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379 Commits
Author | SHA1 | Message | Date | |
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Andreas Böhler
|
28bde50c1d |
ath79: add support for KuWFi N650 CPE
The KuWFi N650 is a 5GHz outdoor wireless bridge based on QCA9563.
Specs
=====
CPU: QCA9563, 775MHz
RAM: 128MiB
Flash: 16MiB
Wireless: QCA9888 (5GHz only)
Ethernet: 2x GBit (via QCA8337), 48V passive PoE
Installation
============
From OEM firmware
-----------------
The OEM firmware has telnet enabled by default. If not, it can be enabled
from the firmware web interface. You need a TFTP server on your computer
and the OpenWrt factory image should be available as "n650factory.bin".
It is assumed that your computer has the IP 192.168.1.1 and the N650
192.168.1.20 (default IP address).
1. Connect via Telnet to the device and log in with the default credentials
"admin:admin"
2. Exploit the limited interface by typing "ps & /bin/sh"
3. Press <ENTER> to start the shell
4. Enter the following commands:
$ cd /tmp
$ tftp -r n650factory.bin -g 192.168.1.1
$ cat << EOF > /tmp/openwrt.sh
IMAGE_NAME="\$1"
if [ ! -e \${IMAGE_NAME} ]; then
echo "Image file not found: \${IMAGE_NAME}"
exit 1
fi
. /usr/sbin/common.sh
kill_remaining TERM
sleep 3
kill_remaining KILL
run_ramfs mtd write \${IMAGE_NAME} firmware
sleep 2
reboot -f
EOF
$ chmod +x /tmp/openwrt.sh
$ /tmp/openwrt.sh n650factory.bin
Once the device reboots, it should load OpenWrt.
From UART
---------
UART installation is possible since the serial header is already soldered
on. The pinout is GND - Tx - Rx - VCC from top to bottom (RJ45 ports are
at the bottom). Connect with 115200 8N1.
First, boot OpenWrt from TFTP. Enter the following commands in the U-Boot
shell, assuming your computer has the IP address 192.168.1.1 and a TFTP
server running where the initramfs image is provided as n650.bin:
setenv ipaddr 192.168.1.20
setenv serverip 192.168.1.1
tftpboot 0x84000000 n650.bin
bootm
Once booted, transfer -loader.bin and -sysupgrade.bin images to the device
at /tmp. Enter the following commands, replacing the filenames:
mtd write /tmp/loader.bin loader
sysupgrade /tmp/sysupgrade.bin
Reboot and OpenWrt should load from flash.
Back to Stock
-------------
Back to stock is only possible if you saved a partition backup before
installing OpenWrt. Assuming you have fullbackup.bin covering the whole
flash, you need to prepare the image as follows:
$ dd if=fullbackup.bin of=fwconcat0.bin bs=65536 skip=4 count=212
$ dd if=fullbackup.bin of=loader.bin bs=65536 skip=216 count=1
$ dd if=fullbackup.bin of=fwconcat1.bin bs=65536 skip=217 count=22
$ cat fwconcat0.bin fwconcat1.bin > firmware.bin
Transfer firmware.bin and loader.bin to the OpenWrt device. First, flash
loader.bin to mtd device loader, then force sysupgrade:
$ mtd write loader.bin loader
$ sysupgrade -F firmware.bin
The reason for the two-step process is the way the flash layout is designed
for OpenWrt in contrast to the OEM firmware partition.
Signed-off-by: Andreas Böhler <dev@aboehler.at>
Link: https://github.com/openwrt/openwrt/pull/17089
Link: https://github.com/openwrt/openwrt/pull/17247
Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de>
(cherry picked from commit
|
||
David Lutz
|
2d465fbf57 |
ath79: Add support for Sophos AP15C
The Sophos AP15C uses the same hardware as the AP15, but has a reset button. Based on: commit |
||
Piotr Dymacz
|
861a9dac68 |
ath79: add support for ALFA Network WiFi CampPro Nano Duo
ALFA Network WiFi CampPro Nano Duo is a dual-radio Wi-Fi signal extender (router) in USB dongle form-factor (Type-A plug is used only for power), based on combination of two radio chipsets: Qualcomm QCA9531 (main SOC) and MediaTek MT7610U (connected over USB 2.0 interface). Specifications: - SOC: QCA9531 v2 (650 MHz) - DRAM: DDR2 128 MiB (Nanya NT5TU64M16HG-AC) - Flash: 16 MiB SPI NOR (Macronix MX25L12835F) - Ethernet: 1x 10/100 Mbps Ethernet (QCA9531) - Wi-Fi: 2x2:2 2.4 GHz Wi-Fi 4 (QCA9531) 1x1:1 2.4/5 GHz Wi-Fi 5 (MT7610U) - Antenna: 3x RP-SMA (female) antenna connectors - LED: 1x orange (RJ45, power indicator) 2x green (status + RJ45 activity/link) 1x blue (Wi-Fi 2.4 GHz status) - Button: 1x button (reset) - UART: 1x 4-pin, 2.00 mm pitch header on PCB - Other: external h/w watchdog (EM6324QYSP5B, enabled by default) GPIO-controlled USB power for MT7610U MAC addresses: - LAN: 00:c0:ca:xx:xx:6d (art 0x2, -1) - 2.4 GHz (QCA9531): 00:c0:ca:xx:xx:6e (art 0x2, device's label) - 2.4/5 GHz (MT7610U): 00:c0:ca:xx:xx:6f (from eeprom) Flash instructions: You can use sysupgrade image directly in vendor firmware which is based on LEDE/OpenWrt. Alternatively, you can use web recovery mode in U-Boot: 1. Configure PC with static IP 192.168.1.2/24. 2. Connect PC with RJ45 port, press the reset button, power up device, wait for first blink of status LED (indicates network setup), then keep button for 3 following blinks and release it. 3. Open 192.168.1.1 address in your browser and upload sysupgrade image. Signed-off-by: Piotr Dymacz <pepe2k@gmail.com> |
||
Priit Laes
|
66d2d037ad |
ath79: add support for COMFAST CF-E355AC v2
COMFAST CF-E355AC v2 is a ceiling mount AP with PoE support, based on Qualcomm/Atheros QCA9531 + QCA9886. Short specification: - 1x 10/100 Mbps Ethernet, with PoE support (wan/eth1) - 1x 10/100/1000 Mbps Ethernet, with PoE support (lan/eth0) - 128MB of RAM (DDR2) - 16 MB of FLASH - 2T2R 2.4 GHz, 802.11b/g/n (wlan2g) - 2T2R 5 GHz, 802.11ac/n/a, WAVE 2 (wlan5g) - built-in 4x 3 dBi antennas - output power (max): 500 mW (27 dBm) - 1x RGB LED, 1x button - separate watchdog chip via GPIO (bottom of PCB?) - UART header on PCB with proper labelling Markings on PCB: * R121QH_VER2.1 (silkscreen, bottom) * CF-WA800 (sticker, top) Initial flashing instructions: Original firmware is based on OpenWrt. a) Use sysupgrade image directly in vendor GUI. b) Or via tftp: ipaddr=192.168.1.1 serverip=192.168.1.10 bootfile="firmware.bin" c) Or possibly via u-boot's `httpd` command. MAC-address mapping follows original firmware: * eth1 (wan) is the lowest mac address (art @ 0x0) * eth0 (lan) uses eth1 + 1 (art @ 0x1002) * wlan2g (phy1) uses eth1 + 2 (art @ 0x06) * wlan5g (phy0) uses eth1 + 10 (not present in art) * unused MAC (eth1 + 3) (art @ 0x5006) Art dump (`hexdump /dev/mtd1 |grep ZZZZ`): 0000000 ZZZZ XXXX XXX0 ZZZZ XXXX XXX2 ffff ffff 0001000 0202 ZZZZ XXXX XXX1 0000 0000 0000 0000 0005000 202f bd21 0101 ZZZZ XXXX XXX3 0000 2000 Root access to original firmware (only via UART) can be achieved by making a backup of configuration from web interface. Backup contains whole `/etc` directory... Signed-off-by: Priit Laes <plaes@plaes.org> Link: https://github.com/openwrt/openwrt/pull/16556 Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de> |
||
INAGAKI Hiroshi
|
cba40405f5 |
ath79: add support for NEC Aterm WG1800HP2
NEC Aterm WG1800HP2 is a 2.4/5 GHz band 11ac (Wi-Fi 5) router, based on QCA9558. Specification: - SoC : Qualcomm Atheros QCA9558 - RAM : DDR2 128 MiB (2x Nanya NT5TU32M16DG-AC) - Flash : SPI-NOR 16 MiB (Macronix MX25L12845EMI-10G) - WLAN : 2.4/5 GHz - 2.4 GHz : 3T3R (Qualcomm Atheros QCA9558 (SoC)) - 5 GHz : 3T3R (Qualcomm Atheros QCA9880) - Ethernet : 5x 10/100/1000 Mbps - switch : Atheros AR8327 - LEDs/Keys (GPIO) : 12x/5x - UART : through-hole on PCB - assignment : 3.3V, GND, NC, TX, RX from tri-angle marking - settings : 9600n8 - USB : 1x USB 2.0 Type-A - hub (internal) : NEC uPD720114 - Power : 12 VDC, 1.5 A (Max. 17 W) - Stock OS : NetBSD based Flash instruction using initramfs-factory.bin image (StockFW WebUI): 1. Boot WG1800HP2 with router mode normally 2. Access to the WebUI ("http://aterm.me/" or "http://192.168.0.1/") on the device and open firmware update page ("ファームウェア更新") 3. Select the OpenWrt initramfs-factory.bin image and click update ("更新") button 4. After updating, the device will be rebooted and booted with OpenWrt initramfs image 5. On the initramfs image, upload (or download) uboot.bin and sysupgrade.bin image to the device 6. Replace the bootloader with a uboot.bin image mtd write <uboot.bin image> bootloader 7. Perform sysupgrade with a sysupgrade.bin image sysupgrade <sysupgrade image> 8. Wait ~120 seconds to complete flashing Flash instruction using initramfs-factory.bin image (bootloader CLI): 1. Connect and open serial console 2. Power on WG1800HP2 and interrupt bootloader by ESC key 3. Login to the bootloader CLI with a password "chiron" 4. Start TFTP server by "tftpd" command 5. Upload initramfs-factory.bin via tftp from your computer example (Windows): tftp -i 192.168.0.1 PUT initramfs-factory.bin 6. Boot initramfs image by "boot" command 7. On the initramfs image, back up the stock bootloader and firmware if needed 8. Upload (or download) uboot.bin and sysupgrade.bin image to the device 9. Replace the bootloader with a uboot.bin image 10. Perform sysupgrade with a sysupgrade.bin image 11. Wait ~120 seconds to complete flashing Notes: - All LEDs are connected to the TI TCA6416A (marking: PH416A) I2C Expander chip. - The stock bootloader requires an unknown filesystem on firmware area in the flash. Booting of OpenWrt from that filesystem cannot be handled, so the bootloader needs to be replaced to mainline U-Boot before OpenWrt installation. MAC addresses: LAN : A4:12:42:xx:xx:44 (config, 0x6 (hex)) WAN : A4:12:42:xx:xx:45 (config, 0xc (hex)) 2.4 GHz: A4:12:42:xx:xx:46 (config, 0x0 (hex)) 5 GHz : A4:12:42:xx:xx:47 (config, 0x12 (hex)) Signed-off-by: INAGAKI Hiroshi <musashino.open@gmail.com> Link: https://github.com/openwrt/openwrt/pull/16297 Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de> |
||
INAGAKI Hiroshi
|
de6fa88f05 |
ath79: add support for NEC Aterm WG1800HP
