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1121 Commits
Author | SHA1 | Message | Date | |
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Martin Kennedy
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a5ac8ad0ba |
realtek: add ZyXEL GS1900-24HP v1 support
The ZyXEL GS1900-24HP v1 is a 24 port PoE switch with two SFP ports, similar to the other GS1900 switches. Specifications -------------- * Device: ZyXEL GS1900-24HP v1 * SoC: Realtek RTL8382M 500 MHz MIPS 4KEc * Flash: 16 MiB * RAM: Winbond W9751G8KB-25 64 MiB DDR2 SDRAM * Ethernet: 24x 10/100/1000 Mbps, 2x SFP 100/1000 Mbps * LEDs: * 1 PWR LED (green, not configurable) * 1 SYS LED (green, configurable) * 24 ethernet port link/activity LEDs (green, SoC controlled) * 24 ethernet port PoE status LEDs * 2 SFP status/activity LEDs (green, SoC controlled) * Buttons: * 1 "RESET" button on front panel (soft reset) * 1 button ('SW1') behind right hex grate (hardwired power-off) * PoE: * Management MCU: ST Micro ST32F100 Microcontroller * 6 BCM59111 PSE chips * 170W power budget * Power: 120-240V AC C13 * UART: Internal populated 10-pin header ('J5') providing RS232; connected to SoC UART through a TI or SIPEX 3232C for voltage level shifting. * 'J5' RS232 Pinout (dot as pin 1): 2) SoC RXD 3) GND 10) SoC TXD Serial connection parameters: 115200 8N1. Installation ------------ OEM upgrade method: * Log in to OEM management web interface * Navigate to Maintenance > Firmware > Management * If "Active Image" has the first option selected, OpenWrt will need to be flashed to the "Active" partition. If the second option is selected, OpenWrt will need to be flashed to the "Backup" partition. * Navigate to Maintenance > Firmware > Upload * Upload the openwrt-realtek-rtl838x-zyxel_gs1900-24hp-v1-initramfs-kernel.bin file by your preferred method to the previously determined partition. When prompted, select to boot from the newly flashed image, and reboot the switch. * Once OpenWrt has booted, scp the sysupgrade image to /tmp and flash it: > sysupgrade /tmp/openwrt-realtek-rtl838x-zyxel_gs1900-24hp-v1-squashfs-sysupgrade.bin U-Boot TFTP method: * Configure your client with a static 192.168.1.x IP (e.g. 192.168.1.10). * Set up a TFTP server on your client and make it serve the initramfs image. * Connect serial, power up the switch, interrupt U-boot by hitting the space bar, and enable the network: > rtk network on * Since the GS1900-24HP v1 is a dual-partition device, you want to keep the OEM firmware on the backup partition for the time being. OpenWrt can only be installed in the first partition anyway (hardcoded in the DTS). To ensure we are set to boot from the first partition, issue the following commands: > setsys bootpartition 0 > savesys * Download the image onto the device and boot from it: > tftpboot 0x81f00000 192.168.1.10:openwrt-realtek-rtl838x-zyxel_gs1900-24hp-v1-initramfs-kernel.bin > bootm * Once OpenWrt has booted, scp the sysupgrade image to /tmp and flash it: > sysupgrade /tmp/openwrt-realtek-rtl838x-zyxel_gs1900-24hp-v1-squashfs-sysupgrade.bin Signed-off-by: Martin Kennedy <hurricos@gmail.com> [Add info on PoE hardware to commit message] Signed-off-by: Sander Vanheule <sander@svanheule.net> |
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Andrew Powers-Holmes
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6f1efb2898 |
ath79: add support for Sophos AP100/AP55 family
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> |
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Abdul Aziz Amar
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78c3534645 |
ramips: add support for BOLT! Arion
