the label, inner tray slides out easily
initramfs boot
- open device, connect serial console (pins are labelled)
- keep pressing `4` during second tftp attempt to enter uboot shell
- run `tftpboot 82000000` to avoid memory overlap, then `bootm`
Signed-off-by: Sebastian Schaper <openwrt@sebastianschaper.net>
Buffalo WSR-2533DHPL2 is a 2.4/5 GHz band 11ac (Wi-Fi 5) router, based
on MediaTek MT7621A.
Specification:
- SoC : MediaTek MT7621AT
- RAM : DDR3 128 MiB (Winbond W631GG6MB12J)
- Flash : RAW-NAND 128 MiB (Winbond W29N01HVSINF)
- WLAN : 2.4/5 GHz (2x MediaTek MT7615N)
- Ethernet : 10/100/1000 Mbps x4
- Switch : MediaTek MT7530 (SoC)
- LED/keys : 8x/6x (2x buttons, 1x slide-switch)
- UART : through-hole on PCB (J4)
- arrangement : 3.3V, GND, TX, RX from triangle-mark
- settings : 57600n8
- Power : 12VDC 1.5A
Flash instruction using factory.bin image:
1. boot WSR-2533DHPL2 normally with "Router" mode
2. access to the WebI ("http://192.168.11.1/") on the device and open
firmware update page
("管理" -> "ファームウェア更新")
3. select the OpenWrt factory.bin image and click update ("更新実行")
button
Attention: do not use "factory-uboot.bin" image
4. Wait ~120 seconds to complete flashing
Flash instruction using initramfs image:
1. prepare the TFTP server with the initramfs image renamed to
"linux.trx-recovery" and IP address "192.168.11.2"
2. press the "AOSS" button while powering on the WSR-2533DHPL2
3. after 10 seconds, release the "AOSS" button, WSR-2533DHPL2 downloads
the initramfs image and boot with it automatically
4. on the initramfs image, download the factory-uboot.bin image to the
device and perform sysupgrade with it and "-F" option
5. wait ~120 seconds to complete flashing
Notes:
- There are 2x factory*.bin images for different purposes.
- factory.bin : for flashing on OEM WebUI
- factory-uboot.bin: for flashing on OEM bootloader or initramfs image
factory-uboot.bin is useful for recoverying the device, or refreshing
when the kernel partition is expanded in the future. sysupgrade on
this device accepts factory-uboot.bin with option "-F", but on that
situation, user configurations won't be kept, so it's not for normal
use.
MAC addresses:
LAN : 18:EC:E7:xx:xx:E0 (board_data, "mac" (text))
WAN : 18:EC:E7:xx:xx:E0 (board_data, "mac" (text))
2.4 GHz: 18:EC:E7:xx:xx:E1 (Factory, 0x4 (hex))
5 GHz : 18:EC:E7:xx:xx:E4 (Factory, 0x8004 (hex))
Signed-off-by: INAGAKI Hiroshi <musashino.open@gmail.com>
Buffalo WSR-2533DHPLS is a 2.4/5 GHz band 11ac router, based on MediaTek
MT7621A.
Very similar to Buffalo WSR-2533DHPL, but with NAND, different GPIO
and TRX partitions.
Specification:
- SoC : MediaTek MT7621AT
- RAM : DDR3 256 MiB (Samsung K4B2G1646F-BYMA)
- Flash : RAW-NAND 128 MiB
(Winbond W29N01HV or KIOXIA TC58BVG0S3HTAI0)
- WLAN : 2.4/5 GHz (2x MediaTek MT7615N)
- Ethernet : 10/100/1000 Mbps
- Switch : MediaTek MT7530 (SoC) 4 ports
- LED/keys : 8x/6x (2x buttons, 1x slide-switch)
- UART : through-hole on PCB (J4)
- arrangement : 3.3V, GND, TX, RX from triangle-mark
- settings : 115200n8
- Power : 12VDC 1.5A
Flash instruction using factory.bin image:
1. boot WSR-2533DHPLS normally with "Router" mode
2. access to the WebI ("http://192.168.11.1/") on the device and open
firmware update page
("管理" -> "ファームウェア更新")
3. select the OpenWrt factory.bin image and click update ("更新実行")
button
Attention: do not use "factory-uboot.bin" image
4. Wait ~120 seconds to complete flashing
Flash instruction using initramfs image:
1. prepare the TFTP server with the initramfs image renamed to
"linux.trx-recovery" and IP address "192.168.11.2"
2. press the "AOSS" button while powering on the WSR-2533DHPLS
3. after 10 seconds, release the "AOSS" button, WSR-2533DHPLS downloads
the initramfs image and boot with it automatically
4. on the initramfs image, download the factory-uboot.bin image to the
device and perform sysupgrade with it and "-F" option
5. wait ~120 seconds to complete flashing
Notes:
- The embedded addresses in eeprom data in Factory partition have
Buffalo's OUI, but they don't match with the actual addresses
assigned to wlan devices. So fixup addresses by the user-space
script.
root@localhost:/# hexdump -C /dev/mtdblock3 | grep "^0000[08]000\s"
00000000 15 76 a0 00 88 57 ee bc 01 a8 15 76 c3 14 00 80 |.v...W.....v....|
00008000 15 76 a0 00 88 57 ee bc 01 f8 15 76 c3 14 00 80 |.v...W.....v....|
See "MAC addresses" below for actual addresses.
- There are 2x factory*.bin images for different purposes.
- factory.bin : for flashing on OEM WebUI
- factory-uboot.bin: for flashing on OEM bootloader or initramfs image
factory-uboot.bin is useful for recoverying the device, or refreshing
when the kernel partition is expanded in the future. sysupgrade on
this device accepts factory-uboot.bin with option "-F", but on that
situation, user configurations won't be kept, so it's not for normal
use.
MAC addresses:
LAN : 90:96:F3:xx:xx:30 (board_data, "mac" (text))
WAN : 90:96:F3:xx:xx:30 (board_data, "mac" (text))
2.4 GHz: 90:96:F3:xx:xx:31
5 GHz : 90:96:F3:xx:xx:38
[original work]
Signed-off-by: Audun-Marius Gangstø <audun@gangsto.org>
[convert to ubi, fix/improve DT, add sysupgrade support]
Signed-off-by: INAGAKI Hiroshi <musashino.open@gmail.com>
The Yafut tool now has limited capabilities for working on filesystem
images stored in regular files. This enables preparing Yaffs2 images
for devices with NOR flash using upstream Yaffs2 filesystem code instead
of the custom kernel2minor tool.
Since minimizing the size of the resulting filesystem image size is
important and upstream Yaffs2 code requires two allocator reserve blocks
to be available when writing a file to the filesystem, a trick is
employed while preparing an OpenWRT image: the blank filesystem image
that Yafut operates on initially contains two extra erase blocks that
are chopped off after the kernel file is written. This is safe to do
because Yaffs2 has a true log structure and therefore only ever writes
sequentially (and the size of the kernel file is known beforehand).
While the two extra erase blocks are necessary for writes, Yaffs2 code
seems to be perfectly capable of reading back files from a "truncated"
filesystem that does not contain these extra erase blocks.
In terms of image size, this new approach is only marginally worse than
the current kernel2minor-based one: specifically, upstream Yaffs2 code
needs to write three object headers (each of which takes up an entire
data chunk) when the kernel file is written to the filesystem:
- an object header for the kernel file when it is created,
- an object header for the root directory when the kernel file is
created,
- an updated object header for the kernel file when the latter is
fully written (so that its new size can be recorded).
kernel2minor only writes two of these headers, which is the absolute
minimum required for reading the file back. This means that the
Yafut-based approach causes firmware images to be at most one erase
block (64 kB) larger than those created using kernel2minor, but only in
the very unfortunate scenario where the size of the kernel file is
really close to a multiple of the erase block size.
The rest of the calculations performed when the empty filesystem image
is first prepared stems from the Yaffs2 layout used by MikroTik NOR
devices: each 65,536-byte erase block contains 63 chunks, each of which
consists of 1024 bytes of data followed by 16-byte Yaffs tags without
ECC data; each such group of 63 chunks is then followed by 16 bytes of
padding, which translates to "-C 1040 -B 64k -E" in the Yafut
invocation. Yaffs2 checkpoints and summaries are disabled (using
Yafut's -P and -S switches, respectively) as they are merely performance
optimizations that require extra storage space. The -L and -M switches
are used to force little-endian or big-endian byte order (respectively)
in the resulting filesystem image, no matter what byte order the build
host uses. The tr invocation is used to ensure that the filesystem
image is initialized with 0xFF bytes (which are an indicator of unused
space for Yaffs2 code).
Signed-off-by: Michał Kępień <openwrt@kempniu.pl>
Link: https://github.com/openwrt/openwrt/pull/13453
Signed-off-by: Robert Marko <robimarko@gmail.com>
Hardware:
- SoC: MediaTek MT7628AN (MIPS 580MHz)
- Flash: 16 MiB XMC 25QH128CH10
- RAM: 128 MiB ESMT M14D1G1664A
- WLAN: 2.4 GHz (MT7628), 5 GHz (MT7613BEN 802.11ac)
- Ethernet: 1x 10/100 Mbps WAN, 1x 10/100 LAN (MT7628)
- USB 2.0 port
- Buttons: 1 Reset button, 1 slider button
- LEDs: 1x Red, 1x White
- Serial console: unpopulated header, 115200 8n1
- Power: 5 VDC, 2 A
MAC addresses:
+---------+-------------------+-----------+
| | MAC | Algorithm |
+---------+-------------------+-----------+
| WAN | 80:af:ca:xx:xx:x0 | label |
| LAN | 80:af:ca:xx:xx:x0 | label |
| WLAN 2g | 80:af:ca:xx:xx:x0 | label |
| WLAN 5g | 80:af:ca:xx:xx:x2 | label+2 |
+---------+-------------------+-----------+
Installation:
The installation must be done via TFTP by disassembling the router.