NEC Aterm WG1800HP is a 2.4/5 GHz band 11ac (Wi-Fi 5) router, based on QCA9558. Specification: - SoC : Qualcomm Atheros QCA9558 - RAM : DDR2 128 MiB (2x Nanya NT5TU32M16DG-AC) - Flash : SPI-NOR 16 MiB (Macronix MX25L12845EMI-10G) - WLAN : 2.4/5 GHz - 2.4 GHz : 3T3R (Qualcomm Atheros QCA9558 (SoC)) - 5 GHz : 3T3R (Qualcomm Atheros QCA9880) - Ethernet : 5x 10/100/1000 Mbps - switch : Atheros AR8327 - LEDs/Keys (GPIO) : 12x/5x - UART : through-hole on PCB - assignment : 3.3V, GND, NC, TX, RX from tri-angle marking - settings : 9600n8 - USB : 1x USB 2.0 Type-A - hub (internal) : NEC uPD720114 - Power : 12 VDC, 1.5 A (Max. 17 W) - Stock OS : NetBSD based Flash instruction using initramfs-factory.bin image (StockFW WebUI): 1. Boot WG1800HP with router mode normally 2. Access to the WebUI ("http://aterm.me/" or "http://192.168.0.1/") on the device and open firmware update page ("ファームウェア更新") 3. Downgrade the stock firmware to v1.0.2 4. After downgrading, select the OpenWrt initramfs-factory.bin image and click update ("更新") button 5. After updating, the device will be rebooted and booted with OpenWrt initramfs image 6. On the initramfs image, upload (or download) uboot.bin and sysupgrade.bin image to the device 7. Replace the bootloader with a uboot.bin image mtd write <uboot.bin image> bootloader 8. Perform sysupgrade with a sysupgrade.bin image sysupgrade <sysupgrade image> 9. Wait ~120 seconds to complete flashing Flash instruction using initramfs-factory.bin image (bootloader CLI): 1. Connect and open serial console 2. Power on WG1800HP and interrupt bootloader by ESC key 3. Login to the bootloader CLI with a password "chiron" 4. Start TFTP server by "tftpd" command 5. Upload initramfs-factory.bin via tftp from your computer example (Windows): tftp -i 192.168.0.1 PUT initramfs-factory.bin 6. Boot initramfs image by "boot" command 7. On the initramfs image, back up the stock bootloader and firmware if needed 8. Upload (or download) uboot.bin and sysupgrade.bin image to the device 9. Replace the bootloader with a uboot.bin image 10. Perform sysupgrade with a sysupgrade.bin image 11. Wait ~120 seconds to complete flashing Notes: - All LEDs are connected to the TI TCA6416A (marking: PH416A) I2C Expander chip. - The stock bootloader requires an unknown filesystem on firmware area in the flash. Booting of OpenWrt from that filesystem cannot be handled, so the bootloader needs to be replaced to mainline U-Boot before OpenWrt installation. - The data length of blocks in firmware image will be checked (4M < threshold < 6M) on the stock WebUI on some versions (v1.0.28, v1.0.30(latest), ...), so needs to be downgraded before OpenWrt installation with initramfs-factory image. MAC addresses: LAN : 10:66:82:xx:xx:04 (config, 0x6 (hex)) WAN : 10:66:82:xx:xx:05 (config, 0xc (hex)) 2.4 GHz: 10:66:82:xx:xx:06 (config, 0x0 (hex)) 5 G : 10:66:82:xx:xx:07 (config, 0x12 (hex)) Signed-off-by: INAGAKI Hiroshi <musashino.open@gmail.com> Link: https://github.com/openwrt/openwrt/pull/16297 Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de> |
||
INAGAKI Hiroshi
|
2aed68b75f |
ath79: add support for NEC Aterm WG1400HP
NEC Aterm WG1400HP is a 2.4/5 GHz band 11ac (Wi-Fi 5) router, based on QCA9558. Specification: - SoC : Qualcomm Atheros QCA9558 - RAM : DDR2 128 MiB (2x Nanya NT5TU32M16DG-AC) - Flash : SPI-NOR 16 MiB (Macronix MX25L12845EMI-10G) - WLAN : 2.4/5 GHz - 2.4 GHz : 3T3R (Qualcomm Atheros QCA9558 (SoC)) - 5 GHz : 2T2R (Qualcomm Atheros QCA9882) - Ethernet : 5x 10/100/1000 Mbps - switch : Atheros AR8327 - LEDs/Keys (GPIO) : 12x/5x - UART : through-hole on PCB - assignment : 3.3V, GND, NC, TX, RX from tri-angle marking - settings : 9600n8 - USB : 1x USB 2.0 Type-A - hub (internal) : NEC uPD720114 - Power : 12 VDC, 1.5 A (Max. 17 W) - Stock OS : NetBSD based Flash instruction using initramfs-factory.bin image (StockFW WebUI): 1. Boot WG1400HP with router mode normally 2. Access to the WebUI ("http://aterm.me/" or "http://192.168.0.1/") on the device and open firmware update page ("ファームウェア更新") 3. Select the OpenWrt initramfs-factory.bin image and click update ("更新") button 4. After updating, the device will be rebooted and booted with OpenWrt initramfs image 5. On the initramfs image, upload (or download) uboot.bin and sysupgrade.bin image to the device 6. Replace the bootloader with a uboot.bin image mtd write <uboot.bin image> bootloader 7. Perform sysupgrade with a sysupgrade.bin image sysupgrade <sysupgrade image> 8. Wait ~120 seconds to complete flashing Flash instruction using initramfs-factory.bin image (bootloader CLI): 1. Connect and open serial console 2. Power on WG1400HP and interrupt bootloader by ESC key 3. Login to the bootloader CLI with a password "chiron" 4. Start TFTP server by "tftpd" command 5. Upload initramfs-factory.bin via tftp from your computer example (Windows): tftp -i 192.168.0.1 PUT initramfs-factory.bin 6. Boot initramfs image by "boot" command 7. On the initramfs image, back up the stock bootloader and firmware if needed 8. Upload (or download) uboot.bin and sysupgrade.bin image to the device 9. Replace the bootloader with a uboot.bin image 10. Perform sysupgrade with a sysupgrade.bin image 11. Wait ~120 seconds to complete flashing Notes: - All LEDs are connected to the TI TCA6416A (marking: PH416A) I2C Expander chip. - The stock bootloader requires an unknown filesystem on firmware area in the flash. Booting of OpenWrt from that filesystem cannot be handled, so the bootloader needs to be replaced to mainline U-Boot before OpenWrt installation. MAC addresses: LAN : 10:66:82:xx:xx:20 (config, 0x6 (hex)) WAN : 10:66:82:xx:xx:21 (config, 0xc (hex)) 2.4 GHz: 10:66:82:xx:xx:22 (config, 0x0 (hex)) 5 GHz : 10:66:82:xx:xx:23 (config, 0x12 (hex)) Signed-off-by: INAGAKI Hiroshi <musashino.open@gmail.com> Link: https://github.com/openwrt/openwrt/pull/16297 Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de> |
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Goetz Goerisch
|
3774f3272e |
treewide: rename ZyXEL to Zyxel
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> |
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Martin Blumenstingl
|
fc31261c33 |
ath79: update Sophos AP15 to indicate that it uses an QCA9557 SoC
Device support for Sophos AP15 is based on Sophos AP55(C) and AP100(C). Those other Sophos access points uss a QCA9558 SoC (some of them with one of the three chains on the built-in SoC's wifi disabled) while the AP15 uses a QCA9557 SoC (which only has two chains enabled in the package or silicon). This is mostly cosmetic since QCA9558 and QCA9557 are virtually identical and all differences are automatically detected and/or managed by the ART calibration. Signed-off-by: Martin Blumenstingl <martin.blumenstingl@googlemail.com> Link: https://github.com/openwrt/openwrt/pull/16187 Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de> |
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Martin Blumenstingl
|
b35bb09175 |
ath79: remove 5GHz wifi bits from Sophos AP15
Sophos AP15 only uses the SoC's built-in wifi. There's no external PCIe chipset. Signed-off-by: Martin Blumenstingl <martin.blumenstingl@googlemail.com> Link: https://github.com/openwrt/openwrt/pull/16187 Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de> |
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Marco von Rosenberg
|
f84a9f7dc0 |
ath79: add support for Huawei AP6010DN
Huawei AP6010DN is a dual-band, dual-radio 802.11a/b/g/n 2x2 MIMO enterprise access point with one Gigabit Ethernet port and PoE support. Hardware highlights: - CPU: AR9344 SoC at 480MHz - RAM: 128MB DDR2 - Flash: 32MB SPI-NOR - Wi-Fi 2.4GHz: AR9344-internal radio - Wi-Fi 5GHz: AR9580 PCIe WLAN SoC - Ethernet: 10/100/1000 Mbps Ethernet through Atheros AR8035 PHY - PoE: yes - Standalone 12V/2A power input - Serial console externally available through RJ45 port - External watchdog: CAT706SVI (1.6s timeout) Serial console: 9600n8 (9600 baud, no stop bits, no parity, 8 data bits) MAC addresses: Each device has 32 consecutive MAC addresses allocated by the vendor, which don't overlap between devices. This was confirmed with multiple devices with consecutive serial numbers. The MAC address range starts with the address on the label. To be able to distinguish between the interfaces, the following MAC address scheme is used: - eth0 = label MAC - radio0 (Wi-Fi 2.4GHz) = label MAC + 1 - radio1 (Wi-Fi 5GHz) = label MAC + 2 Installation: 0. Connect some sort of RJ45-to-USB adapter to "Console" port of the AP 1. Power up the AP 2. At prompt "Press f or F to stop Auto-Boot in 3 seconds", do what they say. Log in with default admin password "admin@huawei.com". 3. Boot the OpenWrt initramfs from TFTP using the hidden script "run ramboot". Replace IP address as needed: > setenv serverip 192.168.1.10 > setenv ipaddr 192.168.1.1 > setenv rambootfile openwrt-ath79-generic-huawei_ap6010dn-initramfs-kernel.bin > saveenv > run ramboot 4. Optional but recommended as the factory firmware cannot be downloaded publicly: Back up contents of "firmware" partition using the web interface or ssh: $ ssh root@192.168.1.1 cat /dev/mtd11 > huawei_ap6010dn_fw_backup.bin 5. Run sysupgrade using sysupgrade image. OpenWrt shall boot from flash afterwards. Return to factory firmware (using firmware upgrade package downloaded from non-public Huawei website): 1. Start a TFTP server in the directory where the firmware upgrade package is located 2. Boot to u-boot as described above 3. Install firmware upgrade package and format the config partitions: > update system FatAP6X10XN_SOMEVERSION.bin > format_fs Return to factory firmware (from previously created backup): 1. Copy over the firmware partition backup to /tmp, for example using scp 2. Use sysupgrade with force to restore the backup: sysupgrade -F huawei_ap6010dn_fw_backup.bin 3. Boot AP to U-Boot as described above Quirks and known issues: - The stock firmware has a semi dual boot concept where the primary kernel uses a squashfs as root partition and the secondary kernel uses an initramfs. This dual boot concept is circumvented on purpose to gain more flash space and since the stock firmware's flash layout isn't compatible with mtdsplit. - The external watchdog's timeout of 1.6s is very hard to satisfy during bootup. This is why the GPIO15 pin connected to the watchdog input is configured directly in the LZMA loader to output the AHB_CLK/2 signal which keeps the watchdog happy until the wdt-gpio kernel driver takes over. Because it would also take too long to read the whole kernel image from flash, the uImage header only includes the loader which then reads the kernel image from flash after GPIO15 is configured. Signed-off-by: Marco von Rosenberg <marcovr@selfnet.de> Link: https://github.com/openwrt/openwrt/pull/15941 Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de> |
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Shiji Yang
|
bc56334428 |
ath79: trim useless package kmod-leds-reset for some devices
Only NETGEAR WNDR3x00 series devices have reset controller LED. Signed-off-by: Shiji Yang <yangshiji66@qq.com> |
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Shiji Yang
|
4309be6bcb |
ath79: drop factory image for DIR-825 and TEW-673GRU
The max image sizes are too small to generate factory images. Signed-off-by: Shiji Yang <yangshiji66@qq.com> |
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Tomasz Maciej Nowak
|
f7f8099aa3 |
ath79: add support for Dell SonicPoint ACe APL26-0AE