This device is from now-defunct BOLT! ISP in Indonesia. The original firmware is based on mediatek SDK running linux 2.6 or 3.x in later revision. Specifications: - SoC: MediaTek MT7621 - Flash: 32 MiB NOR SPI - RAM: 128 MiB DDR3 - Ethernet: 2x 10/100/1000 Mbps (switched, LAN + WAN) - WIFI0: MT7603E 2.4GHz 802.11b/g/n - WIFI1: MT7612E 5GHz 802.11ac - Antennas: 2x internal, non-detachable - LEDs: Programmable LEDs: 5 blue LEDs (wlan, tel, sig1-3) and 2 red LEDs (wlan and sig1) Non-programmable "Power" LED - Buttons: Reset and WPS Instalation: Install from TFTP Set your PC IP to 10.10.10.3 and gateway to 10.10.10.123 Press "1" when turning on the router, and type the initramfs file name You also need to solder pin header or cable to J4 or neighboring test points (T19-T21) Pinouts from top to bottom: GND, TX, RX, VCC (3.3v) Baudrate: 57600n8 There's also an additional gigabit transformer and RTL8211FD managed by the LTE module on the backside of the PCB. Signed-off-by: Abdul Aziz Amar <abdulaziz.amar@gmail.com> |
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Thibaut VARÈNE
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a05dcb0724 |
ath79: add support for Yuncore A930
Specification: - QCA9533 (650 MHz), 64 or 128MB RAM, 16MB SPI NOR - 2x 10/100 Mbps Ethernet, with 802.3at PoE support (WAN) - 2T2R 802.11b/g/n 2.4GHz 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: Clemens Hopfer <openwrt@wireloss.net> Signed-off-by: Thibaut VARÈNE <hacks@slashdirt.org> |
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Thibaut VARÈNE
|
c91df224f5 |
ath79: add support for Yuncore XD3200
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> |
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Daniel Golle
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dffad93d3e
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arm-trusted-firmware-mediatek: remove no longer needed Configure step
As anyway only the default is called now we can as well also just remove
the override for Build/Configure.
Fixes:
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Piotr Dymacz
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0892fd9920 |
uboot-imx: build 'u-boot-dtb.img' for SolidRun CuBox-i
Signed-off-by: Piotr Dymacz <pepe2k@gmail.com> |
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Piotr Dymacz
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e213375894 |
uboot-imx: bump to 2022.01 release
Two patches were removed because of the changes introduced in upstream: 1. 110-mx6cuboxi-mmc-fallback.patch Looks like similar changes were introduced in 6c3fbf3e456c ("mx6cuboxi: customize board_boot_order to access eMMC"). 2. 111-mx6cuboxi_defconfig-force-mmc-boot.patch The 'CONFIG_SPL_FORCE_MMC_BOOT' was removed in 15aec318ef03 ("Revert "imx: Introduce CONFIG_SPL_FORCE_MMC_BOOT to force MMC boot on falcon mode"). Signed-off-by: Piotr Dymacz <pepe2k@gmail.com> |
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Paul Spooren
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839b1ff1fc |
grub2: add missing license
The PKG_LICENSE field was missing. While at it, normalize the Makefile a bit. Signed-off-by: Paul Spooren <mail@aparcar.org> |
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Daniel Golle
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dfc3ea6810
|
uboot-mediatek: add patch to allow accessing bootconf from Linux
Store selected boot configuration in '/chosen' node in device tree, so it can be accessed by Linux (and used for fine-tuning the FIT partition parser). Signed-off-by: Daniel Golle <daniel@makrotopia.org> |
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Daniel Golle
|
fa67639513 |
uboot-envtools: oxnas: fix wrong eraseblock size for shuttle,kd20
Shuttle KD20 has NAND flash with 0x20000 (128KiB) erase blocks. Correctly set that in uboot-envtools as well to allow writing to the bootloader environment using fw_setenv. Signed-off-by: Daniel Golle <daniel@makrotopia.org> |
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Robert Marko
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a703830806 |
uboot-mvebu: backport patch to fix eMMC
v2022.01 has a regression that broke eMMC usage on most if not all Armada
SoC-s, thus breaking boards like uDPU which use eMMC for storage.
Fix it by backporting a recent upstream patch.
