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path: root/target/linux/ath79/generic/base-files/etc/hotplug.d/firmware/11-ath10k-caldata
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* ath79: convert ath10k calibration data to NVMEM (ASCII MAC)Shiji Yang2024-02-01
| | | | | | | | | This patch converts ath10k calibration data to NVMEM format for wave 1 devices with mtd ASCII MAC address. The "calibration" NVMEM cell size is 0x844. All unportable MAC address settings have been moved to '10_fix_wifi_mac' scripts. Signed-off-by: Shiji Yang <yangshiji66@qq.com>
* ath79: convert ath10k calibration data to NVMEM (binary MAC)Shiji Yang2024-02-01
| | | | | | | | This patch converts ath10k calibration data to NVMEM format for wave 1 devices with mtd binary MAC address. The "calibration" NVMEM cell size is 0x844. The MAC addresses are assigned via dts. Signed-off-by: Shiji Yang <yangshiji66@qq.com>
* ath79: convert ath10k calibration data to NVMEM (built-in MAC)Shiji Yang2024-02-01
| | | | | | | | This patch converts ath10k calibration data to NVMEM format for wave 1 devices with built-in MAC address. The "calibration" NVMEM cell size is 0x844. Signed-off-by: Shiji Yang <yangshiji66@qq.com>
* ath79: convert ath10k pre-calibration data to NVMEM (ASCII MAC)Shiji Yang2024-02-01
| | | | | | | | | This patch converts ath10k pre-calibration data to NVMEM format for wave 2 devices with mtd ASCII MAC address. The "pre-calibration" NVMEM cell size is 0x2f20. All unportable MAC address settings have been moved to '10_fix_wifi_mac' scripts. Signed-off-by: Shiji Yang <yangshiji66@qq.com>
* ath79: convert ath10k pre-calibration data to NVMEM (binary MAC)Shiji Yang2024-02-01
| | | | | | | | This patch converts ath10k pre-calibration data to NVMEM format for wave 2 devices with mtd binary MAC address. The "pre-calibration" NVMEM cell size is 0x2f20. The MAC addresses are assigned via dts. Signed-off-by: Shiji Yang <yangshiji66@qq.com>
* ath79: convert ath10k pre-calibration data to NVMEM (built-in MAC)Shiji Yang2024-02-01
| | | | | | | | This patch converts ath10k pre-calibration data to NVMEM format for wave 2 devices with built-in MAC address. The "pre-calibration" NVMEM cell size is 0x2f20. Signed-off-by: Shiji Yang <yangshiji66@qq.com>
* ath79: add back board-2.bin to COMFAST devicesShiji Yang2024-02-01
| | | | | | | | The ath10k driver will load both pre-calibration data and board-2.bin if board-2.bin exists. So it's not necessary to remove it. And this change won't increase jffs2 image size. Signed-off-by: Shiji Yang <yangshiji66@qq.com>
* ath79: add support for UniFi UK-UltraDavid Bauer2024-01-07
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | Hardware -------- CPU: Qualcomm Atheros QCA9563 RAM: 128M DDR2 FLASH: 16MB SPI-NOR WiFi: Qualcomm Atheros QCA9563 2x2:2 802.11n 2.4GHz Qualcomm Atheros QCA9880 2x2:2 802.11ac 5GHz Antennas -------- The device features internal antennas as well as external antenna connectors. By default, the internal antennas are used. Two GPIOs are exported by name, which can be used to control the antenna-path mux. Writing a logical 0 enables the external antenna connectors. Installation ------------ 1. Download the OpenWrt sysupgrade image to the device. You can use scp for this task. The default username and password are "ubnt" and the device is reachable at 192.168.1.20. $ scp -O openwrt-sysupgrade.bin ubnt@192.168.1.20:/tmp/firmware.bin 2. Connect to the device using SSH. $ ssh ubnt@192.168.1.20 3. Disable the write-protect $ echo "5edfacbf" > /proc/ubnthal/.uf 4. Verify kernel0 and kernel1 match mtd2 and mtd3 $ cat /proc/mtd 5. Write the sysupgrade image to kernel0 and kernel1 $ dd if=/tmp/firmware.bin of=/dev/mtdblock2 $ dd if=/tmp/firmware.bin of=/dev/mtdblock3 6. Write the bootselect flag to boot from kernel0 $ dd if=/dev/zero bs=1 count=1 of=/dev/mtd4 7. Reboot the device $ reboot Signed-off-by: David Bauer <mail@david-bauer.net>
* ath79: add support for COMFAST CF-E380AC v2Joao Henrique Albuquerque2023-07-01
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | 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>
* ath79: Convert calibration data to nvmemJan Forman2023-05-20
| | | | | | | | | For D-link DIR-859 and DIR-869 Replace the mtd-cal-data by an nvmem-cell. Add the PCIe node for the ath10k radio to the devicetree. Thanks to DragonBlue for this patch Signed-off-by: Jan Forman <jforman@tuta.io>
* ath79: convert Engenius EPG5000 radios to nvmem-cellsMichael Pratt2023-02-12
| | | | | | | | | | | Use nvmem kernel subsystem to pull radio calibration data with the devicetree instead of userspace scripts. Existing blocks for caldata_extract are reordered alphabetically. MAC address is set using the hotplug script. Signed-off-by: Michael Pratt <mcpratt@pm.me>
* ath79: convert Netgear EX7300 caldata to nvmemWenli Looi2023-01-25
| | | | | | Transition to specify caldata in the DTS. Signed-off-by: Wenli Looi <wlooi@ucalgary.ca>
* ath79: consolidate Netgear EX7300 series imagesWenli Looi2023-01-25
| | | | | | | | | | | | | | | | | | | | | | | This change consolidates Netgear EX7300 series devices into two images corresponding to devices that share the same manufacturer firmware image. Similar to the manufacturer firmware, the actual device model is detected at runtime. The logic is taken from the netgear GPL dumps in a file called generate_board_conf.sh. Hardware details for EX7300 v2 variants --------------------------------------- SoC: QCN5502 Flash: 16 MiB RAM: 128 MiB Ethernet: 1 gigabit port Wireless 2.4GHz (currently unsupported due to lack of ath9k support): - EX6250 / EX6400 v2 / EX6410 / EX6420: QCN5502 3x3 - EX7300 v2 / EX7320: QCN5502 4x4 Wireless 5GHz: - EX6250: QCA9986 3x3 (detected by ath10k as QCA9984 3x3) - EX6400 v2 / EX6410 / EX6420 / EX7300 v2 / EX7320: QCA9984 4x4 Signed-off-by: Wenli Looi <wlooi@ucalgary.ca>
* ath79: convert UBNT Aircube AC WiFis to nvmem-cellsStefan Kalscheuer2023-01-06
| | | | | | | | | Pull the calibration data from the nvmem subsystem. This allows us to move userspace caldata extraction into the device-tree definition. Merge art into partition node. Signed-off-by: Stefan Kalscheuer <stefan@stklcode.de>
* ath79: use nvmem-cells for radio calibration of EAP1200HMichael Pratt2022-11-27
| | | | | | Transition from userscript to DTS for all of ART. Signed-off-by: Michael Pratt <mcpratt@pm.me>
* ath79: use NVMEM for wlan caldata on ELECOM devicesINAGAKI Hiroshi2022-10-19
| | | | | | | | Use NVMEM "calibration" implementation for ath9k/ath10k(-ct) on ELECOM WRC-300GHBK2-I and WRC-1750GHBK2-I/C instead of mtd-cal-data property or user-space script. Signed-off-by: INAGAKI Hiroshi <musashino.open@gmail.com>
* ath79: add support for TP-Link Deco S4Nick French2022-09-11