Dell/SonicWall APL26-0AE (marketed as SonicPoint ACe) is a dual band wireless access point. End of life as of 2022-07-31. Specification SoC: QualcommAtheros QCA9550 RAM: 256 MB DDR2 Flash: 32 MB SPI NOR WIFI: 2.4 GHz 3T3R integrated 5 GHz 3T3R QCA9890 oversized Mini PCIe card Ethernet: 2x 10/100/1000 Mbps QCA8334 port labeled lan1 is PoE capable (802.3at) USB: 1x 2.0 LEDs: LEDs: 6x which 5 are GPIO controlled and two of them are dual color Buttons: 2x GPIO controlled Serial: RJ-45 port, SonicWall pinout baud: 115200, parity: none, flow control: none Before flashing, be sure to have a copy of factory firmware, in case You wish to revert to original firmware. All described procedures were done in following environment: ROM Version: SonicROM (U-Boot) 8.0.0.0-11o SafeMode Firmware Version: SonicOS 8.0.0.0-14o Firmware Version: SonicOS 9.0.1.0 In case of other versions, following installation instructions might be ineffective. Installation 1. Prepare TFTP server with OpenWrt sysupgrade image and rename that image to "sp_fw.bin". 2. Connect to one of LAN ports. 3. Connect to serial port. 4. Hold the reset button (small through hole on side of the unit), power on the device and when prompted to stop autoboot, hit any key. The held button can now be released. 5. Alter U-Boot environment with following commands: setenv bootcmd bootm 0x9F110000 saveenv 6. Adjust "ipaddr" (access point, default is 192.168.1.1) and "serverip" (TFTP server, default is 192.168.1.10) addresses in U-Boot environment, then run following commands: tftp 0x80060000 sp_fw.bin erase 0x9F110000 +0x1EF0000 cp.b 0x80060000 0x9F110000 $filesize 7. After successful flashing, execute: boot 8. The access point will boot to OpenWrt. Wait few minutes, until the wrench LED will stop blinking, then it's ready for configuration. Known issues Initramfs image can't be bigger than specified kernel size, otherwise bootloader will throw LZMA decompressing error. Switching to lzma-loader should workaround that. This device has Winbond 25Q256FVFG and doesn't have reliable reset, which causes hang on reboot, thus broken-flash-reset needs to be added. This property addition causes dispaly of "scary" warning on each boot, take this warnig into consideration. Signed-off-by: Tomasz Maciej Nowak <tmn505@gmail.com> |
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Andrey Bondar
|
febcfadc80 |
ath79: add support for 8Devices Carambola3 board
Carambola3 is a WiFi module based on Qualcomm/Atheros QCA4531 http://wiki.8devices.com/carambola3 Specification: - 650/600/216 MHz (CPU/DDR/AHB) - 128 MB of RAM (DDR2) - 32 MB of FLASH - 2T2R 2.4 GHz - 2x 10/100 Mbps Ethernet - 1x USB 2.0 Host socket - UART for serial console - 12x GPIO Flash instructions: Upgrading from ar71xx target: - Upload image into the board: scp openwrt-ath79-generic-8dev_carambola3-squashfs-sysupgrade.bin \ root@192.168.1.1/tmp/ - Run sysupgrade sysupgrade -F /tmp/openwrt-ath79-generic-8dev_carambola3-squashfs-sysupgrade.bin Upgrading from u-boot: - Set up tftp server with openwrt-ath79-generic-8dev_carambola3-initramfs-kernel.bin - Go to u-boot (reboot and press ESC when prompted) - Set TFTP server IP setenv serverip 192.168.1.254 - Set device ip from the same subnet setenv ipaddr 192.168.1.1 - Copy new firmware to board tftpboot 0x82000000 initramfs.bin - Boot OpenWRT bootm 0x82000000 - Upload image openwrt-ath79-generic-8dev_carambola3-squashfs-sysupgrade.bin into the board - Run sysupgrade. Signed-off-by: Andrey Bondar <a.bondar@8devices.com> Link: https://github.com/openwrt/openwrt/pull/15514 Signed-off-by: Robert Marko <robimarko@gmail.com> |
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Kevin Abraham
|
1dd036a659 |
ath79: add support for Senao Engenius ENS1750
FCC ID: A8J-EWS660AP Engenius ENS1750 is an outdoor wireless access point with 2 gigabit ethernet ports, dual-band wireless, internal antenna plates, and 802.3at PoE+ Engenius EWS660AP, ENS1750, and ENS1200 are "electrically identical, different model names are for marketing purpose" according to docs provided by Engenius to the FCC. **Specification:** - QCA9558 SOC 2.4 GHz, 3x3 - QCA9880 WLAN mini PCIe card, 5 GHz, 3x3, 26dBm - AR8035-A PHY RGMII GbE with PoE+ IN - AR8033 PHY SGMII GbE with PoE+ OUT - 40 MHz clock - 16 MB FLASH MX25L12845EMI-10G - 2x 64 MB RAM - UART at J1 populated, RX grounded - 6 internal antenna plates (5 dbi, omni-directional) - 5 LEDs, 1 button (power, eth0, eth1, 2G, 5G) (reset) **MAC addresses:** Base MAC addressed labeled as "MAC" Only one Vendor MAC address in flash eth0 *:d4 MAC art 0x0 eth1 *:d5 --- art 0x0 +1 phy1 *:d6 --- art 0x0 +2 phy0 *:d7 --- art 0x0 +3 **Serial Access:** the RX line on the board for UART is shorted to ground by resistor R176 therefore it must be removed to use the console but it is not necessary to remove to view boot log optionally, R175 can be replaced with a solder bridge short the resistors R175 and R176 are next to the UART RX pin **Installation:** 2 ways to flash factory.bin from OEM: Method 1: Firmware upgrade page: OEM webpage at 192.168.1.1 username and password "admin" Navigate to "Firmware Upgrade" page from left pane Click Browse and select the factory.bin image Upload and verify checksum Click Continue to confirm and wait 3 minutes Method 2: Serial to load Failsafe webpage: After connecting to serial console and rebooting... Interrupt uboot with any key pressed rapidly execute `run failsafe_boot` OR `bootm 0x9fd70000` wait a minute connect to ethernet and navigate to "192.168.1.1/index.htm" Select the factory.bin image and upload wait about 3 minutes **Return to OEM:** If you have a serial cable, see Serial Failsafe instructions otherwise, uboot-env can be used to make uboot load the failsafe image ssh into openwrt and run `fw_setenv rootfs_checksum 0` reboot, wait 3 minutes connect to ethernet and navigate to 192.168.1.1/index.htm select OEM firmware image from Engenius and click upgrade **TFTP recovery:** Requires serial console, reset button does nothing rename initramfs.bin to '0101A8C0.img' make available on TFTP server at 192.168.1.101 power board, interrupt boot execute tftpboot and bootm 0x81000000 **Format of OEM firmware image:** The OEM software of ENS1750 is a heavily modified version of Openwrt Kamikaze. One of the many modifications is to the sysupgrade program. Image verification is performed simply by the successful ungzip and untar of the supplied file and name check and header verification of the resulting contents. To form a factory.bin that is accepted by OEM Openwrt build, the kernel and rootfs must have specific names... openwrt-ar71xx-generic-ens1750-uImage-lzma.bin openwrt-ar71xx-generic-ens1750-root.squashfs and begin with the respective headers (uImage, squashfs). Then the files must be tarballed and gzipped. The resulting binary is actually a tar.gz file in disguise. This can be verified by using binwalk on the OEM firmware images, ungzipping then untaring. Newer EnGenius software requires more checks but their script includes a way to skip them, otherwise the tar must include a text file with the version and md5sums in a deprecated format. The OEM upgrade script is at /etc/fwupgrade.sh. OKLI kernel loader is required because the OEM software expects the kernel to be no greater than 1536k and the factory.bin upgrade procedure would otherwise overwrite part of the kernel when writing rootfs. Note on PLL-data cells: The default PLL register values will not work because of the external AR8035 switch between the SOC and the ethernet port. For QCA955x series, the PLL registers for eth0 and eth1 can be see in the DTSI as 0x28 and 0x48 respectively. Therefore the PLL registers can be read from uboot for each link speed after attempting tftpboot or another network action using that link speed with `md 0x18050028 1` and `md 0x18050048 1`. The clock delay required for RGMII can be applied at the PHY side, using the at803x driver `phy-mode`. Therefore the PLL registers for GMAC0 do not need the bits for delay on the MAC side. This is possible due to fixes in at803x driver since Linux 5.1 and 5.3 Tested-by: Kevin Abraham <kevin@westhousefarm.com> Signed-off-by: Kevin Abraham <kevin@westhousefarm.com> |
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Felix Golatofski
|
ee3a6adc6c |
ath79: add support for Comfast CF-EW71 v2
Specifications: Qualcomm/Atheros QCA9531 2x 10/100 Mbps Ethernet, with 48v PoE 2T2R 2.4 GHz, 802.11b/g/n 128MB RAM 16MB SPI Flash 4x LED (Always On Power, LAN, WAN, WLAN) Flashing instructions: The original firmware is based on OpenWrt, so flashing the sysupgrade image over the factory firmware is sufficient. The bootloader has a built-in recovery web-ui. This is the method I used to flash OpenWrt. You can get to the recovery web-ui by holding down the reset button for a few seconds (~5s) while pluggin in the router. The LEDs should start blinking fast and the router should be available on 192.168.1.1 for the recovery. Tested: Reset button, WAN LED, LAN LED, Power LED (always on, not much to test), WLAN LED, MAC addresses (same as factory firmware). Signed-off-by: Felix Golatofski <git@xdfr.de> |
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Marco von Rosenberg
|
06cdc07f8c |
ath79: add support for Huawei AP5030DN