On other occasions Cudy has distributed intermediate firmware to make
installation easier, and so I recommend checking the Wiki for this
device if there is a more convenient solution than the one below.
To install using TFTP:
1. Upgrade to a beta firmware (signed by Cudy) that can be downloaded
from the wiki. This is required in order to use an unlocked u-boot.
2. Connect to UART.
3. While the router is turning on, press 1.
4. Connect to LAN and set your IP to 192.168.1.88/24. Configure a TFTP
server and an OpenWrt initramfs-kernel.bin firmware file as recovery.bin.
5. Press Enter three times. Verify the filename.
6. If you can reach LuCI or SSH now, just use the sysupgrade image with
the 'Keep settings' option turned off.
If you don't want to use the beta firmware nor the unlocked u-boot, you
can install the firmware writing the sysupgrade image on the firmware
partition of the SPI flash.
Signed-off-by: Luis Mita <luis@luismita.com>
Add support for D-Link DIR-2055 A1 based on similarities to DIR-1960 A1,
as well as various DIR-8xx A1 models. Existing DIR-1960 A1 openwrt
"factory" firmware installs without modifications via the D-Link Recovery
GUI and has no known incompatibilities with the DIR-2055 A1.
Changes to be committed:
new file: target/linux/ramips/dts/mt7621_dlink_dir-2055-a1.dts
modified: target/linux/ramips/image/mt7621.mk
modified: target/linux/ramips/mt7621/base-files/etc/board.d/01_leds
modified: target/linux/ramips/mt7621/base-files/lib/upgrade/platform.sh
Specifications:
Board: Not known
SoC: MediaTek MT7621 Family (MT7621AT)
RAM: 256 MB (Micron 9OK17 D9PTK, should be DDR3 MT41K128M16JT-125)
Flash: 128 MB (Winbond W29N01HVSINA)
WiFi: MediaTek MT7615 Family (MT7615N x2)
Switch: 1 WAN, 4 LAN (Gigabit)
Ports: 1 USB 3.0 (front)
Buttons: Reset, WiFi Toggle, WPS
LEDs: Power (white/orange), Internet (white/orange),
WiFi 2.4G (white), WiFi 5G (white)
Notes:
Only known difference vs. the DIR-1960 A1 is that the DIR-2055 A1
doesn't have a USB activity LED
Serial port:
Tested to be identical to various DIR-8xx A1 models with a similar
enclosure/pcb design:
Parameters: 57600, 8N1, 3.3V TTL no flow control
Location: J1 header (close to the Reset, WiFi and WPS buttons)
Pinout: 1 - VCC 2 - RXD 3 - TXD 4 - GND
Did not connect VCC when using
Installation:
D-Link Recovery GUI: power down the router, press and hold the reset
button, then re-plug it. Keep the reset button pressed until the power
LED starts flashing orange, manually assign a static IP address under
the 192.168.0.xxx subnet (e.g. 192.168.0.2) and go to
http://192.168.0.1
Some modern browsers may have problems flashing via the Recovery GUI,
if that occurs consider uploading the firmware through cURL:
curl -v -i -F "firmware=@file.bin" 192.168.0.1
Signed-off-by: Keith Harrison <keithh@protonmail.com>
ELECOM WRC-X1800GS is a 2.4/5 GHz band 11ax (Wi-Fi 6) router, based on
MT7621A.
Specification:
- SoC : MediaTek MT7621A
- RAM : DDR3 256 MiB
- Flash : RAW-NAND 128 MiB (Macronix MX30LF1G28AD-TI)
- WLAN : 2.4/5 GHz 2T2R (MediaTek MT7915D)
- Ethernet : 5x 10/100/1000 Mbps
- switch : MediaTek MT7530 (SoC)
- LEDs/Keys (GPIO) : 7x/4x
- UART : pin-header on PCB ("J5")
- arrangement : 3.3V, TX, RX, NC, GND from tri-angle marking
- settings : 115200n8
- Power : 12 VDC, 1 A
Flash instruction using initramfs-factory image:
1. Boot WRC-X1800GS normally with "Router" mode
2. Access to "http://192.168.2.1/" and open firmware update page
("ファームウェア更新")
3. Select the OpenWrt initramfs-factory image and click apply ("適用")
button
4. After flashing initramfs-factory image and reboot, upload the
sysupgrade image and perform sysupgrade with it
5. Wait ~120 seconds to complete flashing
Notes:
- WRC-X1800GS has 2x os images. Those are switched on every firmware
updating on stock firmware, but dual-boot feature on this device
cannot be handled on OpenWrt. So the 1st image is always used on
OpenWrt.
This is controlled by "bootnum" variable embedded in "persist"
partition (addr: 0x4).
- WRC-X1800GS has 2x HW revisions. There are some small changes, but the
same DeviceTree in stock firmware is used for both revisions.
On this support of WRC-X1800GS, 2x green:wlan-2g-N LEDs are defined
for each revision and the same default triggers are set.
MAC addresses:
LAN : 38:97:A4:xx:xx:38 (Factory, 0x1fdfa (hex) / Ubootenv, ethaddr (text))
WAN : 38:97:A4:xx:xx:3B (Factory, 0x1fdf4 (hex))
2.4 GHz: 38:97:A4:xx:xx:39
5 GHz : 38:97:A4:xx:xx:3A
Signed-off-by: INAGAKI Hiroshi <musashino.open@gmail.com>
Specifications:
CPU: MT7628AN 580MHz
RAM: 64MB DDR2
FLASH: 8MB EN25QH64 NOR SPI
WIFI: 2.4GHz 2x2 MT7628 b/g/n internal
WIFI: 5GHz 1x1 MT7610E ac/n PCI
LTE: Qualcomm MDM9207
ETH: 4xLAN 100base-T integrated
SWITCH: RT3050-ESW Port 0,1,2,3: LAN, Port 6: CPU
LEDS: LAN, WAN, Power, 3x signal strength, WiFi
BTNS: Reset, WiFi toggle
UART: Near ETH ports, Vcc-GND-RX-TX, 115200, 8N1
Installation:
1. Update using recovery mode
- set your IP to 192.168.0.225, subnet mask: 255.255.255.0
- start tftp server, rename tftp-recovery.bin to
tp_recovery.bin and place it into the server's directory
- while holdig the "reset" button, power on the device
- keep holding "reset" until the file is being transferred
Notes:
This board has only one MAC address programmed
in the "romfile" partition:
- MAC for phy0 (2.4GHz) at romfile 0xf100 (0)
- MAC for phy1 (5GHz) at romfile 0xf100 (-1)
- stock firmware re-uses phy0 MAC for ethernet
- stock firmware uses romfile 0xf100 (1) for WWAN;
not used since QMI interface is raw IP
Signed-off-by: Lea Teuberth <lea.teuberth@outlook.com>
- Soc: MediaTek MT7621AT
- RAM: 512 MB (DDR3)
- Flash: 16 MB (SPI NOR)
- WiFi: MediaTek MT7905DAN, MediaTek MT7975DN
- Ethernet: 1 WAN, 3 LAN (Gigabit)
- Buttons: Reset, Joylink
- LEDs: (red, blue, green), routed to one indicator in the top of the
device
- Power: DC 12V 1A tip positive
- 1 TF Card Slot
The pins for the serial console are already labeled on the board
J4(V, R, T, G). Serial settings: 3.3V, 115200
MAC addresses:
| | MAC | Algorithm |
| ------- | ----------------- | --------- |
| label | dc:d8:xx:xx:xx:01 | label |
| LAN | dc:d8:xx:xx:xx:01 | label |
| WAN | dc:d8:xx:xx:xx:02 | label+1 |
| WLAN 2g | dc:d8:xx:xx:xx:03 | label+2 |
| WLAN 5g | de:d8:xx:xx:xx:04 | label+3 |
1. rename the
openwrt-ramips-mt7621-jdcloud_re-cp-02-squashfs-sysupgrade.bin
to JDCOS.bin
2. start a TFTP server from IP address 192.168.68.10 and serve the
image named JDCOS.bin
3. connect your device to the LAN port
4. power up the router and press any key on the console to interrupt
the boot process.
5. enter the following commands on the router console
1. setenv bootcount 6
2. saveenv
3. reset
> NOTE: wait for the restart, it will automatically fetch the
> image named JDCOS.bin from the TFTP server and write it into
> the flash. After the writing is completed, the router will be
> automatically restarted.
Unable to recognize large-capacity TF card, see #14042. But the patch
https://github.com/openwrt/openwrt/issues/14042#issuecomment-1910769942
works
Co-Authored-By: Jianti Chen <clbcjt@outlook.com>
Signed-off-by: Sheng Huang <shenghuang147@gmail.com>
This device is similiar to the Wavlink WL-WN531A3.