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | Add support for TP-Link Deco S4 wifi router The label refers to the device as S4R and the TP-Link firmware site calls it the Deco S4 v2. (There does not appear to be a v1) Hardware (and FCC id) are identical to the Deco M4R v2 but the flash layout is ordered differently and the OEM firmware encrypts some config parameters (including the label mac address) in flash In order to set the encrypted mac address, the wlan's caldata node is removed from the DTS so the mac can be decrypted with the help of the uencrypt tool and patched into the wlan fw via hotplug Specifications: SoC: QCA9563-AL3A RAM: Zentel A3R1GE40JBF Wireless 2.4GHz: QCA9563-AL3A (main SoC) Wireless 5GHz: QCA9886 Ethernet Switch: QCA8337N-AL3C Flash: 16 MB SPI NOR UART serial access (115200N1) on board via solder pads: RX = TP1 pad TX = TP2 pad GND = C201 (pad nearest board edge) The device's bootloader and web gui will only accept images that were signed using TP-Link's RSA key, however a memory safety bug in the bootloader can be leveraged to install openwrt without accessing the serial console. See developer forum S4 support page for link to a "firmware" file that starts a tftp client, or you may generate one on your own like this: ``` python - > deco_s4_faux_fw_tftp.bin <<EOF import sys from struct import pack b = pack('>I', 0x00008000) + b'X'*16 + b"fw-type:" \ + b'x'*256 + b"S000S001S002" + pack('>I', 0x80060200) \ b += b"\x00"*(0x200-len(b)) \ + pack(">33I", *[0x3c0887fc, 0x35083ddc, 0xad000000, 0x24050000, 0x3c048006, 0x348402a0, 0x3c1987f9, 0x373947f4, 0x0320f809, 0x00000000, 0x24050000, 0x3c048006, 0x348402d0, 0x3c1987f9, 0x373947f4, 0x0320f809, 0x00000000, 0x24050000, 0x3c048006, 0x34840300, 0x3c1987f9, 0x373947f4, 0x0320f809, 0x00000000, 0x24050000, 0x3c048006, 0x34840400, 0x3c1987f9, 0x373947f4, 0x0320f809, 0x00000000, 0x1000fff1, 0x00000000]) b += b"\xff"*(0x2A0-len(b)) + b"setenv serverip 192.168.0.2\x00" b += b"\xff"*(0x2D0-len(b)) + b"setenv ipaddr 192.168.0.1\x00" b += b"\xff"*(0x300-len(b)) + b"tftpboot 0x81000000 initramfs-kernel.bin\x00" b += b"\xff"*(0x400-len(b)) + b"bootm 0x81000000\x00" b += b"\xff"*(0x8000-len(b)) sys.stdout.buffer.write(b) EOF ``` Installation: 1. Run tftp server on pc with static ip 192.168.0.2 2. Place openwrt "initramfs-kernel.bin" image in tftp root dir 3. Connect pc to router ethernet port1 4. While holding in reset button on bottom of router, power on router 5. From pc access router webgui at http://192.168.0.1 6. Upload deco_s4_faux_fw_tftp.bin 7. Router will load and execture in-memory openwrt 8. Switch pc back to dhcp or static 192.168.1.x 9. Flash openwrt sysupgrade image via luci/ssh at 192.168.1.1 Revert to stock: Press and hold reset button while powering device to start the bootloader's recovery mode, where stock firmware can be uploaded via web gui at 192.168.0.1 Please note that one additional non-github commits is also needed: firmware-utils: add tplink-safeloader support for Deco S4 Signed-off-by: Nick French <nickfrench@gmail.com>
* ath79: add support for Senao WatchGuard AP300Michael Pratt2022-09-11
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | FCC ID: Q6G-AP300 WatchGuard AP300 is an indoor wireless access point with 1 Gb ethernet port, dual-band wireless, internal antenna plates, and 802.3at PoE+ this board is a Senao device: the hardware is equivalent to EnGenius EAP1750 the software is modified Senao SDK which is based on openwrt and uboot including image checksum verification at boot time, and a failsafe image that boots if checksum fails **Specification:** - QCA9558 SOC MIPS 74kc, 2.4 GHz WMAC, 3x3 - QCA9880 WLAN PCI card 168c:003c, 5 GHz, 3x3, 26dBm - AR8035-A PHY RGMII GbE with PoE+ IN - 40 MHz clock - 32 MB FLASH S25FL512S - 2x 64 MB RAM NT5TU32M16 - UART console J10, populated - GPIO watchdog GPIO 16, 20 sec toggle - 6 antennas 5 dBi, internal omni-directional plates - 5 LEDs power, eth0 link/data, 2G, 5G - 1 button reset **MAC addresses:** MAC address labeled as ETH Only one Vendor MAC address in flash at art 0x0 eth0 ETH *:3c art 0x0 phy1 ---- *:3d --- phy0 ---- *:3e --- **Serial console access:** For this board, its not certain whether UART is possible it is likely that software is blocking console access the RX line on the board for UART is shorted to ground by resistor R176 the resistors R175 and R176 are next to the UART RX pin at J10 however console output is garbage even after this fix **Installation:** Method 1: OEM webpage use OEM webpage for firmware upgrade to upload factory.bin Method 2: root shell access downgrade XTM firewall to v2.0.0.1 downgrade AP300 firmware: v1.0.1 remove / unpair AP from controller perform factory reset with reset button connect ethernet to a computer login to OEM webpage with default address / pass: wgwap enable SSHD in OEM webpage settings access root shell with SSH as user 'root' modify uboot environment to automatically try TFTP at boot time (see command below) rename initramfs-kernel.bin to test.bin load test.bin over TFTP (see TFTP recovery) (optionally backup all mtdblocks to have flash backup) perform a sysupgrade with sysupgrade.bin NOTE: DHCP is not enabled by default after flashing **TFTP recovery:** server ip: 192.168.1.101 reset button seems to do nothing at boot time... only possible with modified uboot environment, running this command in the root shell: fw_setenv bootcmd 'if ping 192.168.1.101; then tftp 0x82000000 test.bin && bootm 0x82000000; else bootm 0x9f0a0000; fi' and verify that it is correct with fw_printenv then, before boot, the device will attempt TFTP from 192.168.1.101 looking for file 'test.bin' to return uboot environment to normal: fw_setenv bootcmd 'bootm 0x9f0a0000' **Return to OEM:** user should make backup of MTD partitions and write the backups back to mtd devices in order to revert to OEM (see installation method 2) It may be possible to use sysupgrade with an OEM image as well... (not tested) **OEM upgrade info:** 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 eth0 PLL-data:** The default Ethernet Configuration 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 **Note on WatchGuard Magic string:** The OEM upgrade script is a modified version of the generic Senao sysupgrade script which is used on EnGenius devices. On WatchGuard boards produced by Senao, images are verified using a md5sum checksum of the upgrade image concatenated with a magic string. this checksum is then appended to the end of the final image. This variable does not apply to all the senao devices so set to null string as default Tested-by: Alessandro Kornowski <ak@wski.org> Tested-by: John Wagner <john@wagner.us.org> Signed-off-by: Michael Pratt <mcpratt@pm.me>
* ath79: add support for Extreme Networks WS-AP3805iAlbin Hellström2022-08-29
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | Specifications: - SoC: Qualcomm Atheros QCA9557-AT4A - RAM: 2x 128MB Nanya NT5TU64M16HG - FLASH: 64MB - SPANSION FL512SAIFG1 - LAN: Atheros AR8035-A (RGMII GbE with PoE+ IN) - WLAN2: Qualcomm Atheros QCA9557 2x2 2T2R - WLAN5: Qualcomm Atheros QCA9882-BR4A 2x2 2T2R - SERIAL: UART pins at J10 (115200 8n1) Pinout is 3.3V - GND - TX - RX (Arrow Pad is 3.3V) - LEDs: Power (Green/Amber) WiFi 5 (Green) WiFi 2 (Green) - BTN: Reset Installation: 1. Download the OpenWrt initramfs-image. Place it into a TFTP server root directory and rename it to 1D01A8C0.img Configure the TFTP server to listen at 192.168.1.66/24. 2. Connect the TFTP server to the access point. 3. Connect to the serial console of the access point. Attach power and interrupt the boot procedure when prompted. Credentials are admin / new2day 4. Configure U-Boot for booting OpenWrt from ram and flash: $ setenv boot_openwrt 'setenv bootargs; bootm 0xa1280000' $ setenv ramboot_openwrt 'setenv serverip 192.168.1.66; tftpboot 0x89000000 1D01A8C0.img; bootm' $ setenv bootcmd 'run boot_openwrt' $ saveenv 5. Load OpenWrt into memory: $ run ramboot_openwrt 6. Transfer the OpenWrt sysupgrade image to the device. Write the image to flash using sysupgrade: $ sysupgrade -n /path/to/openwrt-sysupgrade.bin Signed-off-by: Albin Hellström <albin.hellstrom@gmail.com> [rename vendor - minor style fixes - update commit message] Signed-off-by: David Bauer <mail@david-bauer.net>