Huawei AP5030DN is a dual-band, dual-radio 802.11ac Wave 1 3x3 MIMO enterprise access point with two Gigabit Ethernet ports and PoE support. Hardware highlights: - CPU: QCA9550 SoC at 720MHz - RAM: 256MB DDR2 - Flash: 32MB SPI-NOR - Wi-Fi 2.4GHz: QCA9550-internal radio - Wi-Fi 5GHz: QCA9880 PCIe WLAN SoC - Ethernet 1: 10/100/1000 Mbps Ethernet through Broadcom B50612E PHY - Ethernet 2: 10/100/1000 Mbps Ethernet through Marvell 88E1510 PHY - PoE: input through Ethernet 1 port - Standalone 12V/2A power input - Serial console externally available through RJ45 port - External watchdog: SGM706 (1.6s timeout) Serial console: 9600n8 (9600 baud, no stop bits, no parity, 8 data bits) MAC addresses: Each device has 32 consecutive MAC addresses allocated by the vendor, which don't overlap between devices. This was confirmed with multiple devices with consecutive serial numbers. The MAC address range starts with the address on the label. To be able to distinguish between the interfaces, the following MAC address scheme is used: - eth0 = label MAC - eth1 = label MAC + 1 - radio0 (Wi-Fi 5GHz) = label MAC + 2 - radio1 (Wi-Fi 2.4GHz) = label MAC + 3 Installation: 0. Connect some sort of RJ45-to-USB adapter to "Console" port of the AP 1. Power up the AP 2. At prompt "Press f or F to stop Auto-Boot in 3 seconds", do what they say. Log in with default admin password "admin@huawei.com". 3. Boot the OpenWrt initramfs from TFTP using the hidden script "run ramboot". Replace IP address as needed: > setenv serverip 192.168.1.10 > setenv ipaddr 192.168.1.1 > setenv rambootfile openwrt-ath79-generic-huawei_ap5030dn-initramfs-kernel.bin > saveenv > run ramboot 4. Optional but recommended as the factory firmware cannot be downloaded publicly: Back up contents of "firmware" partition using the web interface or ssh: $ ssh root@192.168.1.1 cat /dev/mtd11 > huawei_ap5030dn_fw_backup.bin 5. Run sysupgrade using sysupgrade image. OpenWrt shall boot from flash afterwards. Return to factory firmware (using firmware upgrade package downloaded from non-public Huawei website): 1. Start a TFTP server in the directory where the firmware upgrade package is located 2. Boot to u-boot as described above 3. Install firmware upgrade package and format the config partitions: > update system FatAP5X30XN_SOMEVERSION.bin > format_fs Return to factory firmware (from previously created backup): 1. Copy over the firmware partition backup to /tmp, for example using scp 2. Use sysupgrade with force to restore the backup: sysupgrade -F huawei_ap5030dn_fw_backup.bin 3. Boot AP to U-Boot as described above Quirks and known issues ----------------------- - On initial power-up, the Huawei-modified bootloader suspends both ethernet PHYs (it sets the "Power Down" bit in the MII control register). Unfortunately, at the time of the initial port, the kernel driver for the B50612E/BCM54612E PHY behind eth0 doesn't have a resume callback defined which would clear this bit. This makes the PHY unusable since it remains suspended forever. This is why the backported kernel patches in this commit are required which add this callback and for completeness also a suspend callback. - The stock firmware has a semi dual boot concept where the primary kernel uses a squashfs as root partition and the secondary kernel uses an initramfs. This dual boot concept is circumvented on purpose to gain more flash space and since the stock firmware's flash layout isn't compatible with mtdsplit. - The external watchdog's timeout of 1.6s is very hard to satisfy during bootup. This is why the GPIO15 pin connected to the watchdog input is configured directly in the LZMA loader to output the CPU_CLK/4 signal which keeps the watchdog happy until the wdt-gpio kernel driver takes over. Because it would also take too long to read the whole kernel image from flash, the uImage header only includes the loader which then reads the kernel image from flash after GPIO15 is configured. Signed-off-by: Marco von Rosenberg <marcovr@selfnet.de> [fixed 6.6 backport patch naming] Signed-off-by: David Bauer <mail@david-bauer.net> |
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Shiji Yang
|
085feb60ad |
ath79: move D-Link DAP-1720 A1 to tiny sub-target
This device only has 64 MiB RAM and ath10k wireless driver will consume a lot of memory. Let's move it to the tiny sub-target to get extra 7 MiB of free space. In this way, we can extend their lifetime to receive support for the next OpenWrt LTS version. This patch also trims the duplicate "recovery.bin" image as it's the same as the "factory.bin". Signed-off-by: Shiji Yang <yangshiji66@qq.com> |
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Shiji Yang
|
8201e402c5 |
ath79: move D-Link DIR-859 and DIR-869 series to tiny sub-target
These devices only have 64 MiB RAM and ath10k wireless driver will consume a lot of memory. Let's move them to the tiny sub-target to get extra 7 MiB of free space. In this way, we can extend their lifetime to receive support for the next OpenWrt LTS version. This patch also trims the USB package for the non-existent USB port. Signed-off-by: Shiji Yang <yangshiji66@qq.com> |
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Shiji Yang
|
82208eb527 |
ath79: move seama image recipe to the common Makefile
Move seama image recipe to the common Makefile in order for some tiny sub-target D-Link devices can share it. Signed-off-by: Shiji Yang <yangshiji66@qq.com> |
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Sebastian Schaper
|
ee69f81ca5 |
ath79: add support for D-Link COVR-C1200 A1
The COVR-C1200 devices are sold as "Whole Home Mesh Wi-Fi" sets in packs of two (COVR-C1202) and three (COVR-C1203). Specifications: * QCA9563, 16 MiB flash, 128 MiB RAM, 2x3:2 802.11n * QCA9886 2x2:2 801.11ac Wave 2 * AR8337, 2 Gigabit ports (1: WAN; 2: LAN) * USB Type-C power connector (5V, 3A) Installation COVR Point A: * In factory reset state: OEM Web UI is at 192.168.0.50 no DHCP, skip wizard by directly accessing: http://192.168.0.50/UpdateFirmware_Simple.html * After completing setup wizard: Web UI is at 192.168.0.1 DHCP enabled, login with empty password * Flash factory.bin * Perform a factory reset to restore OpenWrt UCI defaults Installation COVR Points B: * OEM Web UI is at 192.168.0.50, no DHCP, empty password * Flash factory.bin * Perform a factory reset to restore OpenWrt UCI defaults Recovery: * Keep reset button pressed during power on * Recovery Web UI is at 192.168.0.50, no DHCP * Flash factory.bin used to work best with Chromium-based browsers or curl: curl -F firmware=@factory.bin \ http://192.168.0.50/upgrade.cgi since this fails to work on modern Linux systems, there is also a script dlink_recovery_upload.py Signed-off-by: Sebastian Schaper <openwrt@sebastianschaper.net> |
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Sebastian Schaper
|
6fa2ae30bb |
ath79: split dtsi for D-Link COVR-P2500
in preparation of adding COVR-C1200 Signed-off-by: Sebastian Schaper <openwrt@sebastianschaper.net> |
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INAGAKI Hiroshi
|
b18edb1bfa |
ath79: add support for ELECOM WAB-I1750-PS
ELECOM WAB-I1750-PS is a 2.4/5 GHz band 11ac (Wi-Fi 5) access point, based on QCA9558. Specification: - SoC : Qualcomm Atheros QCA9558 - RAM : DDR2 128 MiB (2x Winbond W9751G6KB251) - Flash : SPI-NOR 16 MiB (Macronix MX25L12835FMI-10G) - WLAN : 2.4/5 GHz 3T3R - 2.4 GHz : Qualcomm Atheros QCA9558 (SoC) - 5 GHz : Qualcomm Atheros QCA9880 - Ethernet : 2x 10/100/1000 Mbps - phy ("PD") : Atheros AR8035 - phy ("PSE") : Atheros AR8033 - LEDs/keys (GPIO) : 3x/3x - UART : 2x RJ-45 port - "SERVICE" : TTL (3.3V) - port : ttyS0 - assignment : 1:3.3V, 2:GND, 3:TX, 4:RX - settings : 115200n8 - note : no compatibility with "Cisco console cable" - "SERIAL" : RS232C (+-12V) - port : ? - assignment : 1:NC , 2:NC , 3:TXD, 4:GND, 5:GND, 6:RXD, 7:NC , 8:NC - settings : 115200n8 - note : compatible with "Cisco console cable" - Buzzer : 1x GPIO-controlled - USB : 1x USB 2.0 Type-A - Power : DC jack or PoE - DC jack : 12 VDC, 1.04 A (device only, rating) - PoE : 802.3af/at, 48 VDC, 0.26 A (device only, rating) - note : supports 802.3af supply on PSE (downstream) port when powered by DC adapter or 802.3at PoE Flash instruction using factory.bin image: 1. Boot WAB-I1750-PS without no upstream connection (or PoE connection without DHCP) 2. Access to the WebUI ("http://192.168.3.1") on the device and open firmware update page ("ツールボックス" -> "ファームウェア更新") 3. Select the OpenWrt factory.bin image and click update ("アップデート") button 4. Wait ~120 seconds to complete flashing Revert to OEM firmware: 1. Download the latest OEM firmware 2. Remove 128 bytes(0x80) header from firmware image 3. Decode by xor with a pattern "8844a2d168b45a2d" (hex val) 4. Upload the decoded firmware to the device 5. Flash to "firmware" partition by mtd command 6. Reboot Notes: - To use the "SERVICE" port, the connection of 3.3V line is also required to enable console output. The uart line of "SERVICE" is branched out from the internal pin header with 74HC126D and 3.3V line is connected to OE pin on it. - "SERIAL" port is provided by HS UART on QCA9558 SoC that has compatibility with qca,ar9330-uart, but QCA955x SoC's is not supported on Linux Kernel and OpenWrt. - To supply 802.3af PoE on "PSE" port when powered by DC adapter, 12 VDC 3.5 A adapter is recommended. (official: WAB-EX-ADP1) MAC addresses: Ethernet (PD, PSE): 00:90:FE:xx:xx:0A (Config, ethaddr (text)) 2.4GHz : 00:90:FE:xx:xx:0A (Config, ethaddr (text)) 5GHz : 00:90:FE:xx:xx:0B [original work] Signed-off-by: Yanase Yuki <dev@zpc.st> [update for NVMEM and others] Signed-off-by: INAGAKI Hiroshi <musashino.open@gmail.com> |
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INAGAKI Hiroshi
|
8e72fa8b6f |
ath79: add support for ELECOM WAB-S1167-PS
ELECOM WAB-S1167-PS is a 2.4/5 GHz band 11ac (Wi-Fi 5) access point, based on QCA9557. Specification: - SoC : Qualcomm Atheros QCA9557 - RAM : DDR2 128 MiB (2x Winbond W9751G6KB251) - Flash : SPI-NOR 16 MiB (Macronix MX25L12835FMI-10G) - WLAN : 2.4/5 GHz 2T2R - 2.4 GHz : Qualcomm Atheros QCA9557 (SoC) - 5 GHz : Qualcomm Atheros QCA9882 - Ethernet : 2x 10/100/1000 Mbps - phy ("PD") : Atheros AR8035 - phy ("PSE") : Atheros AR8033 - LEDs/keys (GPIO) : 3x/3x - UART : 1x RJ-45 port - "SERVICE" : TTL (3.3V) - port : ttyS0 - assignment : 1:3.3V, 2:GND, 3:TX, 4:RX - settings : 115200n8 - note : no compatibility with "Cisco console cable" - Buzzer : 1x GPIO-controlled - USB : 1x USB 2.0 Type-A - Power : DC jack or PoE - DC jack : 12 VDC, 1 A (device only, rating) - PoE : 802.3af/at, 48 VDC, 0.25 A (device only, rating) - note : supports 802.3af supply on PSE (downstream) port when powered by DC adapter or 802.3at PoE Flash instruction using factory.bin image: 1. Boot WAB-S1167-PS without no upstream connection (or PoE connection without DHCP) 2. Access to the WebUI ("http://192.168.3.1") on the device and open firmware update page ("ツールボックス" -> "ファームウェア更新") 3. Select the OpenWrt factory.bin image and click update ("アップデート") button 4. Wait ~120 seconds to complete flashing Revert to OEM firmware: 1. Download the latest OEM firmware 2. Remove 128 bytes(0x80) header from firmware image 3. Decode by xor with a pattern "8844a2d168b45a2d" (hex val) 4. Upload the decoded firmware to the device 5. Flash to "firmware" partition by mtd command 6. Reboot Notes: - To use the "SERVICE" port, the connection of 3.3V line is also required to enable console output. The uart line of "SERVICE" is branched out from the internal pin header with 74HC126D and 3.3V line is connected to OE pin on it. - The same PCB is used with WAB-S600-PS. - To supply 802.3af PoE on "PSE" port when powered by DC adapter, 12 VDC 3.5 A adapter is recommended. (official: WAB-EX-ADP1) MAC addresses: Ethernet (PD, PSE): 00:90:FE:xx:xx:04 (Config, ethaddr (text)) 2.4GHz : 00:90:FE:xx:xx:04 (Config, ethaddr (text)) 5GHz : 00:90:FE:xx:xx:05 Signed-off-by: INAGAKI Hiroshi <musashino.open@gmail.com> |
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INAGAKI Hiroshi
|
2791ee79fa |
ath79: add support for ELECOM WAB-S600-PS