Hardware
--------
SoC: Mediatek MT7620A
RAM: 64MB
FLASH: 8MB NOR (GigaDevice GD25Q64CS)
ETH:
- 2x 10/100/1000 Mbps Ethernet (RTL8211F)
- 3x 10/100 Mbps Ethernet (integrated in SOC)
WIFI:
- 2.4GHz: 1x (integrated in SOC) (2x2:2)
- 5GHz: 1x MT7612E (2x2:2)
- 4 external antennas
BTN:
- 1x Reset button
- 1x Touchlink button
- 1x Turbo button
- 1x Wps button
- 1x ON/OFF switch
LEDS:
- 1x Red led (system status)
- 1x Blue led (system status)
- 5x Blue leds (ethernet ports)
- 1x Power led
- 1x Wifi led
UART:
- 57600-8-N-1
Everything works correctly.
Installation
------------
Flash the initramfs image in the OEM firmware interface
When Openwrt boots, flash the sysupgrade image otherwise you won't be
able to keep configuration between reboots.
In my case the whole device was locked and there was no way
to flash the image, except for flashing directly to the flash
via an spi-flasher. You need to put the sysupgrade image file at
the beginning of 0x60000.
Notes
-----
1) Router mac addresses:
LAN XX:XX:XX:XX:XX:F0 (factory @ 0x28)
WAN XX:XX:XX:XX:XX:F1 (factory @ 0x2e)
WIFI 2G XX:XX:XX:XX:XX:F2 (factory @ 0x04)
WIFI 5G XX:XX:XX:XX:XX:F3 (factory @ 0x8004)
LABEL XX:XX:XX:XX:XX:F2
Signed-off-by: Eros Brigmann <erosbrigmann@gmail.com>
Hardware Specification:
SoC: Mediatek MT7621DAT (MIPS1004Kc 880 MHz, dual core)
RAM: 128 MB
Storage: 128 MB NAND flash
Ethernet: 5x 10/100/1000 Mbps LAN1,LAN2,LAN3,LAN4 & WAN
Wireless: 2.4GHz: Mediatek MT7603EN up to 300Mbps (802.11b/g/n MIMO 2x2)
Wireless: 5GHz: Mediatek MT7615N up to 1733Mbps (802.11n/ac MU-MIMO 4x4)
LEDs: Power (white & amber), Internet (white & amber)
LEDs: 2.4G (White), 5Ghz (White)
Buttons: WPS, Reset
MAC Table
Label xx:xx:xx:xx:xx:EB
LAN xx:xx:xx:xx:xx:EB
2.4Ghz xx:xx:xx:xx:xx:EC
5Ghz xx:xx:xx:xx:xx:ED
WAN xx:xx:xx:xx:xx:EE
Flash instructions:
D-Link normal OEM firmware update page
1. upload OpenWRT factory.bin like any D-Link upgrade image
D-Link Recovery GUI:
1. Push and hold reset button (on the bottom of the device) until power led starts flashing (about 10 secs or so) while plugging in the power cable.
2. Give it ~30 seconds, to boot the recovery mode GUI
3. Connect your client computer to LAN1 of the device
4. Set your client IP address manually to 192.168.0.2 / 255.255.255.0
5. Call the recovery page for the device at http://192.168.0.1/
6. Use the provided emergency web GUI to upload the recovery.bin to the device
Firefox on Windows in a Private Window (incognito) works me
Internet Explorer mode in Microsoft Edge works for others
seems to not work in Linux or virtual machine on Linux for most
some see success using 'curl -v -i -F "firmware=@file.bin" 192.168.0.1'
Thanks to @frkca and @rodneyrod for testing and pushing for its creation
Signed-off-by: Alan Luck <luckyhome2008@gmail.com>
Rename from mt7621_dlink_dir-xx60-a1.dtsi to mt7621_dlink_dir_nand_128m.dtsi
and associated group name when creating the mt7621.mk image
Co-authored-by: Alan Luck <luckyhome2008@gmail.com>
Signed-off-by: Mieczyslaw Nalewaj <namiltd@yahoo.com>
This adds support for the A1 hardware revision of the DIR-3040.
It is an exact copy of the DIR-3060 save for some cosmetic changes to the housing.
Even going so far as having the same FCC ID.
Hardware specification:
SoC: MediaTek MT7621AT
Flash: Winbond W29N01HVSINA 128MB
RAM: Micron MT41K128M16JT-125 256MB
Ethernet: 5x 10/100/1000 Mbps
WiFi1: MT7615DN 2.4GHz N 2x2:2
WiFi2: MT7615DN 5GHz AC 2x2:2
WiFi3: MT7615N 5GHz AC 4x4:4
Button: WPS, Reset
Flash instructions:
OpenWrt can be installed via D-Link Recovery GUI:
NOTE: Seems to only work in Firefox on Windows.
Tried with Chrome on Windows, Firefox in Linux, and Chromium in Linux.
None of these other browsers worked.
1. Push and hold reset button (on the bottom of the device) until power led
starts flashing (about 10 secs or so) while plugging in the power cable.
2. Give it ~30 seconds, to boot the recovery mode GUI
3. Connect your client computer to LAN1 of the device
4. Set your client IP address manually to 192.168.0.2 / 255.255.255.0.
5. Call the recovery page for the device at http://192.168.0.1/
6. Use the provided emergency web GUI to upload and flash a new firmware to the device
Thanks to @Lucky1openwrt and @iivailo for creating the DIR-3060 DTS file and related changes,
so it was possible for me to adapt them to the DIR-3040, build images,
test and fix minor issues.
MAC Addresses:
| use | address | example |
| --- | --- | --- |
| LAN | label | f4:*:61 |
| WAN | label + 4 | f4:*:65 |
| WI1/2g | label + 2 | f4:*:63 |
| WI1/5g | label + 1 | f4:*:62 |
| WI2/5g | label + 3 | f4:*:64 |
The label MAC address was found in Factory, 0xe000
Checklist:
✓ nand
✓ ethernet
✓ button
✓ wifi2g
✓ wifi5g
✓ wifi5g
✓ mac
✓ led
Signed-off-by: Vince McKinsey <vincemckinsey@gmail.com>
TP-Link EC220-G5 v2 is a dual band router with 4 GbE ports
Advertised as AC1200 for its 867Mbps (2x2) 5GHz band
and 300 Mbps (2x2) 2.4GHz band.
Specs:
- SoC: MediaTek MT7620A
- Ethernet: 4x GbE ports (Realtek RTL8367S)
- Wireless 2.4GHz: MediaTek MT7620A
- Wireless 5GHz: MediaTek MT7612E
- RAM: 64MiB
- ROM: 8MiB (W25Q64BV)
- 2 Buttons (WPS and reset)
- 7 LEDs
Flash instructions via serial console:
1. Rename the factory.bin to to test.bin
2. start a TFTP server from IP address 192.168.0.225 and serve the image named test.bin
3. connect your device to the LAN port
4. power up the router and press 4 on the console to stop the boot process.
5. enter the following commands on the router console
tftp 0x80060000 test.bin
erase tplink 0x20000 0x7a0000
cp.b 0x80060000 0x20000 0x7a0000
reset
Flash instructions via TFTP:
1. Update orginal firmware of the router to the latest one.
2. Rename openwrt-ramips-mt7620-tplink_ec220-g5-v2-squashfs-tftp-recovery.bin to tp_recovery.bin
3. Change computer IP to 192.168.0.66
4. Run TFTP serwer
5. Start the router with the reset button pressed, the file will be automatically downloaded and after a while the router will restart.
6. After updating, set your computer's IP to DHCP
Signed-off-by: Mieczyslaw Nalewaj <namiltd@yahoo.com>
TP-Link RE205 v3 is a wireless range extender with Ethernet and 2.4G and 5G
WiFi with external antennas.
It's based on MediaTek MT7628AN+MT7610EN like the RE200 v3/v4 but with
external antennas.
Specifications
--------------
- MediaTek MT7628AN (580 Mhz)
- 64 MB of RAM
- 8 MB of FLASH
- 2T2R 2.4 GHz and 1T1R 5 GHz
- 1x 10/100 Mbps Ethernet
- 5x LED (GPIO-controlled), 2x button
- UART connection holes on PCB (57600 8n1)
There are 2.4G and 5G LEDs in blue which are controlled separately.
Installation
------------
Installation is identical to RE200 v3 devices as described at
https://openwrt.org/toh/tp-link/re200#installation
Web Interface
-------------
It is possible to upgrade to OpenWrt via the web interface. Simply flash
the -factory.bin from OEM. In contrast to a stock firmware, this will not
overwrite U-Boot.
Recovery
--------
U-Boot seems to be locked on newer versions, if not it can be accessed over
the UART as described in the link above.
Signed-off-by: Steffen Loley <slo-src@web.de>
With kernel 6.1 image size is too large for Edgerouter X current size
limit and is causing the buildbots to fail building so images for other
devices are not updated as well.
So, disable building Edgerouter X images until a workaround is found.
Signed-off-by: Robert Marko <robimarko@gmail.com>
This commit adds support for Z-ROUTER ZR-2660 (also known as Routerich
AX1800) wireless WiFi 6 router.