Fixes:
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Richard Huynh
|
9f9477b275 |
mediatek: Add support for Xiaomi Redmi Router AX6S
Also known as the "Xiaomi Router AX3200" in western markets, but only the AX6S is widely installation-capable at this time. SoC: MediaTek MT7622B RAM: DDR3 256 MiB (ESMT M15T2G16128A) Flash: SPI-NAND 128 MiB (ESMT F50L1G41LB or Gigadevice GD5F1GQ5xExxG) WLAN: 2.4/5 GHz 4T4R 2.4 GHz: MediaTek MT7622B 5 GHz: MediaTek MT7915E Ethernet: 4x 10/100/1000 Mbps Switch: MediaTek MT7531B LEDs/Keys: 2/2 (Internet + System LED, Mesh button + Reset pin) UART: Marked J1 on board VCC RX GND TX, beginning from "1". 3.3v, 115200n8 Power: 12 VDC, 1.5 A Notes: U-Boot passes through the ethaddr from uboot-env partition, but also has been known to reset it to a generic mac address hardcoded in the bootloader. However, bdata is also populated with the ethernet mac addresses, but is also typically never written to. Thus this is used instead. Installation: 1. Flash stock Xiaomi "closed beta" image labelled 'miwifi_rb03_firmware_stable_1.2.7_closedbeta.bin'. (MD5: 5eedf1632ac97bb5a6bb072c08603ed7) 2. Calculate telnet password from serial number and login 3. Execute commands to prepare device nvram set ssh_en=1 nvram set uart_en=1 nvram set boot_wait=on nvram set flag_boot_success=1 nvram set flag_try_sys1_failed=0 nvram set flag_try_sys2_failed=0 nvram commit 4. Download and flash image On computer: python -m http.server On router: cd /tmp wget http://<IP>:8000/factory.bin mtd -r write factory.bin firmware Device should reboot at this point. Reverting to stock: Stock Xiaomi recovery tftp that accepts their signed images, with default ips of 192.168.31.1 + 192.168.31.100. Stock image should be renamed to tftp server ip in hex (Eg. C0A81F64.img) Triggered by holding reset pin on powerup. A simple implementation of this would be via dnsmasq's dhcp-boot option or using the vendor's (Windows only) recovery tool available on their website. Signed-off-by: Richard Huynh <voxlympha@gmail.com> |
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Mikhail Zhilkin
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f8b02130d2 |
ramips: add support for Beeline SmartBox Flash
Beeline SmartBox Flash is a wireless AC1300 (WiFi 5) router manufactured by Arcadyan company. Device specification -------------------- SoC Type: MediaTek MT7621AT RAM: 256 MiB, Winbond W632GU6NB Flash: 128 MiB (NAND), Winbond W29N01HVSINF Wireless 2.4 GHz (MT7615DN): b/g/n, 2x2 Wireless 5 GHz (MT7615DN): a/n/ac, 2x2 Ethernet: 3xGbE (WAN, LAN1, LAN2) USB ports: 1xUSB3.0 Button: 1 (Reset/WPS) LEDs: 1 RGB LED Power: 12 VDC, 1.5 A Connector type: Barrel Bootloader: U-Boot (Ralink UBoot Version: 5.0.0.2) OEM: Arcadyan WE42022 Installation ------------ 1. Place *factory.trx on any web server (192.168.1.2 in this example) 2. Connect to the router using telnet shell (no password required) 3. Save MAC adresses to U-Boot environment: uboot_env --set --name eth2macaddr --value $(ifconfig | grep eth2 | \ awk '{print $5}') uboot_env --set --name eth3macaddr --value $(ifconfig | grep eth3 | \ awk '{print $5}') uboot_env --set --name ra0macaddr --value $(ifconfig | grep ra0 | \ awk '{print $5}') uboot_env --set --name rax0macaddr --value $(ifconfig | grep rax0 | \ awk '{print $5}') 4. Ensure that MACs were saved correctly: uboot_env --get --name eth2macaddr uboot_env --get --name eth3macaddr uboot_env --get --name ra0macaddr uboot_env --get --name rax0macaddr 5. Download and write the OpenWrt images: cd /tmp wget http://192.168.1.2/factory.trx mtd_write erase /dev/mtd4 mtd_write write factory.trx /dev/mtd4 6. Set 1st boot partition and reboot: uboot_env --set --name bootpartition --value 0 reboot Back to Stock ------------- 1. Run in the OpenWrt shell: fw_setenv bootpartition 1 reboot 2. Optional step. Upgrade the stock firmware with any version to overwrite the OpenWrt in Slot 1. MAC addresses ------------- +-----------+-------------------+----------------+ | Interface | MAC | Source | +-----------+-------------------+----------------+ | label | 30:xx:xx:51:xx:09 | No MACs was | | LAN | 30:xx:xx:51:xx:09 | found on Flash | | WAN | 30:xx:xx:51:xx:06 | [1] | | WLAN_2g | 30:xx:xx:51:xx:07 | | | WLAN_5g | 