ELECOM WAB-S600-PS is a 2.4/5 GHz band 11n (Wi-Fi 4) access point, based on QCA9557. This device also supports 11ac (Wi-Fi 5) with the another official firmware. Specification: - SoC : Qualcomm Atheros QCA9557 - RAM : DDR2 128 MiB (2x Winbond W9751G6KB251) - Flash : SPI-NOR 16 MiB (Macronix MX25L12835FMI-10G) - WLAN : 2.4/5 GHz 2T2R - 2.4 GHz : Qualcomm Atheros QCA9557 (SoC) - 5 GHz : Qualcomm Atheros QCA9882 - Ethernet : 2x 10/100/1000 Mbps - phy ("PD") : Atheros AR8035 - phy ("PSE") : Atheros AR8033 - LEDs/keys (GPIO) : 3x/3x - UART : 1x RJ-45 port - "SERVICE" : TTL (3.3V) - port : ttyS0 - assignment : 1:3.3V, 2:GND, 3:TX, 4:RX - settings : 115200n8 - note : no compatibility with "Cisco console cable" - Buzzer : 1x GPIO-controlled - USB : 1x USB 2.0 Type-A - Power : DC jack or PoE - DC jack : 12 VDC, 1 A (device only, rating) - PoE : 802.3af/at, 48 VDC, 0.25 A (device only, rating) - note : supports 802.3af supply on PSE (downstream) port when powered by DC adapter or 802.3at PoE Flash instruction using factory.bin image: 1. Boot WAB-S600-PS without no upstream connection (or PoE connection without DHCP) 2. Access to the WebUI ("http://192.168.3.1") on the device and open firmware update page ("ツールボックス" -> "ファームウェア更新") 3. Select the OpenWrt factory.bin image and click update ("アップデート") button 4. Wait ~120 seconds to complete flashing Revert to OEM firmware: 1. Download the latest OEM firmware 2. Remove 128 bytes(0x80) header from firmware image 3. Decode by xor with a pattern "8844a2d168b45a2d" (hex val) 4. Upload the decoded firmware to the device 5. Flash to "firmware" partition by mtd command 6. Reboot Notes: - To use the "SERVICE" port, the connection of 3.3V line is also required to enable console output. The uart line of "SERVICE" is branched out from the internal pin header with 74HC126D and 3.3V line is connected to OE pin on it. - The same PCB is used with WAB-S1167-PS. - To supply 802.3af PoE on "PSE" port when powered by DC adapter, 12 VDC 3.5 A adapter is recommended. (official: WAB-EX-ADP1) MAC addresses: Ethernet (PD, PSE): BC:5C:4C:xx:xx:7C (Config, ethaddr (text)) 2.4GHz : BC:5C:4C:xx:xx:7C (Config, ethaddr (text)) 5GHz : BC:5C:4C:xx:xx:7D [original work of common dtsi part for WAB-I1750-PS] Signed-off-by: Yanase Yuki <dev@zpc.st> [adding support for WAB-S600-PS] Signed-off-by: INAGAKI Hiroshi <musashino.open@gmail.com> |
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Tony Ambardar
|
b16e14a220 |
image: use helper function for size units
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> |
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Rani Hod
|
e29f4a3f70 |
ath79: add support for D-link DAP-1720 A1
D-Link DAP-1720 rev A1 is a mains-powered AC1750 Wi-Fi range extender, manufactured by Alpha Networks [8WAPAC28.1A1G]. (in square brackets: PCB silkscreen markings) Specifications: * CPU (Qualcomm Atheros QCA9563-AL3A [U5]): 775 MHz single core MIPS 74Kc; * RAM (Winbond W9751G6KB-25J [U3]): 64 MiB DDR2; * ROM (Winbond W25Q128FV [U16]): 16 MiB SPI NOR flash; * Ethernet (AR8033-AL1A PHY [U1], no switch): 1 GbE RJ45 port (no PHY LEDs); * Wi-Fi * 2.4 GHz (Qualcomm Atheros QCA9563-AL3A [U5]): 3x3 802.11n; * 5 GHz (Qualcomm Atheros QCA9880-BR4A [U9]): 3x3 802.11ac Wave 1; * 3 foldable dual-band antennas (U.fl) [P1],[P2],[P3]; * GPIO LEDs: * RSSI low (red/green) [D2]; * RSSI medium (green) [D3]; * RSSI high (green) [D4]; * status (red/green) [D5]; * GPIO buttons: * WPS [SW1], co-located with status LED; * reset [SW4], accessible via hole in the side; * Serial/UART: Tx-Gnd-3v3-Rx [JP1], Tx is the square pin, 1.25mm pitch; 125000-8-n-1 in U-boot, 115200-8-n-1 in kernel; * Misc: * 12V VCC [JP2], fed from internal 12V/1A AC to DC converter; * on/off slide switch [SW2] (disconnects VCC mechanically); * unpopulated footprints for a Wi-Fi LED [D1]; * unpopulated footprints for a 4-pin 3-position slide switch (SW3); MAC addresses: * Label = LAN; * 2.4 GHz WiFi = LAN; * 5 GHz WiFi = LAN+2; Installation: * `factory.bin` can be used to install OpenWrt from OEM firmware via the standard upgrade webpage at http://192.168.0.50/UpdateFirmware.html * `recovery.bin` can be used to install OpenWrt (or revert to OEM firmware) from D-Link Web Recovery. To enter web recovery, keep reset button pressed and then power on the device. Reset button can be released when the red status LED is bright; it will then blink slowly. Set static IP to 192.168.0.10, navigate to http://192.168.0.50 and upload 'recovery.bin'. Note that in web recovery mode the device ignores ping and DHCP requests. Note: 802.11s is not supported by the default `ath10k` driver and firmware, but is supported by the non-CT driver and firmware variants. The `-smallbuffers` driver variant is recommended due to RAM size. Co-developed-by: Anthony Sepa <protectivedad@gmail.com> Signed-off-by: Rani Hod <rani.hod@gmail.com> |
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Daniel Linjama
|
a39a49e323 |
ath79: add support for D-Link COVR-P2500 A1
Specifications: * QCA9563, 16 MiB flash, 128 MiB RAM, 2T2R 802.11n * QCA9886 2T2R 801.11ac Wave 2 * QCA7550 Homeplug AV2 1300 * AR8337, 3 Gigabit ports (1, 2: LAN; 3: WAN) To make use of PLC functionality, firmware needs to be provided via plchost (QCA7550 comes without SPI NOR), patched with the Network Password and MAC. Flashing via OEM Web Interface * Flash 'factory.bin' using web-interface * Wait until firmware succesfully installed and device booted * Hold down reset button to reset factory defaults (~10 seconds) Flashing via Recovery Web Interface: * Hold down reset button during power-on (~10 seconds) * Recovery Web UI is at 192.168.0.50, no DHCP. * Flash 'recovery.bin' with scripts/flashing/dlink_recovery_upload.py (Recovery Web UI does not work with modern OSes) Return to stock * Hold down reset button during power-on (~10 seconds) * Recovery Web UI is at 192.168.0.50, no DHCP. * Flash unencrypted stock firmware with scripts/flashing/dlink_recovery_upload.py (Recovery Web UI does not work with modern OSes) Co-developed-by: Sebastian Schaper <openwrt@sebastianschaper.net> Signed-off-by: Sebastian Schaper <openwrt@sebastianschaper.net> Signed-off-by: Daniel Linjama <daniel@dev.linjama.com> |
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Lech Perczak
|
0c47bdb902 |
ath79: support Fortinet FAP-220-B
Fortinet FAP-220-B is a dual-radio, dual-band 802.11n enterprise managed access point with PoE input and single gigabit Ethernet interface. Hardware highlights: Power: 802.3af PoE input on Ethernet port, +12V input on 5.5/2.1mm DC jack. SoC: Atheros AR7161 (MIPS 24kc at 680MHz) RAM: 64MB DDR400 Flash: 16MB SPI-NOR Wi-Fi 1: Atheros AR9220 2T2R 802.11abgn (dual-band) Wi-Fi 2: Atheros AR9223 2T2R 802.11bgn (single-band) Ethernet: Atheros AR8021 single gigabit Phy (RGMII) Console: External RS232 port using Cisco 8P8C connector (9600-8-N-1) USB: Single USB 2.0 host port LEDs: Power (single colour, green), Wi-Fi 1, Wi-Fi 2, Ethernet, Mode, Status (dual-colour, green and yellow) Buttons: reset button hidden in bottom grill, in the top row, 2nd column from the right. Label MAC address: eth0 FCC ID: TVE-220102 Serial port pinout: 3 - TxD 4 - GND 6 - RxD Installation: The same methods apply as for already supported FAP-221-B. For both methods, a backup of flash partitions is recommended, as stock firmware is not freely available on the internet. (a) Using factory image: 1. Connect console cable to the console port 2. Connect Ethernet interface to your PC 3. Start preferred terminal at 9600-8-N-1 4. Have a TFTP server running on the PC. 5. Put the "factory" image in TFTP root 6. Power on the device 7. Break boot sequence by pressing "Ctrl+C" 8. Press "G". The console will ask you for device IP, server IP, and filename. Enter them appropriately. The defaults are: Server IP: 192.168.1.1 # Update accordingly Device IP: 192.168.1.2 # Update accordingly Image file: image.out # Use for example: openwrt-ath79-generic-fortinet_fap-220-b-squashfs-factory.bin 9. The device will load the firmware over TFTP, and verify it. When verification passes, press "D" to continue installation. The device will reboot on completion. (b) Using initramfs + sysupgrade 1. Connect console cable to the console port 2. Connect Ethernet interface to your PC 3. Start preferred terminal at 9600-8-N-1 4. Have a TFTP server running on the PC. 5. Put the "initramfs" image in TFTP root 6. Power on the device. 7. Break boot sequence by pressing "Ctrl+C" 8. Enter hidden U-boot shell by pressing "K". The password is literal "1". 9. Load the initramfs over TFTP: > setenv serverip 192.168.1.1 # Your PC IP > setenv ipaddr 192.168.1.22 # Device IP, both have to share a subnet. > tftpboot 81000000 openwrt-ath79-generic-fortinet_fap-220-b-initramfs-kernel.bin > bootm 81000000 10. (Optional) Copy over contents of at least "fwconcat0", "loader", and "fwconcat1" partitions, to allow restoring factory firmware in future: # cat /dev/mtd1 > /tmp/mtd1_fwconcat0.bin # cat /dev/mtd2 > /tmp/mtd2_loader.bin # cat /dev/mtd3 > /tmp/mtd3_fwconcat1.bin and then SCP them over to safety at your PC. 11. When the device boots, copy over the sysupgrade image, and execute normal upgrade: # sysupgrade openwrt-ath79-generic-fortinet_fap-220-b-squashfs-sysupgrade.bin Return to stock firmware: 1. Boot initramfs image as per initial installation up to point 9 2. Copy over the previously backed up contents over network 3. Write the backed up contents back: # mtd write /tmp/mtd1_fwconcat0.bin fwconcat0 # mtd write /tmp/mtd2_loader.bin loader # mtd write /tmp/mtd3_fwconcat1.bin fwconcat1 4. Erase the reserved partition: # mtd erase reserved 5. Reboot the device Quirks and known issues: - The power LED blinking pattern is disrupted during boot, probably due to very slow serial console, which prints a lot during boot compared to stock FW. - "mac-address-ascii" device tree binding cannot yet be used for address stored in U-boot partition, because it expects the colons as delimiters, which this address lacks. Addresses found in ART partition are used instead. - Due to using kmod-owl-loader, the device will lack wireless interfaces while in initramfs, unless you compile it in. - The device heats up A LOT on the bottom, even when idle. It even contains a warning sticker there. - Stock firmware uses a fully read-write filesystem for its rootfs. - Stock firmware loads a lot of USB-serial converter drivers for use with built-in host, probably meant for hosting modem devices. - U-boot build of the device is stripped of all branding, despite that evidence of it (obviously) being U-boot can be found in the binary. - The user can break into hidden U-boot shell using key "K" after breaking boot sequence. The password is "1" (without quotes). - Telnet is available by default, with login "admin", without password. The same is true for serial console, both drop straight to the Busybox shell. - The web interface drops to the login page again, after successfull login. - Whole image authentication boils down to comparing a device ID against one stored in U-boot. - And this device is apparently made by a security company. Big thanks for Michael Pratt for providing support for FAP-221-B, which shares the entirety of image configuration with this device, this saved me a ton of work. Signed-off-by: Lech Perczak <lech.perczak@gmail.com> |