* ath79: add support for Sophos AP15Manuel Niekamp2022-08-06
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | The Sophos AP15 seems to be very close to Sophos AP55/AP100. Based on: commit 6f1efb289837 ("ath79: add support for Sophos AP100/AP55 family") author Andrew Powers-Holmes <andrew@omnom.net> Fri, 3 Sep 2021 15:53:57 +0200 (23:53 +1000) committer Hauke Mehrtens <hauke@hauke-m.de> Sat, 16 Apr 2022 16:59:29 +0200 (16:59 +0200) Unique to AP15: - Green and yellow LED - 2T2R 2.4GHz 802.11b/g/n via SoC WMAC - No buttons - No piezo beeper - No 5.8GHz Flashing instructions: - Derived from UART method described in referenced commit, methods described there should work too. - Set up a TFTP server; IP address has to be 192.168.99.8/24 - Copy the firmware (initramfs-kernel) to your TFTP server directory renaming it to e.g. boot.bin - Open AP's enclosure and locate UART header (there is a video online) - Terminal connection parameters are 115200 8/N/1 - Connect TFTP server and AP via ethernet - Power up AP and cancel autoboot when prompted - Prompt shows 'ath> ' - Commands used to boot: ath> tftpboot 0x81000000 boot.bin ath> bootm 0x81000000 - Device should boot OpenWRT - IP address after boot is 192.168.1.1/24 - Connect to device via browser - Permanently flash using the web ui (flashing sysupgrade image) - (BTW: the AP55 images seem to work too, only LEDs are not working) Testing done: - To be honest: Currently not so much testing done. - Flashed onto two devices - Devices are booting - MAC addresses are correct - LEDs are working - Scanning for WLANs is working Big thanks to all the people working on this great project! (Sorry about my english, it is not my native language) Signed-off-by: Manuel Niekamp <m.niekamp@richter-leiterplatten.de>
* ath79: add support for ASUS RP-AC51Tamas Balogh2022-06-30
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | Asus RP-AC51 Repeater Category: AC750 300+433 (OEM w. unstable driver) AC1200 300+866 (OpenWrt w. stable driver) Hardware specifications: Board: AP147 SoC: QCA9531 2.4G b/g/n WiFi: QCA9886 5G n/ac DRAM: 128MB DDR2 Flash: gd25q128 16MB SPI-NOR LAN/WAN: AR8229 1x100M Clocks: CPU:650MHz, DDR:600MHz, AHB:200MHz MAC addresses as verified by OEM firmware: use address source Lan/W2G *:C8 art 0x1002 (label) 5G *:CC art 0x5006 Installation: Asus windows recovery tool: install the Asus firmware restoration utility unplug the router, hold the reset button while powering it on release when the power LED flashes slowly specify a static IP on your computer: IP address: 192.168.1.75 Subnet mask 255.255.255.0 Start the Asus firmware restoration utility, specify the factory image and press upload Do not power off the device after OpenWrt has booted until the LED flashing. TFTP Recovery method: set computer to a static ip, 192.168.1.10 connect computer to the LAN 1 port of the router hold the reset button while powering on the router for a few seconds send firmware image using a tftp client; i.e from linux: $ tftp tftp> binary tftp> connect 192.168.1.1 tftp> put factory.bin tftp> quit Signed-off-by: Tamas Balogh <tamasbalogh@hotmail.com>
* ath79: add support for ASUS PL-AC56Tamas Balogh2022-06-30
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | Asus PL-AC56 Powerline Range Extender Rev.A1 (in kit with Asus PL-E56P Powerline-slave) Hardware specifications: Board: AP152 SoC: QCA9563 2.4G n 3x3 PLC: QCA7500 WiFi: QCA9882 5G ac 2x2 Switch: QCA8337 3x1000M Flash: 16MB 25L12835F SPI-NOR DRAM SoC: 64MB w9751g6kb-25 DRAM PLC: 128MB w631gg6kb-15 Clocks: CPU:775.000MHz, DDR:650.000MHz, AHB:258.333MHz, Ref:25.000MHz MAC addresses as verified by OEM firmware: use address source Lan/Wan/PLC *:10 art 0x1002 (label) 2G *:10 art 0x1000 5G *:14 art 0x5000 Important notes: the PLC firmware has to be provided and copied manually onto the device! The PLC here has no dedicated flash, thus the firmware file has to be uploaded to the PLC controller at every system start the PLC functionality is managed by the script /etc/init.d/plc_basic, a very basic script based on the the one from Netadair (netadair dot de) Installation: Asus windows recovery tool: have to have the latest Asus firmware flashed before continuing! install the Asus firmware restoration utility unplug the router, hold the reset button while powering it on release when the power LED flashes slowly specify a static IP on your computer: IP address: 192.168.1.75 Subnet mask 255.255.255.0 start the Asus firmware restoration utility, specify the factory image and press upload do NOT power off the device after OpenWrt has booted until the LED flashing TFTP Recovery method: have to have the latest Asus firmware flashed before continuing! set computer to a static ip, 192.168.1.75 connect computer to the LAN 1 port of the router hold the reset button while powering on the router for a few seconds send firmware image using a tftp client; i.e from linux: $ tftp tftp> binary tftp> connect 192.168.1.1 tftp> put factory.bin tftp> quit do NOT power off the device after OpenWrt has booted until the LED flashing Additional notes: the pairing buttons have to have pressed for at least half a second, it doesn't matter on which plc device (master or slave) first it is possible to pair the devices without the button-pairing requirement simply by pressing reset on the slave device. This will default to the firmware settings, which is also how the plc_basic script is setting up the master device, i.e. configuring it to firmware defaults the PL-E56P slave PLC has its dedicated 4MByte SPI, thus it is capable to store all firmware currently available. Note that some other slave devices are not guarantied to have the capacity for the newer ~1MByte firmware blobs! To have a good overlook about the slave device, here are its specs: same QCA7500 PLC controller, same w631gg6kb-15 128MB RAM, 25L3233F 4MB SPI-NOR and an AR8035-A 1000M-Transceiver Signed-off-by: Tamas Balogh <tamasbalogh@hotmail.com>
* ath79: D-Link DAP-3662 A1: convert ath10k caldata to nvmemSander Vanheule2022-06-18
| | | | | | | | | | | Add the PCIe node for the ath10k radio to the devicetree, and refer to the art partition for the calibration data using nvmem-cells. MAC address assignment is moved to '10_fix_wifi_mac', so the device can then be removed from the caldata extraction script '11-ath10k-caldata'. Cc: Sebastian Schaper <openwrt@sebastianschaper.net> Signed-off-by: Sander Vanheule <sander@svanheule.net>