32:xx:xx:41:xx:07 | | +-----------+-------------------+----------------+ [1]: a. Label wasb't found neither in factory nor in other places. b. MAC addresses are stored in encrypted partition "glbcfg". Encryption key hasn't known yet. To ensure the correct MACs in OpenWrt, a hack with saving of the MACs to u-boot-env during the installation was applied. c. Default Ralink ethernet MAC address (00:0C:43:28:80:36) was found in "Factory" 0xfff0. It's the same for all Smartbox Flash devices. OEM firmware also uses this MAC when initialazes ethernet driver. In OpenWrt we use it only as internal GMAC (eth0), all other MACs are unique. Therefore, there is no any barriers to the operation of several Smartbox Flash devices even within the same broadcast domain. Stock firmware image format --------------------------- +--------------+---------------+----------------------------------------+ | Offset | 1.0.15 | Description | +==============+===============+========================================+ | 0x0 | 5d 43 6f 74 | TRX magic "]Cot" | +--------------+---------------+----------------------------------------+ | 0x4 | 00 70 ff 00 | Length (reverse) | +--------------+---------------+----------------------------------------+ | | | htonl(~crc) from 0xc ("flag_version") | | 0x8 | 72 b3 93 16 | to "Length" | +--------------+---------------+----------------------------------------+ | 0xc | 00 00 01 00 | Flags | +--------------+---------------+----------------------------------------+ | | | Offset (reverse) of Kernel partition | | 0x10 | 1c 00 00 00 | from the start of the header | +--------------+---------------+----------------------------------------+ | | | Offset (reverse) of RootFS partition | | 0x14 | 00 00 42 00 | from the start of the header | +--------------+---------------+----------------------------------------+ | 0x18 | 00 00 00 00 | Zeroes | +--------------+---------------+----------------------------------------+ | 0x1c | 27 05 19 56 … | Kernel data + zero padding | +--------------+---------------+----------------------------------------+ | | | RootFS data (starting with "hsqs") + | | 0x420000 | 68 73 71 73 … | zero padding to "Length" | +--------------+---------------+----------------------------------------+ | | | Some signature data (format is | | | | unknown). Necessary for the fw | | "Lenght" | 00 00 00 00 … | update via oem fw web interface. | +--------------+---------------+----------------------------------------+ | "Lenght" + | | TRX magic "HDR0". U-Boot is | | 0x10c | 48 44 52 30 | checking it at every boot. | +--------------+---------------+----------------------------------------+ | | | 1.00: | | | | Zero padding to ("Lenght" + 0x23000) | | | | 1.0.12: | | | | Zero padding to ("Lenght" + 0x2a000) | | "Lenght" + | | 1.0.13, 1.0.15, 1.0.16: | | 0x110 | 00 00 00 00 | Zero padding to ("Lenght" + 0x10000) | +--------------+---------------+----------------------------------------+ Signed-off-by: Mikhail Zhilkin <csharper2005@gmail.com> |
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Rafał Miłecki
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f4c2dab544 |
uboot-bcm4908: add BCM4912 build
Signed-off-by: Rafał Miłecki <rafal@milecki.pl> |
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Rafał Miłecki
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3592aa8566 |
uboot-bcm4908: update to the latest generic
0625aad74d arm: dts: add ASUS GT-AX6000 6fb1cb624d arm: dts: add Netgear RAXE450 / RAXE550 Signed-off-by: Rafał Miłecki <rafal@milecki.pl> |
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Rafał Miłecki
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9dbca6bf6e |
uboot-bcm4908: use "xxd" from staging_dir
This fixes: bash: xxd: command not found on hosts without xxd installed. Signed-off-by: Rafał Miłecki <rafal@milecki.pl> |
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Michael Pratt
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41be1a2de2 |
ath79: add support for Araknis AN-700-AP-I-AC
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> |
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Michael Pratt
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56716b578e |
ath79: add support for Araknis AN-500-AP-I-AC