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Lech Perczak
|
6c12c88d2e |
ath79: image: extract common part for Fortinet FAP series
In preparation for FAP-220-B support, extract the common part of image recipe for FAP-221-B. Signed-off-by: Lech Perczak <lech.perczak@gmail.com> |
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Wenli Looi
|
520c9917f8 |
ath79: add support for ASUS RT-AC59U / ZenWiFi CD6
ASUS RT-AC59U / RT-AC59U v2 are wi-fi routers with a large number of alternate names, including RT-AC1200GE, RT-AC1300G PLUS, RT-AC1500UHP, RT-AC57U v2/v3, RT-AC58U v2/v3, and RT-ACRH12. ASUS ZenWiFi AC Mini(CD6) is a mesh wifi system. The unit labeled CD6R is the router, and CD6N is the node. Hardware: - SoC: QCN5502 - RAM: 128 MiB - UART: 115200 baud (labeled on boards) - Wireless: - 2.4GHz: QCN5502 on-chip 4x4 802.11b/g/n currently unsupported due to missing support for QCN550x in ath9k - 5GHz: QCA9888 pcie 5GHz 2x2 802.11a/n/ac - Flash: SPI NOR - RT-AC59U / CD6N: 16 MiB - RT-AC59U v2 / CD6R: 32 MiB - Ethernet: gigabit - RT-AC59U / RT-AC59U v2: 4x LAN 1x WAN - CD6R: 3x LAN 1x WAN - CD6N: 2x LAN - USB: - RT-AC59U / RT-AC59U v2: 1 port USB 2.0 - CD6R / CD6N: none WiFi calibration data contains valid MAC addresses. The initramfs image is uncompressed because I was unable to boot a compressed initramfs from memory (gzip or lzma). Booting a compressed image from flash works fine. Installation: To install without opening the case: - Set your computer IP address to 192.168.1.10/24 - Power up with the Reset button pressed - Release the Reset button after about 5 seconds or until you see the power LED blinking slowly - Upload OpenWRT factory image via TFTP client to 192.168.1.1 Revert to stock firmware using the same TFTP method. Signed-off-by: Wenli Looi <wlooi@ucalgary.ca> |
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Joao Henrique Albuquerque
|
935a63c59d |
ath79: add support for COMFAST CF-E380AC v2
COMFAST CF-E380AC v2 is a ceiling mount AP with PoE support, based on Qualcomm/Atheros QCA9558+QCA9880+AR8035. There are two versions of this model, with different RAM and U-Boot mtd partition sizes: - v1: 128 MB of RAM, 128 KB U-Boot image size - v2: 256 MB of RAM, 256 KB U-Boot image size Version number is available only inside vendor GUI, hardware and markings are the same. Short specification: - 720/600/200 MHz (CPU/DDR/AHB) - 1x 10/100/1000 Mbps Ethernet, with PoE support - 128 or 256 MB of RAM (DDR2) - 16 MB of FLASH - 3T3R 2.4 GHz, with external PA (SE2576L), up to 28 dBm - 3T3R 5 GHz, with external PA (SE5003L1), up to 30 dBm - 6x internal antennas - 1x RGB LED, 1x button - UART (T11), LEDs/GPIO (J7) and USB (T12) headers on PCB - external watchdog (Pericon Technology PT7A7514) COMFAST MAC addresses : Though the OEM firmware has four adresses in the usual locations, it appears that the assigned addresses are just incremented in a different way: Interface address location Lan *:00 0x0 2.4g *:0A n/a (0x0 + 10) 5g *:02 0x6 Unused Addresses found in ART hexdump address location *:01 0x1002 *:03 0x5006 To keep code consistency the MAC address assignments are made based on increments of the one found in 0x0; Signed-off-by: Joao Henrique Albuquerque <joaohccalbu@gmail.com> |
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Maximilian Martin
|
906e2a1b99 |
ath79: Add support for MOXA AWK-1137C
Device specifications: ====================== * Qualcomm/Atheros AR9344 * 128 MB of RAM * 16 MB of SPI NOR flash * 2x 10/100 Mbps Ethernet * 2T2R 2.4/5 GHz Wi-Fi * 4x GPIO-LEDs (1x wifi, 2x ethernet, 1x power) * 1x GPIO-button (reset) * 2x fast ethernet - lan1 + builtin switch port 1 + used as WAN interface - lan2 + builtin switch port 2 + used as LAN interface * 9-30V DC * external antennas Flashing instructions: ====================== Log in to https://192.168.127.253/ Username: admin Password: moxa Open Maintenance > Firmware Upgrade and install the factory image. Serial console access: ====================== Connect a RS232-USB converter to the maintenance port. Pinout: (reset button left) [GND] [NC] [RX] [TX] Firmware Recovery: ================== When the WLAN and SYS LEDs are flashing, the device is in recovery mode. Serial console access is required to proceed with recovery. Download the original image from MOXA and rename it to 'awk-1137c.rom'. Set up a TFTP server at 192.168.127.1 and connect to a lan port. Follow the instructions on the serial console to start the recovery. Signed-off-by: Maximilian Martin <mm@simonwunderlich.de> |
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David Bauer
|
1b467a902e |
ath79: add support for Aruba AP-115
Hardware ======== CPU Qualcomm Atheros QCA9558 RAM 256MB DDR2 FLASH 2x 16M SPI-NOR (Macronix MX25L12805D) WIFI Qualcomm Atheros QCA9558 Atheros AR9590 Installation ============ 1. Attach to the serial console of the AP-105. Interrupt autoboot and change the U-Boot env. $ setenv rb_openwrt "setenv ipaddr 192.168.1.1; setenv serverip 192.168.1.66; netget 0x80060000 ap115.bin; go 0x80060000" $ setenv fb_openwrt "bank 1; cp.b 0xbf100040 0x80060000 0x10000; go 0x80060000" $ setenv bootcmd "run fb_openwrt" $ saveenv 2. Load the OpenWrt initramfs image on the device using TFTP. Place the initramfs image as "ap105.bin" in the TFTP server root directory, connect it to the AP and make the server reachable at 192.168.1.66/24. $ run rb_openwrt 3. Once OpenWrt booted, transfer the sysupgrade image to the device using scp and use sysupgrade to install the firmware. Signed-off-by: David Bauer <mail@david-bauer.net> |
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Shiji Yang
|
0ffbef9317 |
ath79: add support for D-Link DIR-859 A3
Specifications: SOC: QCA9563 775 MHz + QCA9880 Switch: QCA8337N-AL3C RAM: Winbond W9751G6KB-25 64 MiB Flash: Winbond W25Q128FVSG 16 MiB WLAN: Wi-Fi4 2.4 GHz 3*3 + 5 GHz 3*3 LAN: LAN ports *4 WAN: WAN port *1 Buttons: reset *1 + wps *1 LEDs: ethernet *5, power, wlan, wps MAC Address: use address source1 source2 label 40:9b:xx:xx:xx:3c lan && wlan u-boot,env@ethaddr lan 40:9b:xx:xx:xx:3c devdata@0x3f $label wan 40:9b:xx:xx:xx:3f devdata@0x8f $label + 3 wlan2g 40:9b:xx:xx:xx:3c devdata@0x5b $label wlan5g 40:9b:xx:xx:xx:3e devdata@0x76 $label + 2 Install via Web UI: Apply factory image in the stock firmware's Web UI. Install via Emergency Room Mode: DIR-859 A1 will enter recovery mode when the system fails to boot or press reset button for about 10 seconds. First, set computer IP to 192.168.0.5 and Gateway to 192.168.0.1. Then we can open http://192.168.0.1 in the web browser to upload OpenWrt factory image or stock firmware. Some modern browsers may need to turn on compatibility mode. Signed-off-by: Shiji Yang <yangshiji66@qq.com> |
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Felix Baumann
|
f5cb556d4f |
treewide: Disable building 32M RAM devices
Following deprecation notice[1] in 21.02, disable targets with 32M of RAM [1] https://openwrt.org/supported_devices/864_warning Signed-off-by: Felix Baumann <felix.bau@gmx.de> |
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Jan Forman
|
8d618a3186 |
ath79: Add support for D-Link DIR-869-A1
Specifications The D-Link EXO AC1750 (DIR-869) router released in 2016. It is powered by Qualcomm Atheros QCA9563 @ 750 MHz chipset, 64 MB RAM and 16 MB flash. 10/100/1000 Gigabit Ethernet WAN port Four 10/100/1000 Gigabit Ethernet LAN ports Power Button, Reset Button, WPS Button, Mode Switch Flashing 1. Upload factory.bin via D-link web interface (Management/Upgrade). Revert to stock Upload original firmware via OpenWrt sysupgrade interface. Debricking D-Link Recovery GUI (192.168.0.1) Signed-off-by: Jan Forman <forman.jan96@gmail.com> |
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Martin Kennedy
|
90ad13c763 |
ath79: create APBoot-compatible image for Aruba AP-175
As was done in commit
|
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Andreas Böhler
|
097f350aeb |
ath79: add support for Alcatel HH40V
The Alcatel HH40V is a CAT4 LTE router used by various ISPs. Specifications ============== SoC: QCA9531 650MHz RAM: 128MiB Flash: 32MiB SPI NOR LAN: 1x 10/100MBit WAN: 1x 10/100MBit LTE: MDM9607 USB 2.0 (rndis configuration) WiFi: 802.11n (SoC integrated) MAC address assignment ====================== There are three MAC addresses stored in the flash ROM, the assignment follows stock. The MAC on the label is the WiFi MAC address. Installation (TFTP) =================== 1. Connect serial console 2. Configure static IP to 192.168.1.112 3. Put OpenWrt factory.bin file as firmware-system.bin 4. Press Power + WPS and plug in power 5. Keep buttons pressed until TFTP requests are visible 6. Wait for the system to finish flashing and wait for reboot 7. Bootup will fail as the kernel offset is wrong 8. Run "setenv bootcmd bootm 0x9f150000" 9. Reset board and enjoy OpenWrt Installation (without UART) =========================== Installation without UART is a bit tricky and requires several steps too long for the commit message. Basic steps: 1. Create configure backup 2. Patch backup file to enable SSH 3. Login via SSH and configure the new bootcmd 3. Flash OpenWrt factory.bin image manually (sysupgrade doesn't work) More detailed instructions will be provided on the Wiki page. Tested by: Christian Heuff <christian@heuff.at> Signed-off-by: Andreas Böhler <dev@aboehler.at> |
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Tony Ambardar
|
f3bb1eea32 |
ath79: fix switch support for WZR-HP-G300NH devices
Switch drivers for RTL8366S/RB were packaged as modules but not properly added to device definitions for WZR-HP-G300NH router variants, breaking network access to both after installation or upgrade. Assign the correct switch driver package for each router. Fixes: |
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David Bauer
|
e11d00d44c |
ath79: create Aruba AP-105 APBoot compatible image