* ath79: D-Link DAP-2695 A1: convert ath10k caldata to nvmemSander Vanheule2022-06-18
| | | | | | | | | | | Add the PCIe node for the ath10k radio to the devicetree, and refer to the art partition for the calibration data using nvmem-cells. MAC address assignment is moved to '10_fix_wifi_mac', so the device can then be removed from the caldata extraction script '11-ath10k-caldata'. Cc: Sebastian Schaper <openwrt@sebastianschaper.net> Signed-off-by: Sander Vanheule <sander@svanheule.net>
* ath79: D-Link DAP-2660 A1: convert ath10k caldata to nvmemSander Vanheule2022-06-18
| | | | | | | | | | | | Add the PCIe node for the ath10k radio to the devicetree, and refer to the art partition for the calibration data using nvmem-cells. MAC address assignment is moved to '10_fix_wifi_mac', so the device can then be removed from the caldata extraction script '11-ath10k-caldata'. Cc: Sebastian Schaper <openwrt@sebastianschaper.net> Tested-by: Sebastian Schaper <openwrt@sebastianschaper.net> Signed-off-by: Sander Vanheule <sander@svanheule.net>
* ath79: D-Link DAP-2680 A1: convert ath10k caldata to nvmemSander Vanheule2022-06-18
| | | | | | | | | | | | Add the PCIe node for the ath10k radio to the devicetree, and refer to the art partition for the pre-calibration data using nvmem-cells. MAC address assignment is moved to '10_fix_wifi_mac', so the device can then be removed from the caldata extraction script '11-ath10k-caldata'. Cc: Sebastian Schaper <openwrt@sebastianschaper.net> Tested-by: Sebastian Schaper <openwrt@sebastianschaper.net> Signed-off-by: Sander Vanheule <sander@svanheule.net>
* ath79: TP-Link EAP225-Wall v1: convert radios to nvmem-cellsSander Vanheule2022-06-16
| | | | | | | | | | | | | Replace the mtd-cal-data phandle by an nvmem-cell reference to the art partition for the 2.4GHz ath9k radio. Add the PCIe node for the ath10k radio to the devicetree, and refer to the art partition for the calibration data using nvmem-cells. Use mac-address-increment to ensure the MAC address is set correctly, and remove the device from the caldata extraction and patching script. Signed-off-by: Sander Vanheule <sander@svanheule.net>
* ath79: TP-Link EAP245 v3: convert radios to nvmem-cellsSander Vanheule2022-06-16
| | | | | | | | | | | | | Replace the mtd-cal-data phandle by an nvmem-cell reference from the art partition for the 2.4GHz ath9k radio. Add the PCIe node for the ath10k radio to the devicetree, and refer to the art partition for the calibration data using an nvmem-cell. Use mac-address-increment to ensure the MAC address is set correctly, and remove the device from the caldata extraction and patching script. Signed-off-by: Sander Vanheule <sander@svanheule.net>
* ath79: TP-Link EAP225 v3: convert ath10k to nvmem-cellsSander Vanheule2022-06-16
| | | | | | | | | | Add the PCIe node for the ath10k radio to the devicetree, and refer to the art partition for the calibration data using nvmem-cells. Use mac-address-increment to ensure the MAC address is set correctly, and remove the device from the caldata extraction and patching script. Signed-off-by: Sander Vanheule <sander@svanheule.net>
* ath79: TP-Link EAP225-Outdoor v1: convert ath10k to nvmem-cellsSander Vanheule2022-06-16
| | | | | | | | | | Add the PCIe node for the ath10k radio to the devicetree, and refer to the art partition for the calibration data using nvmem-cells. Use mac-address-increment to ensure the MAC address is set correctly, and remove the device from the caldata extraction and patching script. Signed-off-by: Sander Vanheule <sander@svanheule.net>
* ath79: TP-Link EAP225 v1: convert ath10k to nvmem-cellsSander Vanheule2022-06-16
| | | | | | | | | | Add the PCIe node for the ath10k radio to the devicetree, and refer to the art partition for the calibration data using nvmem-cells. Use mac-address-increment to ensure the MAC address is set correctly, and remove the device from the caldata extraction and patching script. Signed-off-by: Sander Vanheule <sander@svanheule.net>
* ath79: TP-Link EAP245 v1: convert ath10k to nvmem-cellsSander Vanheule2022-06-16
| | | | | | | | | | Add the PCIe node for the ath10k radio to the devicetree, and refer to the art partition for the calibration data using nvmem-cells. Use mac-address-increment to ensure the MAC address is set correctly, and remove the device from the caldata extraction and patching script. Signed-off-by: Sander Vanheule <sander@svanheule.net>
* ath79: add support for TP-Link Deco M4R v1 and v2Foica David2022-04-30
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | This commit adds support for the TP-Link Deco M4R (it can also be M4, TP-Link uses both names) v1 and v2. It is similar hardware-wise to the Archer C6 v2. Software-wise it is very different. V2 has a bit different layout from V1 but the chips are the same and the OEM firmware is the same for both versions. Specifications: SoC: QCA9563-AL3A RAM: Zentel A3R1GE40JBF Wireless 2.4GHz: QCA9563-AL3A (main SoC) Wireless 5GHz: QCA9886 Ethernet Switch: QCA8337N-AL3C Flash: 16 MB SPI NOR Flashing: The device's bootloader only accepts images that are signed using TP-Link's RSA key, therefore this way of flashing is not possible. The device has a web GUI that should be accessible after setting up the device using the app (it requires the app to set it up first because the web GUI asks for the TP-Link account password) but for unknown reasons, the web GUI also refuses custom images. There is a debug firmware image that has been shared on the device's OpenWrt forum thread that has telnet unlocked, which the bootloader will accept because it is signed. It can be used to transfer an OpenWrt image file over to the device and then be used with mtd to flash the device. Pre-requisites: - Debug firmware. - A way of transferring the file to the router, you can use an FTP server as an example. - Set a static IP of 192.168.0.2/255.255.255.0 on your computer. - OpenWrt image. Installation: - Unplug your router and turn it upside down. Using a long and thin object like a SIM unlock tool, press and hold the reset button on the router and replug it. Keep holding it until the LED flashes yellow. - Open 192.168.0.1. You should see the bootloader recovery's webpage. Choose the debug firmware that you downloaded and flash it. Wait until the router reboots (at this stage you can remove the static IP). - Open a terminal window and connect to the router via telnet (the primary router should have a 192.168.0.1 IP address, secondary routers are different). - Transfer the file over to the router, you can use curl to download it from the internet (use the insecure flag and make sure your source accepts insecure downloads) or from an FTP server. - The router's default mtd partition scheme has kernel and rootfs separated. We can use dd to split the OpenWrt image file and flash it with mtd: dd if=openwrt.bin of=kernel.bin skip=0 count=8192 bs=256 dd if=openwrt.bin of=rootfs.bin skip=8192 bs=256 - Once the images are ready, you have to flash the device using mtd (make sure to flash the correct partitions or you may be left with a hard bricked router): mtd write kernel.bin kernel mtd write rootfs.bin rootfs - Flashing is done, reboot the device now. Signed-off-by: Foica David <superh552@gmail.com>