Specification
-------------
- SoC : MediaTek MT7621AT, MIPS, 880 MHz
- RAM : 256 MiB
- Flash : NAND 128 MiB (AMD/Spansion S34ML01G2)
- WLAN :
- 2.4 GHz : MediaTek MT7905D/MT7975 (14c3:7916), b/g/n/ax, MIMO 2x2
- 5 GHz : MediaTek MT7915E (14c3:7915), a/n/ac/ax, MIMO 2x2
- Ethernet : 10/100/1000 Mbps x4 (1x WAN, 3x LAN)
- USB : 1x 2.0
- UART : 3.3V, 115200n8, pins are silkscreened on the pcb
- Buttons : 1x Reset
- LEDs : 1x WiFi 2.4 GHz (green)
1x WiFi 5 GHz (green)
1x LAN (green)
1x WAN (green)
1x WAN no-internet (red)
- Power : 12 VDC, 1 A
Installation
------------
1. Run tftp server on your PC (IP: 192.168.2.2) and put OpenWrt initramfs
image (initramfs.bin) to the tftp root dir
2. Open the following link in the browser to enable telnet:
http://192.168.2.1/cgi-bin/telnet_ssh
3. Connect to the router (default IP: 192.168.2.1) using telnet shell
(credentials - user:admin)
4. Run the following commands in the telnet shell (this will install
OpenWrt initramfs image on nand flash):
cd /tmp
tftp -g -r initramfs.bin 192.168.2.2
mtd write initramfs.bin firmware
mtd erase firmware_backup
reboot
5. Copy OpenWrt sysupgrade image (sysupgrade.bin) to the /tmp dir of the
router
6. Connect to the router (IP: 192.168.1.1) using ssh shell and run
sysupgrade command:
sysupgrade -n /tmp/sysupgrade.bin
Return to stock
---------------
1. Copy stock firmware (stock.bin) to the /tmp dir of the router using scp
2. Run following command in the router shell:
cd /tmp
mtd write stock.bin firmware
reboot
Recovery
--------
Connect uart (pins are silkscreened on the pcb), interrupt boot process by
pressing any key, use u-boot menu to flash stock firmware image or OpenWrt
initramfs image.
MAC addresses
-------------
+---------+-------------------+-----------+
| | MAC | Algorithm |
+---------+-------------------+-----------+
| LAN | 24:0f:5e:xx:xx:4c | label |
| WAN | 24:0f:5e:xx:xx:4d | label+1 |
| WLAN 2g | 24:0f:5e:xx:xx:4e | label+2 |
| WLAN 5g | 24:0f:5e:xx:xx:4f | label+3 |
+---------+-------------------+-----------+
The WLAN 2.4 MAC was found in 'factory', 0x4
The LAN MAC was found in 'factory', 0xfff4
The WAN MAC was found in 'factory', 0xfffa
Signed-off-by: Mikhail Zhilkin <csharper2005@gmail.com>
The YunCore G720 is a dual band 802.11ax router with 5 GbE ports.
Specs:
- SoC: MediaTek MT7621
- Ethernet: 5x GbE ports (built-in MT7530)
- Wireless 2.4GHz / 5GHz: MediaTek MT7915E
- RAM: 256MiB
- ROM: 16MiB (W25Q128)
- 1 Button (reset)
- 8 LEDs (1x system, 2x wifi, 5x switch ports)
Flash instructions:
The vendor firmware is based on OpenWrt, the sysupgrade image can be
flashed using the '-F' (force) option on the CLI.
Make sure not to keep settings when doing so.
Signed-off-by: Daniel Golle <daniel@makrotopia.org>
* Increase flash SPI frequency to 50MHz
The maximum SPI frequency of MX25L6406EM2I is 86 MHz,
but in this patch 50 MHz was chosen as a safe value.
* Update Ethernet MAC addresses
Till now LAN/WAN MAC addresses were flipped
compared to stock firmware.
* Fix Wi-Fi LEDs by adding mt76 led nodes
* Fix LAN port order
LAN ports are in reverse order of switch ports.
* Fix the well-known "LZMA ERROR 1" error by using lzma-loader
* Set uImage name, which enables installation via stock web interface:
1. Upload **initramfs** image file to the web page.
2. Boot into OpenWrt and perform sysupgrade with sysupgrade image.
Signed-off-by: Sungbo Eo <mans0n@gorani.run>
Unlike the recovery image, this initramfs-factory image can be flashed
using the stock firmware web interface (from any active boot partition),
as well as the bootloader recovery web page. Drop the recovery image in
favor of the factory image.
Installation via stock/recovery web interface:
1. Flash **initramfs-factory** image through the web page.
2. Boot into OpenWrt and perform sysupgrade with sysupgrade image.
Signed-off-by: Sungbo Eo <mans0n@gorani.run>
The "0x80001000" address logically comes from "loadaddr-y" variable for
mt7621 subtarget. Let's replace the hardcoded value with the predefined
variable. This change is purely cosmetic.
Signed-off-by: Sungbo Eo <mans0n@gorani.run>
Contrary to common ipTIME NOR devices, the "Config" partition of T5004
and AX2004M contain normal U-Boot environment variables. Renaming the
partition into "u-boot-env" serves for better description, and it also
conforms to common naming practice in OpenWrt.
This patch might also be extended to A3004T, but its u-boot-env
partition layout has not been confirmed yet.
Signed-off-by: Sungbo Eo <mans0n@gorani.run>
AX2004M uses NMBM on its NAND flash, but it was not enabled in DTS as the
device support [1] had been added before NMBM feature in mtk_bmt driver [2].
Let's enable it now.
With this change, there is a low possibility of boot failure after
sysupgrade from older versions. As AX2004M already has gone through
two stable releases in the meantime, it would be safe to warn users
by bumping DEVICE_COMPAT_VERSION.
[1] 37753f34ac ("ramips: add support for ipTIME AX2004M")
[2] 06382d1af7 ("kernel: add support for mediatek NMBM flash mapping support")
Signed-off-by: Sungbo Eo <mans0n@gorani.run>
TP-Link Archer C5 v4 is a dual band router with 5 GbE ports
Advertised as AC1200 for its 867Mbps (2x2) 5GHz band
and 300 Mbps (2x2) 2.4GHz band.
Specs:
- SoC: MediaTek MT7620A
- Ethernet: 5x GbE ports (Realtek RTL8367S)
- Wireless 2.4GHz: MediaTek MT7620A
- Wireless 5GHz: MediaTek MT7612E
- RAM: 64MiB
- ROM: 8MiB (GD25Q64CSIG)
- 1 USB 2.0 port
- 2 Buttons (WPS and reset)
- 8 LEDs
Flash instructions:
Currently one has to install OpenWrt only via the serial console
1. Rename the factory.bin to to test.bin
2. start a TFTP server from IP address 192.168.0.225 and serve the image named test.bin
3. connect your device to the LAN port
4. power up the router and press 4 on the console to stop the boot process.
5. enter the following commands on the router console
tftp 0x80060000 test.bin
erase tplink 0x20000 0x7a0000
cp.b 0x80060000 0x20000 0x7a0000
reset
Signed-off-by: DENG Qingfang <dengqf6@mail2.sysu.edu.cn>
[Update leds, add fast-read]
Signed-off-by: Gaspare Bruno <gaspare@anlix.io>
[Rebuilt version based on mt7620 tplink_archer.dtsi, support for external LNA, remove bad cell count info]
Signed-off-by: Mieczyslaw Nalewaj <namiltd@yahoo.com>
The U-Boot binary for the RAVPower RP-WD009 has been renamed.
In order to be uniform with all other U-Boot binaries generated the SoC type has been prepended.
Set that new name also in the image build recipe for that device in order to fix build.
Fixes: 927334a8f7 ("uboot-mediatek: add basic build for ZBT-WG3526 (MT7621, 16M SPI-NOR)")
Signed-off-by: Daniel Golle <daniel@makrotopia.org>
TP-Link RE365 is a wireless range extender, hardware-wise resembles
RE305 with slight changes regarding buttons and LEDs.
Specification
SoC: MediaTek MT7628AN
RAM: 64 MiB DDR2
Flash: 8 MiB SPI NOR
WiFi: 2.4 GHz 2T2R integrated
5 GHz 2T2R MediaTek MT7612EN conncted to PCIe lanes
Ethernet: 1x 10/100 Mbps integrated
LEDs: 6x GPIO controlled
Buttons: 4x GPIO controlled
UART: row of 4 holes marked on PCB as J1, starting count from white
triangle
1. VCC (3.3V), 2. GND, 3. RX, 4. TX
baud: 57600, parity: none, flow control: none
Installation
1. Open web management interface.
2. Go to Settings > System Tools > Firmware upgrade.
3. Select "Browse" and select the OpenWrt image with factory.bin suffix.
4. After selecting "Upgrade" firmware writing process will start.
5. Wait till device reboots, power LED should stay solid when it's fully
booted, then it's ready for configuration through LAN port.
Additional information
With how device manufacturer patrtitioned the flash memory, it's possible
that with default packages set, initial factory.bin image won't be
created. In such case, try to reduce packages amount or use older release
for initial conversion to OpenWrt. Later You can use sysupgrade.bin
image with full set of packages because OpenWrt uses unpartitioned flash
memory space unused by vendor firmware.
Reverting to vendor firmware involves converting firmware using
tplink-safeloader with -z option (can be found in ImageBuilder or SDK)
and forcibly applying converted firmware as sysupgrade.
Known issues
WARNING: after removing casing of the device one is exposed to high
voltage and is in a risk of being electrocuted.