Alter the Aruba AP-105 image generation process so OpenWrt can be loaded with the vendor Aruba APBoot. This works by prepending the OpenWrt LZMA loader to the uImage and jumping directly to the loader. Aruba does not offer bootm on these boards. This approach keeps compatibility to devices which had their U-Boot replaced. Both bootloaders can boot the same image. The same modification is most likely also possible for the Aruba AP-175. With this patch, new installations do not require replacing the bootloader and can be performed from the serial console without opening the case. Installation ------------ 1. Attach to the serial console of the AP-105. Interrupt autoboot and change the U-Boot env. $ setenv apb_rb_openwrt "setenv ipaddr 192.168.1.1; setenv serverip 192.168.1.66; netget 0x84000000 ap105.bin; go 0x84000040" $ setenv apb_fb_openwrt "cp.b 0xbf040000 0x84000000 0x10000; go 0x84000040" $ setenv bootcmd "run apb_fb_openwrt" $ saveenv 2. Load the OpenWrt initramfs image on the device using TFTP. Place the initramfs image as "ap105.bin" in the TFTP server root directory, connect it to the AP and make the server reachable at 192.168.1.66/24. $ run apb_rb_openwrt 3. Once OpenWrt booted, transfer the sysupgrade image to the device using scp and use sysupgrade to install the firmware. Signed-off-by: David Bauer <mail@david-bauer.net> |
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Martin Kennedy
|
12f52336d2 |
ath79: Add Aruba AP-175 support
This board is very similar to the Aruba AP-105, but is outdoor-first. It is very similar to the MSR2000 (though certain MSR2000 models have a different PHY[^1]). A U-Boot replacement is required to install OpenWrt on these devices[^2]. Specifications -------------- * Device: Aruba AP-175 * SoC: Atheros AR7161 680 MHz MIPS * RAM: 128MB - 2x Mira P3S12D40ETP * Flash: 16MB MXIC MX25L12845EMI-10G (SPI-NOR) * WiFi: 2 x DNMA-H92 Atheros AR9220-AC1A 802.11abgn * ETH: IC+ IP1001 Gigabit + PoE PHY * LED: 2x int., plus 12 ext. on TCA6416 GPIO expander * Console: CP210X linking USB-A Port to CPU console @ 115200 * RTC: DS1374C, with internal battery * Temp: LM75 temperature sensor Factory installation: - Needs a u-boot replacement. The process is almost identical to that of the AP105, except that the case is easier to open, and that you need to compile u-boot from a slightly different branch: https://github.com/Hurricos/u-boot-ap105/tree/ap175 The instructions for performing an in-circuit reflash with an SPI-Flasher like a CH314A can be found on the OpenWrt Wiki (https://openwrt.org/toh/aruba/ap-105); in addition a detailed guide may be found on YouTube[^3]. - Once u-boot has been replaced, a USB-A-to-A cable may be used to connect your PC to the CP210X inside the AP at 115200 baud; at this point, the normal u-boot serial flashing procedure will work (set up networking; tftpboot and boot an OpenWrt initramfs; sysupgrade to OpenWrt proper.) - There is no built-in functionality to revert back to stock firmware, because the AP-175 has been declared by the vendor[^4] end-of-life as of 31 Jul 2020. If for some reason you wish to return to stock firmware, take a backup of the 16MiB flash before flashing u-boot. [^1]: https://github.com/shalzz/aruba-ap-310/blob/master/platform/bootloader/apboot-11n/include/configs/msr2k.h#L186 [^2]: https://github.com/Hurricos/u-boot-ap105/tree/ap175 [^3]: https://www.youtube.com/watch?v=Vof__dPiprs [^4]: https://www.arubanetworks.com/support-services/end-of-life/#product=access-points&version=0 Signed-off-by: Martin Kennedy <hurricos@gmail.com> |
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Lech Perczak
|
0eebc6f0dd |
ath79: support Ruckus ZoneFlex 7341/7343/7363
Ruckus ZoneFlex 7363 is a dual-band, dual-radio 802.11n 2x2 MIMO enterprise access point. ZoneFlex 7343 is the single band variant of 7363 restricted to 2.4GHz, and ZoneFlex 7341 is 7343 minus two Fast Ethernet ports. Hardware highligts: - CPU: Atheros AR7161 SoC at 680 MHz - RAM: 64MB DDR - Flash: 16MB SPI-NOR - Wi-Fi 2.4GHz: AR9280 PCI 2x2 MIMO radio with external beamforming - Wi-Fi 5GHz: AR9280 PCI 2x2 MIMO radio with external beamforming - Ethernet 1: single Gigabit Ethernet port through Marvell 88E1116R gigabit PHY - Ethernet 2: two Fast Ethernet ports through Realtek RTL8363S switch, connected with Fast Ethernet link to CPU. - PoE: input through Gigabit port - Standalone 12V/1A power input - USB: optional single USB 2.0 host port on the -U variants. Serial console: 115200-8-N-1 on internal H1 header. Pinout: H1 ---------- |1|x3|4|5| ---------- Pin 1 is near the "H1" marking. 1 - RX x - no pin 3 - VCC (3.3V) 4 - GND 5 - TX Installation: - Using serial console - requires some disassembly, 3.3V USB-Serial adapter, TFTP server, and removing a single PH1 screw. 0. Connect serial console to H1 header. Ensure the serial converter does not back-power the board, otherwise it will fail to boot. 1. Power-on the board. Then quickly connect serial converter to PC and hit Ctrl+C in the terminal to break boot sequence. If you're lucky, you'll enter U-boot shell. Then skip to point 3. Connection parameters are 115200-8-N-1. 2. Allow the board to boot. Press the reset button, so the board reboots into U-boot again and go back to point 1. 3. Set the "bootcmd" variable to disable the dual-boot feature of the system and ensure that uImage is loaded. This is critical step, and needs to be done only on initial installation. > setenv bootcmd "bootm 0xbf040000" > saveenv 4. Boot the OpenWrt initramfs using TFTP. Replace IP addresses as needed. Use the Gigabit interface, Fast Ethernet ports are not supported under U-boot: > setenv serverip 192.168.1.2 > setenv ipaddr 192.168.1.1 > tftpboot 0x81000000 openwrt-ath79-generic-ruckus_zf7363-initramfs-kernel.bin > bootm 0x81000000 5. Optional, but highly recommended: back up contents of "firmware" partition: $ ssh root@192.168.1.1 cat /dev/mtd1 > ruckus_zf7363_fw_backup.bin 6. Copy over sysupgrade image, and perform actual installation. OpenWrt shall boot from flash afterwards: $ ssh root@192.168.1.1 # sysupgrade -n openwrt-ath79-generic-ruckus_zf7363-squashfs-sysupgrade.bin After unit boots, it should be available at the usual 192.168.1.1/24. Return to factory firmware: 1. Copy over the backup to /tmp, for example using scp 2. Unset the "bootcmd" variable: fw_setenv bootcmd "" 3. Use sysupgrade with force to restore the backup: sysupgrade -F ruckus_zf7363_backup.bin 4. System will reboot. Quirks and known issues: - Fast Ethernet ports on ZF7363 and ZF7343 are supported, but management features of the RTL8363S switch aren't implemented yet, though the switch is visible over MDIO0 bus. This is a gigabit-capable switch, so link establishment with a gigabit link partner may take a longer time because RTL8363S advertises gigabit, and the port magnetics don't support it, so a downshift needs to occur. Both ports are accessible at eth1 interface, which - strangely - runs only at 100Mbps itself. - Flash layout is changed from the factory, to use both firmware image partitions for storage using mtd-concat, and uImage format is used to actually boot the system, which rules out the dual-boot capability. - Both radio has its own EEPROM on board, not connected to CPU. - The stock firmware has dual-boot capability, which is not supported in OpenWrt by choice. It is controlled by data in the top 64kB of RAM which is unmapped, to avoid the interference in the boot process and accidental switch to the inactive image, although boot script presence in form of "bootcmd" variable should prevent this entirely. - On some versions of stock firmware, it is possible to obtain root shell, however not much is available in terms of debugging facitilies. 1. Login to the rkscli 2. Execute hidden command "Ruckus" 3. Copy and paste ";/bin/sh;" including quotes. This is required only once, the payload will be stored in writable filesystem. 4. Execute hidden command "!v54!". Press Enter leaving empty reply for "What's your chow?" prompt. 5. Busybox shell shall open. Source: https://alephsecurity.com/vulns/aleph-2019014 - There is second method to achieve root shell, using command injection in the web interface: 1. Login to web administration interface 2. Go to Administration > Diagnostics 3. Enter |telnetd${IFS}-p${IFS}204${IFS}-l${IFS}/bin/sh into "ping" field 4. Press "Run test" 5. Telnet to the device IP at port 204 6. Busybox shell shall open. Source: https://github.com/chk-jxcn/ruckusremoteshell Signed-off-by: Lech Perczak <lech.perczak@gmail.com> |
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Lech Perczak
|
694b8e6521 |
ath79: support Ruckus ZoneFlex 7351
Ruckus ZoneFlex 7351 is a dual-band, dual-radio 802.11n 2x2 MIMO enterprise access point. Hardware highligts: - CPU: Atheros AR7161 SoC at 680 MHz - RAM: 64MB DDR - Flash: 16MB SPI-NOR - Wi-Fi 2.4GHz: AR9280 PCI 2x2 MIMO radio with external beamforming - Wi-Fi 5GHz: AR9280 PCI 2x2 MIMO radio with external beamforming - Ethernet: single Gigabit Ethernet port through Marvell 88E1116R gigabit PHY - Standalone 12V/1A power input - USB: optional single USB 2.0 host port on the 7351-U variant. Serial console: 115200-8-N-1 on internal H1 header. Pinout: H1 ---------- |1|x3|4|5| ---------- Pin 1 is near the "H1" marking. 1 - RX x - no pin 3 - VCC (3.3V) 4 - GND 5 - TX Installation: - Using serial console - requires some disassembly, 3.3V USB-Serial adapter, TFTP server, and removing a single T10 screw. 0. Connect serial console to H1 header. Ensure the serial converter does not back-power the board, otherwise it will fail to boot. 1. Power-on the board. Then quickly connect serial converter to PC and hit Ctrl+C in the terminal to break boot sequence. If you're lucky, you'll enter U-boot shell. Then skip to point 3. Connection parameters are 115200-8-N-1. 2. Allow the board to boot. Press the reset button, so the board reboots into U-boot again and go back to point 1. 