* ath79: add support for Sophos AP100/AP55 familyAndrew Powers-Holmes2022-04-16
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | The Sophos AP100, AP100C, AP55, and AP55C are dual-band 802.11ac access points based on the Qualcomm QCA9558 SoC. They share PCB designs with several devices that already have partial or full support, most notably the Devolo DVL1750i/e. The AP100 and AP100C are hardware-identical to the AP55 and AP55C, however the 55 models' ART does not contain calibration data for their third chain despite it being present on the PCB. Specifications common to all models: - Qualcomm QCA9558 SoC @ 720 MHz (MIPS 74Kc Big-endian processor) - 128 MB RAM - 16 MB SPI flash - 1x 10/100/1000 Mbps Ethernet port, 802.3af PoE-in - Green and Red status LEDs sharing a single external light-pipe - Reset button on PCB[1] - Piezo beeper on PCB[2] - Serial UART header on PCB - Alternate power supply via 5.5x2.1mm DC jack @ 12 VDC Unique to AP100 and AP100C: - 3T3R 2.4GHz 802.11b/g/n via SoC WMAC - 3T3R 5.8GHz 802.11a/n/ac via QCA9880 (PCI Express) AP55 and AP55C: - 2T2R 2.4GHz 802.11b/g/n via SoC WMAC - 2T2R 5.8GHz 802.11a/n/ac via QCA9880 (PCI Express) AP100 and AP55: - External RJ45 serial console port[3] - USB 2.0 Type A port, power controlled via GPIO 11 Flashing instructions: This firmware can be flashed either via a compatible Sophos SG or XG firewall appliance, which does not require disassembling the device, or via the U-Boot console available on the internal UART header. To flash via XG appliance: - Register on Sophos' website for a no-cost Home Use XG firewall license - Download and install the XG software on a compatible PC or virtual machine, complete initial appliance setup, and enable SSH console access - Connect the target AP device to the XG appliance's LAN interface - Approve the AP from the XG Web UI and wait until it shows as Active (this can take 3-5 minutes) - Connect to the XG appliance over SSH and access the Advanced Console (Menu option 5, then menu option 3) - Run `sudo awetool` and select the menu option to connect to an AP via SSH. When prompted to enable SSH on the target AP, select Yes. - Wait 2-3 minutes, then select the AP from the awetool menu again. This will connect you to a root shell on the target AP. - Copy the firmware to /tmp/openwrt.bin on the target AP via SCP/TFTP/etc - Run `mtd -r write /tmp/openwrt.bin astaro_image` - When complete, the access point will reboot to OpenWRT. To flash via U-Boot serial console: - Configure a TFTP server on your PC, and set IP address 192.168.99.8 with netmask 255.255.255.0 - Copy the firmware .bin to the TFTP server and rename to 'uImage_AP100C' - Open the target AP's enclosure and locate the 4-pin 3.3V UART header [4] - Connect the AP ethernet to your PC's ethernet port - Connect a terminal to the UART at 115200 8/N/1 as usual - Power on the AP and press a key to cancel autoboot when prompted - Run the following commands at the U-Boot console: - `tftpboot` - `cp.b $fileaddr 0x9f070000 $filesize` - `boot` - The access point will boot to OpenWRT. MAC addresses as verified by OEM firmware: use address source LAN label config 0x201a (label) 2g label + 1 art 0x1002 (also found at config 0x2004) 5g label + 9 art 0x5006 Increments confirmed across three AP55C, two AP55, and one AP100C. These changes have been tested to function on both current master and 21.02.0 without any obvious issues. [1] Button is present but does not alter state of any GPIO on SoC [2] Buzzer and driver circuitry is present on PCB but is not connected to any GPIO. Shorting an unpopulated resistor next to the driver circuitry should connect the buzzer to GPIO 4, but this is unconfirmed. [3] This external RJ45 serial port is disabled in the OEM firmware, but works in OpenWRT without additional configuration, at least on my three test units. [4] On AP100/AP55 models the UART header is accessible after removing the device's top cover. On AP100C/AP55C models, the PCB must be removed for access; three screws secure it to the case. Pin 1 is marked on the silkscreen. Pins from 1-4 are 3.3V, GND, TX, RX Signed-off-by: Andrew Powers-Holmes <andrew@omnom.net>
* ath79: add support for Yuncore XD3200Thibaut VARÈNE2022-04-15
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | Specification: - QCA9563 (775MHz), 128MB RAM, 16MB SPI NOR - 2T2R 802.11b/g/n 2.4GHz - 2T2R 802.11n/ac 5GHz - 2x 10/100/1000 Mbps Ethernet, with 802.3at PoE support (WAN port) LED for 5 GHz WLAN is currently not supported as it is connected directly to the QCA9882 radio chip. Flash instructions: If your device comes with generic QSDK based firmware, you can login over telnet (login: root, empty password, default IP: 192.168.188.253), issue first (important!) 'fw_setenv' command and then perform regular upgrade, using 'sysupgrade -n -F ...' (you can use 'wget' to download image to the device, SSH server is not available): fw_setenv bootcmd "bootm 0x9f050000 || bootm 0x9fe80000" sysupgrade -n -F openwrt-...-yuncore_...-squashfs-sysupgrade.bin In case your device runs firmware with YunCore custom GUI, you can use U-Boot recovery mode: 1. Set a static IP 192.168.0.141/24 on PC and start TFTP server with 'tftp' image renamed to 'upgrade.bin' 2. Power the device with reset button pressed and release it after 5-7 seconds, recovery mode should start downloading image from server (unfortunately, there is no visible indication that recovery got enabled - in case of problems check TFTP server logs) Signed-off-by: Thibaut VARÈNE <hacks@slashdirt.org>
* ath79: Move TPLink WPA8630Pv2 to ath79-tiny targetJoe Mullally2022-04-09
| | | | | | | | | | | | | | | | | | | | | | | | | | | These devices only have 6MiB available for firmware, which is not enough for recent release images, so move these to the tiny target. Note for users sysupgrading from the previous ath79-generic snapshot images: The tiny target kernel has a 4Kb flash erase block size instead of the generic target's 64kb. This means the JFFS2 overlay partition containing settings must be reformatted with the new block size or else there will be data corruption. To do this, backup your settings before upgrading, then during the sysupgrade, de-select "Keep Settings". On the CLI, use "sysupgrade -n". If you forget to do this and your system becomes unstable after upgrading, you can do this to format the partition and recover: * Reboot * Press RESET when Power LED blinks during boot to enter Failsafe mode * SSH to 192.168.1.1 * Run "firstboot" and reboot Signed-off-by: Joe Mullally <jwmullally@gmail.com> Tested-by: Robert Högberg <robert.hogberg@gmail.com>
* ath79: add support for Araknis AN-700-AP-I-ACMichael Pratt2022-03-13