Caution when interfacing whith bootloader, saving its environment either
by issuing "saveenv" or selecting option "1: Load system code to SDRAM
via TFTP." in boot menu, any of those will lead to overwriting part of
kernel. This will lead to need of firmware recovery. The cause of this
issue is bootloader having environment offset on flash at 0x40000,
while kernel starts from 0x20000.
Signed-off-by: Tomasz Maciej Nowak <tmn505@gmail.com>
[Wrap long line in DTS]
Signed-off-by: Sander Vanheule <sander@svanheule.net>
The rt305x series SOC have two UART devices,
and the one at bus address 0x500 is disabled by default.
Some boards do not even have a pinout for the first one,
so use the same one that the kernel uses at 0xc00 instead.
This allows the lzma-loader printing to be visible
alongside the kernel log in the same console.
Tested-by: Lech Perczak <lech.perczak@gmail.com> # zte,mf283plus
Signed-off-by: Michael Pratt <mcpratt@pm.me>
Before this was reworked, in the file for mt7621 subtarget
(target/linux/ramips/image/lzma-loader/src/board-mt7621.c)
the "Transmitter shift register empty" bit TEMT was used instead of
the "Transmitter holding register empty" bit THRE,
but after the rework, this value was labeled as the THRE bit instead.
Functionally there is no difference, but this is confusing to read,
as it suggests that the subtargets have different bits for the same
register in UART when in reality they are exactly the same.
One can use either bit, or both, at user's descretion
in order to determine whether the UART TX buffer is ready.
The generic kernel early-printk uses both,
(arch/mips/kernel/early_printk_8250.c)
while the ralink-specific early-printk uses only THRE,
(arch/mips/ralink/early_printk.c).
Define both bits and rewrite macros for readability,
keep the same values, as changing which to use should be tested first.
Ref: c31319b66 ("ramips: lzma-loader: Refactor loader")
Signed-off-by: Michael Pratt <mcpratt@pm.me>
The native bus address for UART was entered for rt305x UART_BASE,
but the bootloaders have memory space remapped with the same
virtual memory map the kernel uses for program addressing at boot time.
In UBoot, the remapped address is often defined as TEXT_BASE.
In the kernel, for rt305x this remapped address is RT305X_SYSC_BASE.
(arch/mips/include/asm/mach-ralink/rt305x.h)
Because the ralink I/O busses begin at a low address of 0x10000000,
they are remapped using KSEG0 or KSEG1, which for all 32-bit MIPS SOCs
(arch/mips/include/asm/addrspace.h)
are offsets of 0x80000000 and 0xa0000000 respectively.
This is consistent with the other UART_BASE macros here
and with MIPS memory map documentation.
Before the recent rework of the lzma-loader for ramips,
the original board-$(PLATFORM).c files also did not
use KSEG1ADDR for UART_BASE despite being defined,
which made this mistake easier to occur.
Fix this by defining KSEG1ADDR again and actually use it.
Copy and paste from the kernel's macros for consistency.
Link: https://training.mips.com/basic_mips/PDF/Memory_Map.pdf
Fixes: c31319b66 ("ramips: lzma-loader: Refactor loader")
Reported-by: Lech Perczak <lech.perczak@gmail.com>
Signed-off-by: Michael Pratt <mcpratt@pm.me>
Seems to be very similar to: https://openwrt.org/toh/tp-link/tl-wr902ac_v3
1 x usb
1 x eth
Powered by mini usb port.
Installation:
Can use TFTP method to install:
1. establish TFTP server at 192.168.0.66
2. provide tp_recover.bin file to the TFTP server
3. turn on router with reset button pressed
4. wait for led blinking, then release reset
Specification based on dmesg from already flashed device:
SoC Type: MediaTek MT7628AN ver:1 eco:2
CPU0 revision is: 00019655 (MIPS 24KEc)
Memory: 56028K/65536K available
CPU Clock: 580MHz
WiFi: MT7613BE
MAC addresses are all the same, except wifi5g which last part is decrement by one, ie.:
eth0 40:ed:00:cf:b9:9b
br-lan 40:ed:00:cf:b9:9b
phy0-ap0 40:ed:00:cf:b9:9b
phy1-ap0 40:ed:00:cf:b9:9a
Signed-off-by: Kamil Jońca <kjonca@onet.pl>
Rostelecom RT-FE-1A is a wireless WiFi 5 router manufactured by Sercomm
company.
Device specification
--------------------
SoC Type: MediaTek MT7621AT
RAM: 256 MiB
Flash: 128 MiB
Wireless 2.4 GHz (MT7603EN): b/g/n, 2x2
Wireless 5 GHz (MT7615E): a/n/ac, 4x4
Ethernet: 5x GbE (WAN, LAN1, LAN2, LAN3, LAN4)
USB ports: No
Button: 2 buttons (Reset & WPS)
LEDs:
- 1x Power (green, unmanaged)
- 1x Status (green, gpio)
- 1x 2.4G (green, hardware, mt76-phy0)
- 1x 2.4G (blue, gpio)
- 1x 5G (green, hardware, mt76-phy1)
- 1x 5G (blue, gpio)
- 5x Ethernet (green, hardware, 4x LAN & WAN)
Power: 12 VDC, 1.5 A
Connector type: barrel
Bootloader: U-Boot
Installation
-----------------
1. Login to the router web interface (default http://192.168.0.1/)
under "admin" account
2. Navigate to Settings -> Configuration -> Save to Computer
3. Decode the configuration. For example, using cfgtool.py tool (see
related section):
cfgtool.py -u configurationBackup.cfg
4. Open configurationBackup.xml and find the following block:
<OBJECT name="User." type="object" writable="1" encryption="0" >
<OBJECT name="1." type="object" writable="1" encryption="0" >
<PARAMETER name="Password" type="string" value="<some value>" writable="1" encryption="1" password="1" />
</OBJECT>
5. Replace <some value> by a new superadmin password and add a line
which enabling superadmin login after. For example, the block after
the changes:
<OBJECT name="User." type="object" writable="1" encryption="0" >
<OBJECT name="1." type="object" writable="1" encryption="0" >
<PARAMETER name="Password" type="string" value="s0meP@ss" writable="1" encryption="1" password="1" />
<PARAMETER name="Enable" type="boolean" value="1" writable="1" encryption="0"/>
</OBJECT>
6. Encode the configuration. For example, using cfgtool.py tool:
cfgtool.py -p configurationBackup.xml
7. Upload the changed configuration (configurationBackup_changed.cfg) to
the router
8. Login to the router web interface (superadmin:xxxxxxxxxx, where
xxxxxxxxxx is a new password from the p.5)
9. Enable SSH access to the router (Settings -> Access control -> SSH)
10. Connect to the router using SSH shell using superadmin account
11. Run in SSH shell:
sh
12. Make a mtd backup (optional, see related section)
13. Change bootflag to Sercomm1 and reboot:
printf 1 | dd bs=1 seek=7 count=1 of=/dev/mtdblock3
reboot
14. Login to the router web interface under admin account
15. Remove dots from the OpenWrt factory image filename
16. Update firmware via web using OpenWrt factory image
Revert to stock
---------------
Change bootflag to Sercomm1 in OpenWrt CLI and then reboot:
printf 1 | dd bs=1 seek=7 count=1 of=/dev/mtdblock3
mtd backup
----------
1. Set up a tftp server (e.g. tftpd64 for windows)
2. Connect to a router using SSH shell and run the following commands:
cd /tmp
for i in 0 1 2 3 4 5 6 7 8 9; do nanddump -f mtd$i /dev/mtd$i; \
tftp -l mtd$i -p 192.168.0.2; md5sum mtd$i >> mtd.md5; rm mtd$i; done
tftp -l mtd.md5 -p 192.168.0.2
MAC Addresses
-------------
+-----+------------+---------+
| use | address | example |
+-----+------------+---------+
| LAN | label | f4:*:66 |
| WAN | label + 11 | f4:*:71 |
| 2g | label + 2 | f4:*:68 |
| 5g | label + 3 | f4:*:69 |
+-----+------------+---------+
The label MAC address was found in Factory, 0x21000
cfgtool.py
----------
A tool for decoding and encoding Sercomm configs.
Link: https://github.com/r3d5ky/sercomm_cfg_unpacker
Signed-off-by: Mikhail Zhilkin <csharper2005@gmail.com>
Add the make function 'exp_units' for helping evaluate k/m/g size units in
expressions, and use this to consistently replace many ad hoc substitutions
like '$(subst k,* 1024,$(subst m, * 1024k,$(IMAGE_SIZE)))' in makefiles.
Signed-off-by: Tony Ambardar <itugrok@yahoo.com>
This device is very similar, if not identical, to the TP-Link AX23 v1
but is targeted at service providers and features a completely different
flash layout.
Hardware
--------
CPU: MediaTek MT7621 DAT
RAM: 128MB DDR3 (integrated)
FLASH: 16MB SPI-NOR
WiFi: MediaTek MT7905 + MT7975 (2.4 / 5 DBDC) 802.11ax
SERIAL: 115200 8N1
LEDs - (3V3 - GND - RX - TX) - ETH ports
Installation
------------
Flashing is only possible via a serial connection using the sysupgrade
image; the factory image must be signed. You can flash the sysupgrade
image directly through the U-Boot console, or preferably, by booting the
initramfs image and flashing with the sysupgrade command. Follow these
steps for sysupgrade flashing:
1. Establish a UART serial connection.
2. Set up a TFTP server at 192.168.0.2 and copy the initramfs image
there.