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> |
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Michael Pratt
|
561f46bd02 |
ath79: add support for Araknis AN-300-AP-I-N
FCC ID: U2M-AN300APIN Araknis AN-300-AP-I-N 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 EWS310AP 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:** - AR9344 SOC MIPS 74kc, 2.4 GHz WMAC, 2x2 - AR9382 WLAN PCI on-board 168c:0030, 5 GHz, 2x2 - AR8035-A PHY RGMII GbE with PoE+ IN - 40 MHz clock - 16 MB FLASH MX25L12845EMI-10G - 2x 64 MB RAM 1839ZFG V59C1512164QFJ25 - 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 *:7d art 0x0 phy1 2.4G *:7e --- phy0 5GHz *:7f --- **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> |
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Martin Kennedy
|
d1a8690742 |
realtek: add ZyXEL GS1900-24 v1 support
The ZyXEL GS1900-24 v1 is a 24 port switch with two SFP ports, similar to the other GS1900 switches. Specifications -------------- * Device: ZyXEL GS1900-24 v1 * SoC: Realtek RTL8382M 500 MHz MIPS 4KEc * Flash: 16 MiB * RAM: Winbond W9751G8KB-25 64 MiB DDR2 SDRAM * Ethernet: 24x 10/100/1000 Mbps, 2x SFP 100/1000 Mbps * LEDs: * 1 PWR LED (green, not configurable) * 1 SYS LED (green, configurable) * 24 ethernet port link/activity LEDs (green, SoC controlled) * 2 SFP status/activity LEDs (green, SoC controlled) * Buttons: * 1 "RESET" button on front panel (soft reset) * 1 button ('SW1') behind right hex grate (hardwired power-off) * Power: 120-240V AC C13 * UART: Internal populated 10-pin header ('J5') providing RS232; connected to SoC UART through a SIPEX 3232EC for voltage level shifting. * 'J5' RS232 Pinout (dot as pin 1): 2) SoC RXD 3) GND 10) SoC TXD Serial connection parameters: 115200 8N1. Installation ------------ OEM upgrade method: * Log in to OEM management web interface * Navigate to Maintenance > Firmware > Management * If "Active Image" has the first option selected, OpenWrt will need to be flashed to the "Active" partition. If the second option is selected, OpenWrt will need to be flashed to the "Backup" partition. * Navigate to Maintenance > Firmware > Upload * Upload the openwrt-realtek-rtl838x-zyxel_gs1900-24-v1-initramfs-kernel.bin file by your preferred method to the previously determined partition. When prompted, select to boot from the newly flashed image, and reboot the switch. * Once OpenWrt has booted, scp the sysupgrade image to /tmp and flash it: > sysupgrade /tmp/openwrt-realtek-rtl838x-zyxel_gs1900-24-v1-squashfs-sysupgrade.bin U-Boot TFTP method: * Configure your client with a static 192.168.1.x IP (e.g. 192.168.1.10). * Set up a TFTP server on your client and make it serve the initramfs image. * Connect serial, power up the switch, interrupt U-boot by hitting the space bar, and enable the network: > rtk network on > Since the GS1900-24 v1 is a dual-partition device, you want to keep the OEM firmware on the backup partition for the time being. OpenWrt can only be installed in the first partition anyway (hardcoded in the DTS). To ensure we are set to boot from the first partition, issue the following commands: > setsys bootpartition 0 > savesys * Download the image onto the device and boot from it: > tftpboot 0x81f00000 192.168.1.10:openwrt-realtek-rtl838x-zyxel_gs1900-24-v1-initramfs-kernel.bin > bootm * Once OpenWrt has booted, scp the sysupgrade image to /tmp and flash it: > sysupgrade /tmp/openwrt-realtek-rtl838x-zyxel_gs1900-24-v1-squashfs-sysupgrade.bin Signed-off-by: Martin Kennedy <hurricos@gmail.com> |
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Rafał Miłecki
|
0d45e1ea96 |
uboot-bcm4908: add package with BCM4908 U-Boot
New BCM4908 devices come with U-Boot instead of CFE. Firmwares for such devices has to include U-Boot. Signed-off-by: Rafał Miłecki <rafal@milecki.pl> |
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INAGAKI Hiroshi
|
98113220fa |
uboot-envtools: add support for I-O DATA BSH-G24MB
This patch adds the device-specific configuration to u-boot-envtools for I-O DATA BSH-G24MB switch. Signed-off-by: INAGAKI Hiroshi <musashino.open@gmail.com> |
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Langhua Ye
|
d15f9b9043 |
uboot-envtools: mt7622: add support for Ruijie RG-EW3200GX PRO