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | FCC ID: 2AG6R-AN700APIAC Araknis AN-700-AP-I-AC is an indoor wireless access point with 1 Gb ethernet port, dual-band wireless, internal antenna plates, and 802.3at PoE+ this board is a Senao device: the hardware is equivalent to EnGenius EAP1750 the software is modified Senao SDK which is based on openwrt and uboot including image checksum verification at boot time, and a failsafe image that boots if checksum fails **Specification:** - QCA9558 SOC MIPS 74kc, 2.4 GHz WMAC, 3x3 - QCA9880 WLAN PCI card, 5 GHz, 3x3, 26dBm - AR8035-A PHY RGMII GbE with PoE+ IN - 40 MHz clock - 16 MB FLASH MX25L12845EMI-10G - 2x 64 MB RAM NT5TU32M16 - UART console J10, populated, RX shorted to ground - 4 antennas 5 dBi, internal omni-directional plates - 4 LEDs power, 2G, 5G, wps - 1 button reset NOTE: all 4 gpio controlled LEDS are viewed through the same lightguide therefore, the power LED is off for default state **MAC addresses:** MAC address labeled as ETH Only one Vendor MAC address in flash at art 0x0 eth0 ETH *:xb art 0x0 phy1 2.4G *:xc --- phy0 5GHz *:xd --- **Serial Access:** the RX line on the board for UART is shorted to ground by resistor R176 therefore it must be removed to use the console but it is not necessary to remove to view boot log optionally, R175 can be replaced with a solder bridge short the resistors R175 and R176 are next to the UART RX pin at J10 **Installation:** Method 1: Firmware upgrade page: (if you cannot access the APs webpage) factory reset with the reset button connect ethernet to a computer OEM webpage at 192.168.20.253 username and password 'araknis' make a new password, login again... Navigate to 'File Management' page from left pane Click Browse and select the factory.bin image Upload and verify checksum Click Continue to confirm wait about 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 192.168.20.253 Select the factory.bin image and upload wait about 3 minutes **Return to OEM:** Method 1: Serial to load Failsafe webpage (above) Method 2: delete a checksum from uboot-env this will make uboot load the failsafe image at next boot because it will fail the checksum verification of the image ssh into openwrt and run `fw_setenv rootfs_checksum 0` reboot, wait a minute connect to ethernet and navigate to 192.168.20.253 select OEM firmware image and click upgrade Method 3: backup mtd partitions before upgrade **TFTP recovery:** Requires serial console, reset button does nothing rename initramfs-kernel.bin to '0101A8C0.img' make available on TFTP server at 192.168.1.101 power board, interrupt boot with serial console execute `tftpboot` and `bootm 0x81000000` NOTE: TFTP may not be reliable due to bugged bootloader set MTU to 600 and try many times **Format of OEM firmware image:** The OEM software is built using SDKs from Senao which is based on a heavily modified version of Openwrt Kamikaze or Altitude Adjustment. One of the many modifications is sysupgrade being performed by a custom script. Images are verified through successful unpackaging, correct filenames and size requirements for both kernel and rootfs files, and that they start with the correct magic numbers (first 2 bytes) for the respective headers. Newer Senao software requires more checks but their script includes a way to skip them. The OEM upgrade script is at /etc/fwupgrade.sh OKLI kernel loader is required because the OEM software expects the kernel to be less than 1536k and the OEM 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` setting through the DTS. Therefore, the Ethernet Configuration registers for GMAC0 do not need the bits for RGMII delay on the MAC side. This is possible due to fixes in at803x driver since Linux 5.1 and 5.3 Signed-off-by: Michael Pratt <mcpratt@pm.me>
* ath79: add support for Araknis AN-500-AP-I-ACMichael Pratt2022-03-13
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | FCC ID: 2AG6R-AN500APIAC Araknis AN-500-AP-I-AC is an indoor wireless access point with 1 Gb ethernet port, dual-band wireless, internal antenna plates, and 802.3at PoE+ this board is a Senao device: the hardware is equivalent to EnGenius EAP1200 the software is modified Senao SDK which is based on openwrt and uboot including image checksum verification at boot time, and a failsafe image that boots if checksum fails **Specification:** - QCA9557 SOC MIPS 74kc, 2.4 GHz WMAC, 2x2 - QCA9882 WLAN PCI card 168c:003c, 5 GHz, 2x2, 26dBm - AR8035-A PHY RGMII GbE with PoE+ IN - 40 MHz clock - 16 MB FLASH MX25L12845EMI-10G - 2x 64 MB RAM NT5TU32M16 - UART console J10, populated, RX shorted to ground - 4 antennas 5 dBi, internal omni-directional plates - 4 LEDs power, 2G, 5G, wps - 1 button reset NOTE: all 4 gpio controlled LEDS are viewed through the same lightguide therefore, the power LED is off for default state **MAC addresses:** MAC address labeled as ETH Only one Vendor MAC address in flash at art 0x0 eth0 ETH *:e1 art 0x0 phy1 2.4G *:e2 --- phy0 5GHz *:e3 --- **Serial Access:** the RX line on the board for UART is shorted to ground by resistor R176 therefore it must be removed to use the console but it is not necessary to remove to view boot log optionally, R175 can be replaced with a solder bridge short the resistors R175 and R176 are next to the UART RX pin at J10 **Installation:** Method 1: Firmware upgrade page: (if you cannot access the APs webpage) factory reset with the reset button connect ethernet to a computer OEM webpage at 192.168.20.253 username and password 'araknis' make a new password, login again... Navigate to 'File Management' page from left pane Click Browse and select the factory.bin image Upload and verify checksum Click Continue to confirm wait about 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 192.168.20.253 Select the factory.bin image and upload wait about 3 minutes **Return to OEM:** Method 1: Serial to load Failsafe webpage (above) Method 2: delete a checksum from uboot-env this will make uboot load the failsafe image at next boot because it will fail the checksum verification of the image ssh into openwrt and run `fw_setenv rootfs_checksum 0` reboot, wait a minute connect to ethernet and navigate to 192.168.20.253 select OEM firmware image and click upgrade Method 3: backup mtd partitions before upgrade **TFTP recovery:** Requires serial console, reset button does nothing rename initramfs-kernel.bin to '0101A8C0.img' make available on TFTP server at 192.168.1.101 power board, interrupt boot with serial console execute `tftpboot` and `bootm 0x81000000` NOTE: TFTP may not be reliable due to bugged bootloader set MTU to 600 and try many times **Format of OEM firmware image:** The OEM software is built using SDKs from Senao which is based on a heavily modified version of Openwrt Kamikaze or Altitude Adjustment. One of the many modifications is sysupgrade being performed by a custom script. Images are verified through successful unpackaging, correct filenames and size requirements for both kernel and rootfs files, and that they start with the correct magic numbers (first 2 bytes) for the respective headers. Newer Senao software requires more checks but their script includes a way to skip them. The OEM upgrade script is at /etc/fwupgrade.sh OKLI kernel loader is required because the OEM software expects the kernel to be less than 1536k and the OEM 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` setting through the DTS. Therefore, the Ethernet Configuration registers for GMAC0 do not need the bits for RGMII delay on the MAC side. This is possible due to fixes in at803x driver since Linux 5.1 and 5.3 Signed-off-by: Michael Pratt <mcpratt@pm.me>