3. Power on the device and press any key to interrupt normal boot.
4. Load the initramfs image using tftpboot.
5. Boot with bootm.
6. If you haven't done so already, back up all stock mtd partitions.
7. Copy the sysupgrade image to the router.
8. Flash OpenWrt through either LuCI or the sysupgrade command. Remember
not to attempt saving settings.
Revert to stock firmware
------------------------
Flash stock firmware via OEM web-recovery mode. If you don't have access
to the stock firmware image, you will need to restore the firmware
partition backed up earlier.
Web-Recovery
------------
The router supports an HTTP recovery mode:
1. Turn off the router.
2. Press the reset button and power on the device.
3. When all LEDs start flashing, release reset and quickly press it
again.
The interface is reachable at 192.168.0.1 and supports installation of
the OEM factory image. Note that flashing OpenWrt this way is not
possible, as mentioned above.
Signed-off-by: Darlan Pedro de Campos <darlanpedro@gmail.com>
Specifications:
- SoC: MediaTek MT7621AT
- RAM: 128 MB (DDR3)
- Flash: 16 MB (SPI NOR)
- WiFi: MediaTek MT7603E, MediaTek MT7613BE
- Switch: 1 WAN, 4 LAN (Gigabit)
- Buttons: Reset, WPS
- LEDs: System, Wan, Lan 1-4, WiFi 2.4G, WiFi 5G, WPS
- Power: DC 12V 1A tip positive
Download and flash the manufacturer's built OpenWRT image available at
http://www.cudytech.com/openwrt_software_download
Install the new OpenWRT image via luci (System -> Backup/Flash firmware)
Be sure to NOT keep settings. The force upgrade may need to be checked
due to differences in router naming conventions.
Cudy WR1300 v3 differs from v2 only in swapped WiFi chip PCIe slots. Common
nodes are extracted to .dtsi and new v2 and v3 dts are created.
Cudy WR1300 v2 dts now contains ieee80211-freq-limit and has
eeprom_factory_8000 length fixed.
The same manufacturer's built OpenWRT image is provided for both v2 and v3
devices as a step in installing, but for proper WiFi functionality,
a separate build is required.
Recovery:
- Loads only signed manufacture firmware due to bootloader RSA verification
- serve tftp-recovery image as /recovery.bin on 192.168.1.88/24
- connect to any lan ethernet port
- power on the device while holding the reset button
- wait at least 8 seconds before releasing reset button for image to
download
- See http://www.cudytech.com/newsinfo/547425.html
Signed-off-by: Filip Milivojevic <zekica@gmail.com>
This commit adds support for following wireless routers:
- Rostelecom RT-FL-1 (Serсomm RT-FL-1)
- Rostelecom S1010 (Serсomm S1010.RT)
The devices are almost identical and the only difference is one bit in the
factory image PID (thanks to Maximilian Weinmann <x1@disroot.org>
(@MaxS0niX) for the info and idea to make one PR for two devices at once).
Devices specification
---------------------
SoC: MediaTek MT7620A, MIPS
RAM: 64 MB
Flash: 16 MB SPI NOR
Wireless 2.4: MT7620 (b/g/n, 2x2)
Wireless 5: MT7612EN (a/n/ac, 2x2)
Ethernet: 5xFE (WAN, LAN1-4)
BootLoader: U-Boot
Buttons: 2 (wps, reset)
LEDs: 1 amber and 1 green status GPIO leds
5 green ethernet GPIO leds
1 green GPIO 2.4 GHz WLAN led
1 green PHY 5 GHz WLAN led
1 green unmanaged power led
USB ports: No
Power: 12 VDC, 1 A
Connector: Barrel
OEM easy installation
---------------------
1. Remove all dots from the factory image filename (except the dot
before file extension)
2. Upload and update the firmware via the original web interface
3. Wait until green status led stops blinking (can take several minutes)
4. Login to OpenWrt initramsfs. It's recommended to make a backup of the
mtd partitions at this point.
4. Perform sysupgrade using the following command (or use Luci):
sysupgrade -n sysupgrade.bin
5. Wait until green status les stops blinking (can take several minutes)
6. Mission acomplished
Return to Stock
---------------
Option 1. Restore firmware Slot1 from a backup (firmware2.bin):
cd /tmp
mtd -e Firmware2 write firmware2.bin Firmware2
printf 1 | dd bs=1 seek=$((0x18007)) count=1 of=/dev/mtdblock2
reboot
Option 2. Decrypt, ungzip and split stock firmware image into the parts,
take Slot1 parts (kernel2.bin, rootfs2.bin) and write them:
cd /tmp
mtd -e Kernel2 write kernel2.bin Kernel2
mtd -e RootFS2 write rootfs2.bin RootFS2
printf 1 | dd bs=1 seek=$((0x18007)) count=1 of=/dev/mtdblock2
reboot
More about stock firmware decryption:
Link: https://github.com/Psychotropos/sercomm_fwutils/
Debricking
----------
Use sercomm-recovery tool. You can use "ALL" mtd partition backup as a
recovery image.
Link: https://github.com/danitool/sercomm-recovery
MAC addresses
-------------
+---------+-------------------+-----------+
| | MAC | Algorithm |
+---------+-------------------+-----------+
| label | 48:3e:xx:xx:xx:1e | label |
| LAN | 48:3e:xx:xx:xx:1e | label |
| WAN | 48:3e:xx:xx:xx:28 | label+10 |
| WLAN 2g | 48:3e:xx:xx:xx:20 | label+2 |
| WLAN 5g | 48:3e:xx:xx:xx:24 | label+6 |
+---------+-------------------+-----------+
Co-authored-by: Vadzim Vabishchevich <bestmc2009@gmail.com>
Signed-off-by: Mikhail Zhilkin <csharper2005@gmail.com>
This commit makes a common recipe to set bit in Sercomm factory pid since
this is necessary for several devices (WiFire S1500.nbn, Rostelecom
RT-FL-1) at different offsets.
Signed-off-by: Mikhail Zhilkin <csharper2005@gmail.com>
Three fixes for D-Link DAP-1620 rev B and its twin D-Link DRA-1360:
1. `uboot-envtools` is removed from default package list.
2. Makefile variable is doubly escaped, i.e. `$$$$(DLINK_HWID)`.
3. Previously the size of `factory.bin` was always 10.5 MiB, same as
D-Link firmwares. This commit makes it possible to use smaller images
(with no lost space due to padding) as well as larger images. Tested
successfully flashing a 6.5 MiB image and a 14.5 MiB image.
Recall that factory images need to be installed via D-Link Web Recovery
(at http://192.168.0.50/, server ignores pings and DHCP requests).
P.S.
I implemented the OEM firmware encryption algorithm, so firmware can be
flashed via OEM firmware, but after successful flashing the device
reboots to web recovery, so further debugging is required.
Signed-off-by: Rani Hod <rani.hod@gmail.com>
This adds support for the TP-Link Archer C50 v6 (CA/EU/RU).
(The ES variant is a rebranded Archer C54 and NOT supported.)
CPU: MediaTek MT7628 (580MHz)
RAM: 64M DDR2
FLASH: 8M SPI
WiFi: 2.4GHz 2x2 MT7628 b/g/n integrated
WiFi: 5GHz 2x2 MT7613 a/n/ac
ETH: 1x WAN 4x LAN
LED: Power, WiFi2, WiFi5, LAN, WAN, WPS
BTN: WPS/WiFi, RESET
UART: Near ETH ports, 115200 8n1, TP-Link pinout
Create Factory image
--------------------
As all installation methods require a U-Boot to be integrated into the
image (and we do not ship one with the image). We are not able to create
an image in the OpenWRT build-process.
Download a TP-Link image for your device variant (CA/EU or RU) from their
website and a OpenWRT sysupgrade image for the device
and build yourself a factory image like following:
TP-Link image: tpl.bin
OpenWRT sysupgrade image: owrt.bin
> dd if=tpl.bin of=boot.bin bs=131584 count=1
> cat owrt.bin >> boot.bin
Installing via Web-UI
---------------------
Upload the boot.bin via TP-Links firmware upgrade tool in the
web-interface.
Installing via Recovery
-----------------------
Activate Web-Recovery by beginning the upgrade Process with a
Firmware-Image from TP-Link. After starting the Firmware Upgrade,
wait ~3 seconds (When update status is switching to 0%), then
disconnect the power supply from the device. Upgrade flag (which
activates Web-Recovery) is written before the OS-image is touched and
removed after write is succesfull, so this procedure should be safe.
Plug the power back in. It will come up in Recovery-Mode on 192.168.0.1.
When active, all LEDs but the WPS LED are off.
Remeber to assign yourself a static IP-address as DHCP is not active in
this mode.
The boot.bin can now be uploaded and flashed using the web-recovery.
Installing via TFTP
-------------------
Prepare an image like following (Filenames from factory image steps
apply here)
> dd if=/dev/zero of=tp_recovery.bin bs=196608 count=1
> dd if=tpl.bin of=tmp.bin bs=131584 count=1
> dd if=tmp.bin of=boot.bin bs=512 skip=1
> cat boot.bin >> tp_recovery.bin
> cat owrt.bin >> tp_recovery.bin
Place tp_recovery.bin in root directory of TFTP server and listen on
192.168.0.66/24.