3. Set the "bootcmd" variable to disable the dual-boot feature of the system and ensure that uImage is loaded. This is critical step, and needs to be done only on initial installation. > setenv bootcmd "bootm 0xbf040000" > saveenv 4. Boot the OpenWrt initramfs using TFTP. Replace IP addresses as needed: > setenv serverip 192.168.1.2 > setenv ipaddr 192.168.1.1 > tftpboot 0x81000000 openwrt-ath79-generic-ruckus_zf7351-initramfs-kernel.bin > bootm 0x81000000 5. Optional, but highly recommended: back up contents of "firmware" partition: $ ssh root@192.168.1.1 cat /dev/mtd1 > ruckus_zf7351_fw_backup.bin 6. Copy over sysupgrade image, and perform actual installation. OpenWrt shall boot from flash afterwards: $ ssh root@192.168.1.1 # sysupgrade -n openwrt-ath79-generic-ruckus_zf7351-squashfs-sysupgrade.bin After unit boots, it should be available at the usual 192.168.1.1/24. Return to factory firmware: 1. Copy over the backup to /tmp, for example using scp 2. Unset the "bootcmd" variable: fw_setenv bootcmd "" 3. Use sysupgrade with force to restore the backup: sysupgrade -F ruckus_zf7351_backup.bin 4. System will reboot. Quirks and known issues: - Flash layout is changed from the factory, to use both firmware image partitions for storage using mtd-concat, and uImage format is used to actually boot the system, which rules out the dual-boot capability. - Both radio has its own EEPROM on board, not connected to CPU. - The stock firmware has dual-boot capability, which is not supported in OpenWrt by choice. It is controlled by data in the top 64kB of RAM which is unmapped, to avoid the interference in the boot process and accidental switch to the inactive image, although boot script presence in form of "bootcmd" variable should prevent this entirely. - On some versions of stock firmware, it is possible to obtain root shell, however not much is available in terms of debugging facitilies. 1. Login to the rkscli 2. Execute hidden command "Ruckus" 3. Copy and paste ";/bin/sh;" including quotes. This is required only once, the payload will be stored in writable filesystem. 4. Execute hidden command "!v54!". Press Enter leaving empty reply for "What's your chow?" prompt. 5. Busybox shell shall open. Source: https://alephsecurity.com/vulns/aleph-2019014 - There is second method to achieve root shell, using command injection in the web interface: 1. Login to web administration interface 2. Go to Administration > Diagnostics 3. Enter |telnetd${IFS}-p${IFS}204${IFS}-l${IFS}/bin/sh into "ping" field 4. Press "Run test" 5. Telnet to the device IP at port 204 6. Busybox shell shall open. Source: https://github.com/chk-jxcn/ruckusremoteshell Signed-off-by: Lech Perczak <lech.perczak@gmail.com> |
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David Bauer
|
14334c222e |
ath79: refactor devolo WiFi pro image definitions
Reuse common parts for the devolo WiFi pro series. The series is discontinued and we support all existing devices, so changes due to new revisions or models are highly unlikely Signed-off-by: David Bauer <mail@david-bauer.net> |
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Michael Pratt
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f9c28222c8 |
ath79: add support for Senao Engenius ESR1200
FCC ID: A8J-ESR900 Engenius ESR1200 is an indoor wireless router with a gigabit ethernet switch, dual-band wireless, internal antenna plates, and a USB 2.0 port **Specification:** - QCA9557 SOC 2.4 GHz, 2x2 - QCA9882 WLAN PCIe mini card, 5 GHz, 2x2 - QCA8337N SW 4 ports LAN, 1 port WAN - 40 MHz clock - 16 MB FLASH MX25L12845EMI-10G - 2x 64 MB RAM - UART at J1 populated, RX grounded - 6 internal antenna plates (omni-directional) - 5 LEDs, 1 button (power, 2G, 5G, WAN, WPS) (reset) **MAC addresses:** Base MAC address labeled as "MAC ADDRESS" MAC "wanaddr" is not similar to "ethaddr" eth0 *:c8 MAC u-boot-env ethaddr phy0 *:c8 MAC u-boot-env ethaddr phy1 *:c9 --- u-boot-env ethaddr +1 WAN *:66:44 u-boot-env wanaddr **Serial Access:** RX on the board for UART is shorted to ground by resistor R176 therefore it must be removed to use the console but it is not necessary to remove to view boot log optionally, R175 can be replaced with a solder bridge short the resistors R175 and R176 are next to the UART RX pin **Installation:** Method 1: Firmware upgrade page OEM webpage at 192.168.0.1 username and password "admin" Navigate to Settings (gear icon) --> Tools --> Firmware select the factory.bin image confirm and wait 3 minutes Method 2: TFTP recovery Follow TFTP instructions using initramfs.bin use sysupgrade.bin to flash using openwrt web interface **Return to OEM:** MTD partitions should be backed up before flashing using TFTP to boot openwrt without overwriting flash Alternatively, it is possible to edit OEM firmware images to flash MTD partitions in openwrt to restore OEM firmware by removing the OEM header and writing the rest to "firmware" **TFTP recovery:** Requires serial console, reset button does nothing at boot rename initramfs.bin to 'uImageESR1200' make available on TFTP server at 192.168.99.8 power board, interrupt boot by pressing '4' rapidly execute tftpboot and bootm **Note on ETH switch registers** Registers must be written to the ethernet switch in order to set up the switch's MAC interface. U-boot can write the registers on it's own which is needed, for example, in a TFTP transfer. The register bits from OEM for the QCA8337 switch can be read from interrupted boot (tftpboot, bootm) by adding print lines in the switch driver ar8327.c before 'qca,ar8327-initvals' is parsed from DTS and written. for example: pr_info("0x04 %08x\n", ar8xxx_read(priv, AR8327_REG_PAD0_MODE)); Signed-off-by: Michael Pratt <mcpratt@pm.me> |
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Michael Pratt
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96c2119dba |
ath79: add support for Senao Engenius ESR1750
FCC ID: A8J-ESR1750 Engenius ESR1750 is an indoor wireless router with a gigabit ethernet switch, dual-band wireless, internal antenna plates, and a USB 2.0 port **Specification:** - QCA9558 SOC 2.4 GHz, 3x3 - QCA9880 WLAN PCIe mini card, 5 GHz, 3x3 - QCA8337N SW 4 ports LAN, 1 port WAN - 40 MHz clock - 16 MB FLASH MX25L12845EMI-10G - 2x 64 MB RAM - UART at J1 populated, RX grounded - 6 internal antenna plates (omni-directional) - 5 LEDs, 1 button (power, 2G, 5G, WAN, WPS) (reset) **MAC addresses:** Base MAC address labeled as "MAC ADDRESS" MAC "wanaddr" is similar to "ethaddr" eth0 *:58 MAC u-boot-env ethaddr phy0 *:58 MAC u-boot-env ethaddr phy1 *:59 --- u-boot-env ethaddr +1 WAN *:10:58 u-boot-env wanaddr **Serial Access:** RX on the board for UART is shorted to ground by resistor R176 therefore it must be removed to use the console but it is not necessary to remove to view boot log optionally, R175 can be replaced with a solder bridge short the resistors R175 and R176 are next to the UART RX pin **Installation:** Method 1: Firmware upgrade page NOTE: ESR1750 might require the factory.bin for ESR1200 instead, OEM provides 1 image for both. OEM webpage at 192.168.0.1 username and password "admin" Navigate to Settings (gear icon) --> Tools --> Firmware select the factory.bin image confirm and wait 3 minutes Method 2: TFTP recovery Follow TFTP instructions using initramfs.bin use sysupgrade.bin to flash using openwrt web interface **Return to OEM:** MTD partitions should be backed up before flashing using TFTP to boot openwrt without overwriting flash Alternatively, it is possible to edit OEM firmware images to flash MTD partitions in openwrt to restore OEM firmware by removing the OEM header and writing the rest to "firmware" **TFTP recovery:** Requires serial console, reset button does nothing at boot rename initramfs.bin to 'uImageESR1200' make available on TFTP server at 192.168.99.8 power board, interrupt boot by pressing '4' rapidly execute tftpboot and bootm **Note on ETH switch registers** Registers must be written to the ethernet switch in order to set up the switch's MAC interface. U-boot can write the registers on it's own which is needed, for example, in a TFTP transfer. The register bits from OEM for the QCA8337 switch can be read from interrupted boot (tftpboot, bootm) by adding print lines in the switch driver ar8327.c before 'qca,ar8327-initvals' is parsed from DTS and written. for example: pr_info("0x04 %08x\n", ar8xxx_read(priv, AR8327_REG_PAD0_MODE)); Signed-off-by: Michael Pratt <mcpratt@pm.me> |
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Michael Pratt
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2f99f7e2d0 |
ath79: add support for Senao Engenius ESR900
FCC ID: A8J-ESR900 Engenius ESR900 is an indoor wireless router with a gigabit ethernet switch, dual-band wireless, internal antenna plates, and a USB 2.0 port **Specification:** - QCA9558 SOC 2.4 GHz, 3x3 - AR9580 WLAN PCIe on board, 5 GHz, 3x3 - AR8327N SW 4 ports LAN, 1 port WAN - 40 MHz clock - 16 MB FLASH MX25L12845EMI-10G - 2x 64 MB RAM - UART at J1 populated, RX grounded - 6 internal antenna plates (omni-directional) - 5 LEDs, 1 button (power, 2G, 5G, WAN, WPS) (reset) **MAC addresses:** Base MAC address labeled as "MAC ADDRESS" MAC "wanaddr" is not similar to "ethaddr" eth0 *:06 MAC u-boot-env ethaddr phy0 *:06 MAC u-boot-env ethaddr phy1 *:07 --- u-boot-env ethaddr +1 WAN *:6E:81 u-boot-env wanaddr **Serial Access:** RX on the board for UART is shorted to ground by resistor R176 therefore it must be removed to use the console but it is not necessary to remove to view boot log optionally, R175 can be replaced with a solder bridge short the resistors R175 and R176 are next to the UART RX pin **Installation:** Method 1: Firmware upgrade page OEM webpage at 192.168.0.1 username and password "admin" Navigate to Settings (gear icon) --> Tools --> Firmware select the factory.bin image confirm and wait 3 minutes Method 2: TFTP recovery Follow TFTP instructions using initramfs.bin use sysupgrade.bin to flash using openwrt web interface **Return to OEM:** MTD partitions should be backed up before flashing using TFTP to boot openwrt without overwriting flash Alternatively, it is possible to edit OEM firmware images to flash MTD partitions in openwrt to restore OEM firmware by removing the OEM header and writing the rest to "firmware" **TFTP recovery:** Requires serial console, reset button does nothing at boot rename initramfs.bin to 'uImageESR900' make available on TFTP server at 192.168.99.8 power board, interrupt boot by pressing '4' rapidly execute tftpboot and bootm **Note on ETH switch registers** Registers must be written to the ethernet switch in order to set up the switch's MAC interface. U-boot can write the registers on it's own which is needed, for example, in a TFTP transfer. The register bits from OEM for the AR8327 switch can be read from interrupted boot (tftpboot, bootm) by adding print lines in the switch driver ar8327.c before 'qca,ar8327-initvals' is parsed from DTS and written. for example: pr_info("0x04 %08x\n", ar8xxx_read(priv, AR8327_REG_PAD0_MODE)); Signed-off-by: Michael Pratt <mcpratt@pm.me> |
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Rosen Penev
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2630e5063d |
treewide: replace wpad-basic-wolfssl default
The newly merged mbedtls backend is smaller and has fewer ABI related issues than the wolfSSL one. Signed-off-by: Rosen Penev <rosenp@gmail.com> |