* ath79: utilize nvmem on Netgear EX7300 v2Sungbo Eo2022-02-20
| | | | | | | | | | | | | mtd-mac-address should no longer be used after commit 5ae2e786395c ("kernel: drop support for mtd-mac-address"). Convert it to nvmem-cells. While at it, also convert OpenWrt's custom mtd-cal-data property and userspace pre-calibration data extraction to the nvmem implementation. Note: nvmem-cells in QCN5502 wmac has not been tested. Fixes: c32008a37b81 ("ath79: add partial support for Netgear EX7300v2") Signed-off-by: Sungbo Eo <mans0n@gorani.run>
* ath79: Add support for Ubiquiti NanoBeam AC Gen1 XCDaniel González Cabanelas2022-02-19
| | | | | | | | | | | | | | | | | | | | | | The Ubiquiti NanoBeam AC Gen1 XC (NBE-5AC-19) is an outdoor 802.11ac CPE with a waterproof casing (ultrasonically welded) and bulb shaped. Hardware: - SoC: Qualcomm Atheros QCA9558 - RAM: 128 MB DDR2 - Flash: 16 MB SPI NOR - Ethernet: 1x GbE, AR8033 phy connected via SGMII - PSU: 24 Vdc passive PoE - WiFi 5 GHz: Qualcomm Atheros QCA988X - Buttons: 1x reset - LEDs: 1x power, 1x Ethernet, 4x RSSI, all blue - Internal antenna: 19 dBi planar Installation from stock airOS firmware: - Follow instructions for XC-type Ubiquiti devices on OpenWrt wiki at https://openwrt.org/toh/ubiquiti/common Signed-off-by: Daniel González Cabanelas <dgcbueu@gmail.com>
* ath79: add partial support for Netgear EX7300v2Wenli Looi2022-02-07
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | Hardware -------- SoC: QCN5502 Flash: 16 MiB RAM: 128 MiB Ethernet: 1 gigabit port Wireless No1: QCN5502 on-chip 2.4GHz 4x4 Wireless No2: QCA9984 pcie 5GHz 4x4 USB: none Installation ------------ Flash the factory image using the stock web interface or TFTP the factory image to the bootloader. What works ---------- - LEDs - Ethernet port - 5GHz wifi (QCA9984 pcie) What doesn't work ----------------- - 2.4GHz wifi (QCN5502 on-chip) (I was not able to make this work, probably because ath9k requires some changes to support QCN5502.) Signed-off-by: Wenli Looi <wlooi@ucalgary.ca>
* ath79: Add support for OpenMesh OM5P-AC v2Sven Eckelmann2022-01-16
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | Device specifications: ====================== * Qualcomm/Atheros QCA9558 ver 1 rev 0 * 720/600/200 MHz (CPU/DDR/AHB) * 128 MB of RAM * 16 MB of SPI NOR flash - 2x 7 MB available; but one of the 7 MB regions is the recovery image * 2T2R 2.4 GHz Wi-Fi (11n) * 2T2R 5 GHz Wi-Fi (11ac) * 4x GPIO-LEDs (3x wifi, 1x power) * 1x GPIO-button (reset) * external h/w watchdog (enabled by default)) * TTL pins are on board (arrow points to VCC, then follows: GND, TX, RX) * TI tmp423 (package kmod-hwmon-tmp421) for temperature monitoring * 2x ethernet - eth0 + AR8035 ethernet PHY (RGMII) + 10/100/1000 Mbps Ethernet + 802.3af POE + used as LAN interface - eth1 + AR8031 ethernet PHY (RGMII) + 10/100/1000 Mbps Ethernet + 18-24V passive POE (mode B) + used as WAN interface * 12-24V 1A DC * internal antennas This device support is based on the partially working stub from commit 53c474abbdfe ("ath79: add new OF only target for QCA MIPS silicon"). Flashing instructions: ====================== Various methods can be used to install the actual image on the flash. Two easy ones are: ap51-flash ---------- The tool ap51-flash (https://github.com/ap51-flash/ap51-flash) should be used to transfer the image to the u-boot when the device boots up. initramfs from TFTP ------------------- The serial console must be used to access the u-boot shell during bootup. It can then be used to first boot up the initramfs image from a TFTP server (here with the IP 192.168.1.21): setenv serverip 192.168.1.21 setenv ipaddr 192.168.1.1 tftpboot 0c00000 <filename-of-initramfs-kernel>.bin && bootm $fileaddr The actual sysupgrade image can then be transferred (on the LAN port) to the device via scp <filename-of-squashfs-sysupgrade>.bin root@192.168.1.1:/tmp/ On the device, the sysupgrade must then be started using sysupgrade -n /tmp/<filename-of-squashfs-sysupgrade>.bin Signed-off-by: Sven Eckelmann <sven@narfation.org>
* ath79: patch Asus RP-AC66 clean up and fix for sysupgrade imageTamas Balogh2022-01-15
| | | | | | | | - clean up leftovers regarding MAC configure in dts - fix alphabetical order in caldata - IMAGE_SIZE for sysupgrade image Signed-off-by: Tamas Balogh <tamasbalogh@hotmail.com>
* ath79: Add support for OpenMesh OM5P-AC v1Sven Eckelmann2022-01-09
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | Device specifications: ====================== * Qualcomm/Atheros QCA9558 ver 1 rev 0 * 720/600/240 MHz (CPU/DDR/AHB) * 128 MB of RAM * 16 MB of SPI NOR flash - 2x 7 MB available; but one of the 7 MB regions is the recovery image * 2T2R 2.4 GHz Wi-Fi (11n) * 2T2R 5 GHz Wi-Fi (11ac) * 6x GPIO-LEDs (3x wifi, 2x ethernet, 1x power) * external h/w watchdog (enabled by default)) * TTL pins are on board (arrow points to VCC, then follows: GND, TX, RX) * TI tmp423 (package kmod-hwmon-tmp421) for temperature monitoring * 2x ethernet - eth0 + AR8035 ethernet PHY (RGMII) + 10/100/1000 Mbps Ethernet + 802.3af POE + used as LAN interface - eth1 + AR8035 ethernet PHY (SGMII) + 10/100/1000 Mbps Ethernet + 18-24V passive POE (mode B) + used as WAN interface * 12-24V 1A DC * internal antennas Flashing instructions: ====================== Various methods can be used to install the actual image on the flash. Two easy ones are: ap51-flash ---------- The tool ap51-flash (https://github.com/ap51-flash/ap51-flash) should be used to transfer the image to the u-boot when the device boots up. initramfs from TFTP ------------------- The serial console must be used to access the u-boot shell during bootup. It can then be used to first boot up the initramfs image from a TFTP server (here with the IP 192.168.1.21): setenv serverip 192.168.1.21 setenv ipaddr 192.168.1.1 tftpboot 0c00000 <filename-of-initramfs-kernel>.bin && bootm $fileaddr The actual sysupgrade image can then be transferred (on the LAN port) to the device via scp <filename-of-squashfs-sysupgrade>.bin root@192.168.1.1:/tmp/ On the device, the sysupgrade must then be started using sysupgrade -n /tmp/<filename-of-squashfs-sysupgrade>.bin Signed-off-by: Sven Eckelmann <sven@narfation.org>
* ath79: add support for ASUS RP-AC66Tamas Balogh2022-01-09
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | Asus RP-AC66 Repeater Hardware specifications: Board: AP152 SoC: QCA9563 DRAM: 64MB DDR2 Flash: 25l128 16MB SPI-NOR LAN/WAN: 1x1000M QCA8033 WiFi 5GHz: QCA9880 Clocks: CPU:775.000MHz, DDR:650.000MHz, AHB:258.333MHz, Ref:25.000MHz MAC addresses as verified by OEM firmware: use address source Lan/Wan *:24 art 0x1002 (label) 2G *:24 art 0x1002 5G *:26 art 0x5006 Installation: Asus windows recovery tool: - install the Asus firmware restoration utility - unplug the router, hold the reset button while powering it on - release when the power LED flashes slowly - specify a static IP on your computer: IP address: 192.168.1.75 Subnet mask 255.255.255.0 - Start the Asus firmware restoration utility, specify the factory image and press upload - Do not power off the device after OpenWrt has booted until the LED flashing. TFTP Recovery method: - set computer to a static ip, 192.168.1.75 - connect computer to the LAN 1 port of the router - hold the reset button while powering on the router for a few seconds - send firmware image using a tftp client; i.e from linux: $ tftp tftp> binary tftp> connect 192.168.1.1 tftp> put factory.bin tftp> quit Signed-off-by: Tamas Balogh <tamasbalogh@hotmail.com>