Connect router LAN ports with your computer and power up the router
while pressing the reset button. The router will download the image via
tftp and after ~1 Minute reboot into OpenWRT.
U-Boot CLI
----------
U-Boot CLI can be activated by holding down '4' on bootup.
Dual U-Boot
-----------
This is the first TP-Link MediaTek device to feature a split-uboot
design. The first (factory-uboot) provides recovery via TFTP and HTTP,
jumping straight into the second (firmware-uboot) if no recovery needs
to be performed. The firmware-uboot unpacks and executed the kernel.
Web-Recovery
------------
TP-Link integrated a new Web-Recovery like the one on the Archer C7v4 /
TL-WR1043v5. Stock-firmware sets a flag in the "romfile" partition
before beginning to write and removes it afterwards. If the router boots
with this flag set, bootloader will automatically start Web-recovery and
listens on 192.168.0.1. This way, the vendor-firmware or an OpenWRT
factory image can be written.
By doing the same while performing sysupgrade, we can take advantage of
the Web-recovery in OpenWRT.
It is important to note that Web-Recovery is only based on this flag. It
can't detect e.g. a crashing kernel or other means. Once activated it
won't boot the OS before a recovery action (either via TFTP or HTTP) is
performed. This recovery-mode is indicated by an illuminated WPS-LED on
boot.
Co-authored-by: Julius Schwartzenberg <julius.schwartzenberg@gmail.com>
Signed-off-by: Renaud Gaspard <gaspardrenaud@hotmail.com>
Signed-off-by: Julius Schwartzenberg <julius.schwartzenberg@gmail.com>
Tested-by: Julius Schwartzenberg <julius.schwartzenberg@gmail.com>
Tested-by: Jaroslav Mikulík <byczech@gmail.com>
Tested-by: Ashipa Eko <ashipa.eko@gmail.com>
The COVR-X1860 are MT7621-based AX1800 devices (similar to DAP-X1860, but
with two Ethernet ports and external power supply) that are sold in sets
of two (COVR-X1862) and three (COVR-X1863).
Specification:
- MT7621
- MT7915 + MT7975 2x2 802.11ax (DBDC)
- 256MB RAM
- 128 MB flash
- 3 LEDs (red, orange, white), routed to one indicator in the top of the device
- 2 buttons (WPS in the back and Reset at the bottom of the device)
MAC addresses:
- LAN MAC (printed on the device) is stored in config2 partition as ASCII (entry factory_mac=xx:xx:xx:xx:xx:xx)
- WAN MAC: LAN MAC + 3
- 2.4G MAC: LAN MAC + 1
- 5G MAC: LAN MAC + 2
The pins for the serial console are already labeled on the board (VCC, TX, RX, GND). Serial settings: 3.3V, 115200,8n1
Flashing via OEM Web Interface:
- Download openwrt-ramips-mt7621-dlink_covr-x1860-a1-squashfs-factory.bin via the OEM web interface firmware update
- The configuration wizard can be skipped by directly going to http://192.168.0.1/UpdateFirmware_Simple.html
Flashing via Recovery Web Interface:
- Set your IP address to 192.168.0.10, subnetmask 255.255.255.0
- Press the reset button while powering on the deivce
- Keep the reset button pressed until the status LED blinks red
- Open a Chromium based browser and goto http://192.168.0.1
- Download openwrt-ramips-mt7621-dlink_covr-x1860-a1-squashfs-recovery.bin
Revert back to stock using the Recovery Web Interface:
- Set your IP address to 192.168.0.10, subnetmask 255.255.255.25
- Press the reset button while powering on the deivce
- Keep the reset button pressed until the status LED blinks red
- Open a Chromium based browser and goto http://192.168.0.1
- Flash a decrypted firmware image from D-Link. Decrypting an firmware image is described below.
Decrypting a D-Link firmware image:
- Download https://github.com/openwrt/firmware-utils/blob/master/src/dlink-sge-image.c and https://raw.githubusercontent.com/openwrt/firmware-utils/master/src/dlink-sge-image.h
- Compile a binary from the downloaded file, e.g. gcc dlink-sge-image.c -lcrypto -o dlink-sge-image
- Run ./dlink-sge-image COVR-X1860 <OriginalFirmware> <OutputFile> -d
- Example for firmware 102b01: ./dlink-sge-image COVR-X1860 COVR-X1860_RevA_Firmware_102b01.bin COVR-X1860_RevA_Firmware_102b01_Decrypted.bin -d
The pull request is based on the discussion in https://forum.openwrt.org/t/add-support-for-d-link-covr-x1860
Signed-off-by: Sebastian Schaper <openwrt@sebastianschaper.net>
Signed-off-by: Roland Reinl <reinlroland+github@gmail.com>
This fixes a well known "LZMA ERROR 1" error on Sercomm NA502,
reported on the OpenWrt forum. [1]
[1]: https://forum.openwrt.org/t/176942
Signed-off-by: Szabolcs Hubai <szab.hu@gmail.com>
creates SGE encrypted factory images
to use via the D-Link web interface
rename the old factory unencrypted images to recovery
for use in the recovery console when recovery is needed
DIR-1935-A1 , DIR-853-A1 , DIR-853-A3 , DIR-867-A1 ,
DIR-878-A1 and DIR-882-A1
Signed-off-by: Alan Luck <luckyhome2008@gmail.com>
Hardware:
- SoC: Mediatek MT7621 (MT7621AT)
- Flash: 32 MiB SPI-NOR (Macronix MX25L25635E)
- RAM: 128 MiB
- Ethernet: Built-in, 2 x 1GbE
- 3G/4G Modem: MEIG SLM828 (currently only supported with ModemManager)
- SLIC: Si32185 (unsupported)
- Power: 12V via barrel connector
- Wifi 2.4GHz: Mediatek MT7603BE 802.11b/g/b
- Wifi 5GHz: Mediatek MT7613BE 802.11ac/n/a
- LEDs: 8x (7 controllable)
- Buttons: 2x (RESET, WPS)
Installing OpenWrt:
- sysupgrade image is compatible with vendor firmware.
Recovery:
- Connect to any of the Ethernet ports, configure local IP:
10.10.10.3/24 (or 192.168.10.19/24, depending on OEM)
- Provide firmware file named 'mt7621.img' on TFTP server.
- Hold down both, RESET and WPS, then power on the board.
- Watch network traffic using tcpdump or wireshark in realtime to
observe progress of device requesting firmware. Once download has
completed, release both buttons and wait until firmware comes up.
Signed-off-by: Daniel Golle <daniel@makrotopia.org>
HiWiFi HC5861 has a GbE port which connected to the RTL8211E PHY
chip. This patch adds the missing Realtek PHY driver package and
sets the correct external PHYs base address to make it work again.
Signed-off-by: Shiji Yang <yangshiji66@qq.com>
Telco Electronics X1 has MT7603E and MT7612E PCIe NICs. They are
driven by kmod-mt7603 and kmod-mt76x2.
Ref: 73e0f52b6e ("ramips: add support for Telco Electronics X1")
Signed-off-by: Shiji Yang <yangshiji66@qq.com>
Add support for COMFAST CF-EW72 V2
Hardware:
- SoC: Mediatek MT7621 (MT7621DAT or MT7621AT)
- Flash: 16 MiB NOR
- RAM: 128 MiB
- Ethernet: Built-in, 2 x 1GbE
- Power: only 802.3af PD on any port, injector supplied in the box
- PoE passthrough: No
- Wifi 2.4GHz: Mediatek MT7603BE 802.11b/g/b
- Wifi 5GHz: Mediatek MT7613BEN 802.11ac/n/a
- LEDs: 8x (only 1 is both visible and controllable, see below)
- Buttons: 1x (RESET)
Installing OpenWrt:
Flashing is done using Mediatek U-Boot System Recovery Mode
- make wired connection with 2 cables like this:
- - PC (LAN) <-> PoE Injector (LAN)
- - PoE Injector (POE) <-> CF-EW72 V2 (LAN). Leave unconnected to CF-EW72 V2 yet.
- configure 192.168.1.(2-254)/24 static ip address on your PC LAN
- press and keep pressed RESET button on device
- power the device by plugging PoE Injector (POE) <-> CF-EW72 V2 (LAN) cable
- wait for about 10 seconds until wifi led stops blinking and release RESET button
- navigate from your PC to http://192.168.1.1 and upload OpenWrt *-factory.bin firmware file
- proceed until router starts blinking with wifi led again (flashing) and stops (rebooting to OpenWrt)
MAC addresses as verified by OEM firmware:
vendor OpenWrt address
LAN lan\eth0 label
WAN wan label + 1
2g phy0 label + 2
5g phy1 label + 3
The label MAC address was found in 0xe000.
LEDs detailed:
The only both visible and controllable indicator is blue:wlan LED.
It is not bound by default to indicate activity of any wireless interfaces.
Place (WAN->ANT) | Num | GPIO | LED name (LuCI) | Note
-----------------|-----|-----------------------------------------------------------------------------------------
power | 1 | | | POWER LED. Not controlled with GPIO.
hidden_led_2 | 2 | 13 | blue:hidden_led_2 | This LED does not have proper hole in shell.
wan | 3 | | | WAN LED. Not controlled with GPIO.
hidden_led_4 | 4 | 16 | blue:hidden_led_4 | This LED does not have proper hole in shell.
lan | 5 | | | LAN LED. Not controlled with GPIO.
noconn_led_6 | 6 | | | Not controlled with GPIO, possibly not connected
wlan | 7 | 15 | blue:wlan | WLAN LED. Wireless indicator.
noconn_led_8 | 8 | | | Not controlled with GPIO, possibly not connected
mt76-phy0 and mt76-phy1 leds also exist in OpenWrt, but do not exist on board.