Add U-Boot environment settings for Ruijie RG-EW3200GX PRO to allow users to access the bootloader environment using fw_printenv/fw_setenv while running OpenWrt. Signed-off-by: Langhua Ye <y1248289414@outlook.com> |
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Josef Schlehofer
|
0f432fa3a9 |
uboot-mvebu: backport patch to fix nvme detail crash
Steps to reproduce: 1. Insert NVMe disk with a reduction to Turris Omnia 2. Go to U-boot 3. Run these two commands: a) ``nvme scan`` b) ``nvme detail`` 4. Wait for crash This is backported from U-boot upstream repository. It should be included in the upcoming release - 2022.04 [1]. It was tested on Turris Omnia, mvebu, cortex-a9, OpenWrt master. [1] https://patchwork.ozlabs.org/project/uboot/patch/20211209100639.21530-1-pali@kernel.org/ Signed-off-by: Josef Schlehofer <pepe.schlehofer@gmail.com> [Export the patch from U-Boot git] Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de> |
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Paul Spooren
|
038d5bdab1 |
layerscape: use semantic versions for LSDK
PKG_VERSION should not contain the package name but the version only. Signed-off-by: Paul Spooren <mail@aparcar.org> |
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Piotr Dymacz
|
2d5b596b49 |
uboot-envtools: ath79: add support for ALFA Network Tube-2HQ
Signed-off-by: Piotr Dymacz <pepe2k@gmail.com> |
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Lech Perczak
|
7ac8da0060 |
ath79: support ZTE MF286A/R
ZTE MF286A and MF286R are indoor LTE category 6/7 CPE router with simultaneous dual-band 802.11ac plus 802.11n Wi-Fi radios and quad-port gigabit Ethernet switch, FXS and external USB 2.0 port. Hardware highlights: - CPU: QCA9563 SoC at 775MHz, - RAM: 128MB DDR2, - NOR Flash: MX25L1606E 2MB SPI Flash, for U-boot only, - NAND Flash: W25N01GV 128MB SPI NAND-Flash, for all other data, - Wi-Fi 5GHz: QCA9886 2x2 MIMO 802.11ac Wave2 radio, - WI-Fi 2.4GHz: QCA9563 3x3 MIMO 802.11n radio, - Switch: QCA8337v2 4-port gigabit Ethernet, with single SGMII CPU port, - WWAN: [MF286A] MDM9230-based category 6 internal LTE modem [MF286R] PXA1826-based category 7 internal LTE modem in extended mini-PCIE form factor, with 3 internal antennas and 2 external antenna connections, single mini-SIM slot. - FXS: one external ATA port (handled entirely by modem part) with two physical connections in parallel, - USB: Single external USB 2.0 port, - Switches: power switch, WPS, Wi-Fi and reset buttons, - LEDs: Wi-Fi, Test (internal). Rest of LEDs (Phone, WWAN, Battery, Signal state) handled entirely by modem. 4 link status LEDs handled by the switch on the backside. - Battery: 3Ah 1-cell Li-Ion replaceable battery, with charging and monitoring handled by modem. - Label MAC device: eth0 The device shares many components with previous model, MF286, differing mostly by a Wave2 5GHz radio, flash layout and internal LED color. In case of MF286A, the modem is the same as in MF286. MF286R uses a different modem based on Marvell PXA1826 chip. Internal modem of MF286A is supported via uqmi, MF286R modem isn't fully supported, but it is expected to use comgt-ncm for connection, as it uses standard 3GPP AT commands for connection establishment. Console connection: connector X2 is the console port, with the following pinout, starting from pin 1, which is the topmost pin when the board is upright: - VCC (3.3V). Do not use unless you need to source power for the converer from it. - TX - RX - GND Default port configuration in U-boot as well as in stock firmware is 115200-8-N-1. Installation: Due to different flash layout from stock firmware, sysupgrade from within stock firmware is impossible, despite it's based on QSDK which itself is based on OpenWrt. STEP 0: Stock firmware update: As installing OpenWrt cuts you off from official firmware updates for the modem part, it is recommended to update the stock firmware to latest version before installation, to have built-in modem at the latest firmware version. STEP 1: gaining root shell: Method 1: This works if busybox has telnetd compiled in the binary. If this does not work, try method 2. Using well-known exploit to start telnetd on your router - works only if Busybox on stock