* ath79: add support for TP-Link EAP225 v1Sander Vanheule2021-12-05
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | TP-Link EAP225 v1 is an AC1200 (802.11ac Wave-1) ceiling mount access point. Device specifications: * SoC: QCA9563 @ 775MHz * RAM: 128MiB DDR2 * Flash: 16MiB SPI-NOR * Wireless 2.4GHz (SoC): b/g/n, 2x2 * Wireless 5Ghz (QCA9882): a/n/ac, 2x2 * Ethernet (AR8033): 1× 1GbE, 802.3at PoE Flashing instructions: * Ensure the device is upgraded to firmware v1.4.0 * Exploit the user management page in the web interface to start telnetd by changing the username to `;/usr/sbin/telnetd -l/bin/sh&`. * Immediately change the malformed username back to something valid (e.g. 'admin') to make ssh work again. * Use the root shell via telnet to make /tmp world writeable (chmod 777) * Extract /usr/bin/uclited from the device via ssh and apply the binary patch listed below. The patch is required to prevent `uclited -u` in the last step from crashing. * Copy the patched uclited binary back to the device at /tmp/uclited (via ssh) * Upload the factory image to /tmp/upgrade.bin (via ssh) * Run `chmod +x /tmp/uclited && /tmp/uclited -u` to install OpenWrt. uclited patching: --- xxd uclited +++ xxd uclited-patched @@ -53811,7 +53811,7 @@ 000d2330: 8c44 0000 0320 f809 0000 0000 8fbc 0010 .D... .......... 000d2340: 8fa6 0a4c 02c0 2821 8f82 87c4 0000 0000 ...L..(!........ -000d2350: 8c44 0000 0c13 461c 27a7 0018 8fbc 0010 .D....F.'....... +000d2350: 8c44 0000 2402 0000 0000 0000 8fbc 0010 .D..$........... 000d2360: 1040 001d 0000 1821 8f99 8378 3c04 0058 .@.....!...x<..X 000d2370: 3c05 0056 2484 ad68 24a5 9f00 0320 f809 <..V$..h$.... .. To make sure the correct file is patched, the following MD5 checksums should match the unpatched and patched files: 4bd74183c23859c897ed77e8566b84de uclited 4107104024a2e0aeaf6395ed30adccae uclited-patched Debricking: * Serial port can be soldered on unpopulated 4-pin header (1: TXD, 2: RXD, 3: GND, 4: VCC) * Bridge unpopulated resistors running from pins 1 (TXD) and 2 (RXD). Do NOT bridge the pull-down for pin 2, running parallel to the header. * Use 3.3V, 115200 baud, 8n1 * Interrupt bootloader by holding CTRL+B during boot * tftp initramfs to flash via the LuCI web interface setenv ipaddr 192.168.1.1 # default, change as required setenv serverip 192.168.1.10 # default, change as required tftp 0x80800000 initramfs.bin bootelf $fileaddr Tested by forum user KernelMaker. Link: https://forum.openwrt.org/t/eap225-v1-firmware/87116 Signed-off-by: Sander Vanheule <sander@svanheule.net>
* ath79: convert TP-Link Archer C7v1/2 Wifis to nvmem-cellsChristian Lamparter2021-11-28
| | | | | | | | | | | | | | | For v2, both ath9k (2.4GHz Wifi) and ath10k (5 GHz) driver now pull the (pre-)calibration data from the nvmem subsystem. v1 is slightly different as only the ath9k Wifi is supported. This allows us to move the userspace caldata extraction and mac-address patching for the 5GHZ ath10k supported wifi into the device-tree definition of the device. ath9k's nodes are also changed over to use nvmem-cells over OpenWrt's custom mtd-cal-data property. Signed-off-by: Christian Lamparter <chunkeey@gmail.com>
* ath79: add support for TP-Link CPE710-v1Andrew Cameron2021-09-25
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | TP-Link CPE710-v1 is an outdoor wireless CPE for 5 GHz with one Ethernet port based on the AP152 reference board Specifications: - SoC: QCA9563-AL3A MIPS 74kc @ 775MHz, AHB @ 258MHz - RAM: 128MiB DDR2 @ 650MHz - Flash: 16MiB SPI NOR Based on the GD25Q128 - Wi-Fi 5Ghz: ath10k chip (802.11ac for up to 867Mbps on 5GHz wireless data rate) Based on the QCA9896 - Ethernet: one 1GbE port - 23dBi high-gain directional 2×2 MIMO antenna and a dedicated metal reflector - Power, LAN, WLAN5G Blue LEDs - 3x Blue LEDs Flashing instructions: Flash factory image through stock firmware WEB UI or through TFTP To get to TFTP recovery just hold reset button while powering on for around 30-40 seconds and release. Rename factory image to recovery.bin Stock TFTP server IP:192.168.0.100 Stock device TFTP address:192.168.0.254 Signed-off-by: Andrew Cameron <apcameron@softhome.net> [convert to nvmem, fix MAC assignment in 11-ath10k-caldata] Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
* ath79: add support for TP-Link TL-WA1201 v2Robert Balas2021-09-05
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | This device is a wireless access point working on the 2.4 GHz and 5 GHz band, based on Qualcomm/Atheros QCA9563 + QCA9886. Specification - 775 MHz CPU - 128 MB of RAM (DDR2) - 16 MB of FLASH (SPI NOR) - QCA9563: 2.4 GHz 3x3 - QCA9886: 5 GHz - AR8033: 1x 1 Gbs Ethernet - 4x LED, WPS factory reset and power button - bare UART on PCB (accessible through testpoints) Methods for Flashing: - Apply factory image in OEM firmware web-gui. Wait a minute after the progress bar completes and restart the device. - Sysupgrade on top of existing OpenWRT image - Solder wires onto UART testpoints and attach a terminal. Boot the device and press enter to enter u-boot's menu. Then issue the following commands 1. setenv serverip your-server-ip setenv ipaddr your-device-ip 2. tftp 0x80060000 openwrt-squashfs.bin (Rembember output of size in hex, henceforth "sizeinhex") 3. erase 0x9f030000 +"sizeinhex" 4. cp.b 0x80060000 0x9f030000 0x"sizeinhex" 5. reboot Recover: - U-boot serial console Signed-off-by: Robert Balas <balasr@iis.ee.ethz.ch> [convert to nvmem] Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
* ath79: add support for Joy-IT JT-OR750iVincent Wiemann2021-07-28
| | | | | | | | | | | | | | | | | | | | | | | | | | | | Specifications: * QCA9531, 16 MiB flash (Winbond W25Q128JVSQ), 128 MiB RAM * 802.11n 2T2R (external antennas) * QCA9887, 802.11ac 1T1R (connected with diplexer to one of the antennas) * 3x 10/100 LAN, 1x 10/100 WAN * UART header with pinout printed on PCB Installation: * The device comes with a bootloader installed only * The bootloader offers DHCP and is reachable at http://10.123.123.1 * Accept the agreement and flash sysupgrade.bin * Use Firefox if flashing does not work TFTP recovery with static IP: * Rename sysupgrade.bin to jt-or750i_firmware.bin * Offer it via TFTP server at 192.168.0.66 * Keep the reset button pressed for 4 seconds after connecting power TFTP recovery with dynamic IP: * Rename sysupgrade.bin to jt-or750i_firmware.bin * Offer it via TFTP server with a DHCP server running at the same address * Keep the reset button pressed for 6 seconds after connecting power Co-authored-by: Sebastian Schaper <openwrt@sebastianschaper.net> Signed-off-by: Vincent Wiemann <vincent.wiemann@ironai.com>