Signed-off-by: Alexey D. Filimonov <alexey@filimonic.net>
This commit removes the padded zeros in the date formatting.
The padded zeros from the date command causes the numbers
to be interpreted as an octal number by printf. Months, days,
and years with the number 08 or 09 raise an error in printf as an
"invalid octal number" and get interpreted as a zero.
Signed-off-by: Max Qian <public@maxqia.com>
ALFA Network AX1800RM (FCC ID: 2AB877621) is a dual-band Wi-Fi 6
(AX1800) router, based on MediaTek MT7621A + MT79x5D platform.
Specifications:
- SOC: MT7621A (880 MHz)
- DRAM: DDR3 256 MiB (Nanya NT5CC128M16JR-EK)
- Flash: 16 MiB SPI NOR (EN25QH128A-104HIP)
- Ethernet: 4x 10/100/1000 Mbps (SOC's built-in switch)
- Wi-Fi: 2x2:2 2.4/5 GHz (MT7905DAN + MT7975DN)
(MT7905DAN doesn't support background DFS scan/BT)
- LED: 6x green, 1x green/red
- Buttons: 2x (reset, WPS)
- Antenna: 4x external, non-detachable omnidirectional
- UART: 1x 4-pin (2.54 mm pitch, J4, not populated)
- Power: 12 V DC/1 A (DC jack)
MAC addresses:
LAN: 00:c0:ca:xx:xx:4e (factory 0x4, +2)
WAN: 00:c0:ca:xx:xx:4f (factory 0x4, +3)
2.4 GHz: 00:c0:ca:xx:xx:4c (factory 0x4, device's label)
5 GHz: 00:c0:ca:xx:xx:4c (factory 0xa)
Flash instructions for web-based U-Boot recovery:
1. Power the device with WPS button pressed and wait around 10 seconds.
2. Setup static IP 192.168.1.2/24 on your PC.
3. Go to 192.168.1.1 in browser and upload 'recovery' image.
The device runs LEDE 17.01 (kernel 4.4.x) based firmware with 'failsafe'
mode available which allows alternative upgrade method:
1. Run device in 'failsafe' mode and change password for default user.
2. SSH to the device, transfer 'sysupgrade' image and perform upgrade
in forced mode, without preserving settings: 'sysupgrade -n -F ...'.
Other notes:
If you own early version of this device, the vendor firmware might
refuse OpenWrt image because of missing custom header. In that case,
ask vendor's customer support for stock firmware without custom header
support/requirement.
Signed-off-by: Piotr Dymacz <pepe2k@gmail.com>
The DRA-1360 rev A is a wall-plug AC1300 repeater.
Hardware is identical (same FCC ID, black case instead of white)
to D-Link DAP-1620 rev B, which is already supported, but a
different model name, revision, and hardware ID are needed.
Thus, the bulk of the DAP-1620 device tree is extracted to a
common dtsi included by the two models' device trees.
Repeating specs and installation instructions from e4c7703:
(note that the RAM size mentioned there was incorrect, oops)
Specs:
- SoC: MT7621AT (880MHz dual-core MIPS1004Kc)
- Memory: 128 MiB RAM, 16 MiB NOR SPI
- WiFi: MT7615DN 2x2 802.11n + 2x2 802.11ac (DBDC)
- Ethernet: 1 RJ45 port 10/100/1000
- Power/status LED: red+green
- LED RSSI bargraph: 2x green, 1x red+green
Installation:
- Keep reset button pressed during plug-in
- Web Recovery Updater is at 192.168.0.50
(pings are ignored, it listens only for http)
- Upload factory.bin, confirm flashing
(seems to work best with Chromium-based browsers)
Revert to OEM firmware:
- tail -c+117 DRA1360A1_FW112B03.bin | \
openssl aes-256-cbc -d -md md5 -out decrypted.bin \
-k c471706398cb147c6619f8a04a18d53e9c17ede8
- flash decrypted.bin via D-Link Web Recovery
Signed-off-by: Rani Hod <rani.hod@gmail.com>
I-O DATA WN-DEAX1800GR is a 2.4/5 GHz band 11ax (Wi-Fi 6) router, based
on MT7621A.
Specification:
- SoC : MediaTek MT7621A
- RAM : DDR3 256 MiB (Nanya NT5CC128M16JR-EK)
- Flash : RAW NAND 128 MiB (Winbond W29N01HVSINF)
- WLAN : 2.4/5 GHz (MediaTek MT7915)
- Ethernet : 5x 10/100/1000 Mbps
- Switch : MT7530 (SoC)
- LEDs/Keys : 6x/3x
- UART : through-hole on PCB (J2)
- assignment: 3.3V, GND, TX, RX from "1" marking
- settings : 115200n8
- Power : 12 VDC, 1 A
Flash instruction using initramfs-factory image:
1. Boot WN-DEAX1800GR normally
2. Access to "http://192.168.0.1/" and open firmware update page
("ファームウェア")
3. Select the OpenWrt initramfs-factory.bin image and click update
("更新") button to perform firmware update
4. On the initramfs image, perform sysupgrade with the
squashfs-sysupgrade.bin image
5. Wait ~120 seconds to complete flashing
Note:
- This device has 2x OS images on the flash storage. In this support,
the first one will be used.
Warning:
- Do not use "saveenv" command on U-Boot CLI.
This device has wrong u-boot-env data. The actual length of individual
env data installed to the device is 0x1000 (4 KiB), but installed
U-Boot requires 0x20000 (128 KiB). So U-Boot determines the data is
invalid. Then, if you perform saving environment data with saveenv on
U-Boot CLI, installed env data will be overwritten with too few
default values without individual values (SSID, password, MAC
addresses, etc...).
MAC addresses:
LAN : 50:41:B9:xx:xx:F4 (Config, ethaddr (text))
WAN : 50:41:B9:xx:xx:F6 (Config, wanaddr (text))
2.4 GHz: 50:41:B9:xx:xx:F4 (Config, rmac (text) / Factory, 0x4 (hex))
5 GHz : 50:41:B9:xx:xx:F5 (none)
Signed-off-by: INAGAKI Hiroshi <musashino.open@gmail.com>
Rename GB-PC1 to GnuBee GB-PC1, and GB-PC2 to GnuBee GB-PC2. Let's not make
naming exceptions because of marketing whims.
Signed-off-by: Arınç ÜNAL <arinc.unal@arinc9.com>
The TP-Link EAP613 v1 is a ceiling-mount 802.11ax access point. It can
be powered via PoE or a DC barrel connector (12V). Connecting to the
UART requires fine soldering and careful manipulation of any soldered
wires.
Device details:
* SoC: MT7621AT
* Flash: 16 MiB SPI NOR
* RAM: 256 MiB DDR3L
* Wi-Fi:
* MT7905DA + MT7975D: 2.4 GHz + 5 GHz (DBDC), 2x2:2
* Two stamped metal antennas (ANT1, ANT2)
* One PCB antenna (ANT3)
* One unpopulated antenna (ANT4)
* Ethernet:
* 1× 10/100/1000 Mbps port with PoE
* LEDs:
* Array of four blue LEDs with one control line
* Buttons:
* Reset
* Board test points:
* UART: next to CPU RF-shield and power circuits
* JTAG: under CPU RF-shield (untested)
* Watchdog: 3PEAK TPV706 (not implemented)
Althought three antennas are populated, the MT7905DA does not support
the additional Rx chain for background DFS detection (or Bluetooth)
according to commit 6cbcc34f50 ("ramips: disable unsupported
background radar detection").
MAC addresses:
* LAN: 48:22:54:xx:xx:a2 (device label)
* WLAN 2.4 GHz: 48:22:54:xx:xx:a2
* WLAN 5 GHz: 48:22:54:xx:xx:a3
The radio calibration blob stored in flash also contains valid MAC
addresses for both radio bands (OUI 00:0c:43).
Factory install:
1. Enable SSH on the device via web interface
2. Log in with SSH, and run `cliclientd stopcs`
3. Upload -factory.bin image via web interface. It may be necessary to
shorten the filename of the image to e.g. 'factory.bin'.
Recovery:
1. Open the device by unscrewing four screws from the backside
2. Carefully remove board from the housing
3. Connect to UART (3.3V):
* Find test points labelled "VCC", "GND", "UART_TX", "UART_RX"
* Solder wires to test points or connect otherwise. Be careful not
to damage the PCB e.g. by pulling on soldered wires.
* Open console with 115200n8 settings
4. Interrupt bootloader and use tftpboot to start an initramfs:
setenv ipaddr $DEVICE_IP
setenv serverip $SERVER_IP
tftpboot 84000000 openwrt-initramfs-kernel.bin
bootm
DO NOT use saveenv to store modified u-boot environment variables. The
environment is saved at flash offset 0x30000, which erases part of the
(secondary) bootloader.
The device uses two bootloader stages. The first stage will load the
second stage from a uImage stored at flash offset 0x10000. In case of
a damaged second stage, the first stage should allow uploading a new
image via y-modem (untested).
Signed-off-by: Sander Vanheule <sander@svanheule.net>