firmware has telnetd included: - Open stock firmware web interface - Navigate to "URL filtering" section by going to "Advanced settings", then "Firewall" and finally "URL filter". - Add an entry ending with "&&telnetd&&", for example "http://hostname/&&telnetd&&". - telnetd will immediately listen on port 4719. - After connecting to telnetd use "admin/admin" as credentials. Method 2: This works if busybox does not have telnetd compiled in. Notably, this is the case in DNA.fi firmware. If this does not work, try method 3. - Set IP of your computer to 192.168.0.22. (or appropriate subnet if changed) - Have a TFTP server running at that address - Download MIPS build of busybox including telnetd, for example from: https://busybox.net/downloads/binaries/1.21.1/busybox-mips and put it in it's root directory. Rename it as "telnetd". - As previously, login to router's web UI and navigate to "URL filtering" - Using "Inspect" feature, extend "maxlength" property of the input field named "addURLFilter", so it looks like this: <input type="text" name="addURLFilter" id="addURLFilter" maxlength="332" class="required form-control"> - Stay on the page - do not navigate anywhere - Enter "http://aa&zte_debug.sh 192.168.0.22 telnetd" as a filter. - Save the settings. This will download the telnetd binary over tftp and execute it. You should be able to log in at port 23, using "admin/admin" as credentials. Method 3: If the above doesn't work, use the serial console - it exposes root shell directly without need for login. Some stock firmwares, notably one from finnish DNA operator lack telnetd in their builds. STEP 2: Backing up original software: As the stock firmware may be customized by the carrier and is not officially available in the Internet, IT IS IMPERATIVE to back up the stock firmware, if you ever plan to returning to stock firmware. It is highly recommended to perform backup using both methods, to avoid hassle of reassembling firmware images in future, if a restore is needed. Method 1: after booting OpenWrt initramfs image via TFTP: PLEASE NOTE: YOU CANNOT DO THIS IF USING INTERMEDIATE FIRMWARE FOR INSTALLATION. - Dump stock firmware located on stock kernel and ubi partitions: ssh root@192.168.1.1: cat /dev/mtd4 > mtd4_kernel.bin ssh root@192.168.1.1: cat /dev/mtd9 > mtd9_ubi.bin And keep them in a safe place, should a restore be needed in future. Method 2: using stock firmware: - Connect an external USB drive formatted with FAT or ext4 to the USB port. - The drive will be auto-mounted to /var/usb_disk - Check the flash layout of the device: cat /proc/mtd It should show the following: mtd0: 000a0000 00010000 "u-boot" mtd1: 00020000 00010000 "u-boot-env" mtd2: 00140000 00010000 "reserved1" mtd3: 000a0000 00020000 "fota-flag" mtd4: 00080000 00020000 "art" mtd5: 00080000 00020000 "mac" mtd6: 000c0000 00020000 "reserved2" mtd7: 00400000 00020000 "cfg-param" mtd8: 00400000 00020000 "log" mtd9: 000a0000 00020000 "oops" mtd10: 00500000 00020000 "reserved3" mtd11: 00800000 00020000 "web" mtd12: 00300000 00020000 "kernel" mtd13: 01a00000 00020000 "rootfs" mtd14: 01900000 00020000 "data" mtd15: 03200000 00020000 "fota" mtd16: 01d00000 00020000 "firmware" Differences might indicate that this is NOT a MF286A device but one of other variants. - Copy over all MTD partitions, for example by executing the following: for i in 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15; do cat /dev/mtd$i > \ /var/usb_disk/mtd$i; done "Firmware" partition can be skipped, it is a concatenation of "kernel" and "rootfs". - If the count of MTD partitions is different, this might indicate that this is not a MF286A device, but one of its other variants. - (optionally) rename the files according to MTD partition names from /proc/mtd - Unmount the filesystem: umount /var/usb_disk; sync and then remove the drive. - Store the files in safe place if you ever plan to return to stock firmware. This is especially important, because stock firmware for this device is not available officially, and is usually customized by the mobile providers. STEP 3: Booting initramfs image: Method 1: using serial console (RECOMMENDED): - Have TFTP server running, exposing the OpenWrt initramfs image, and set your computer's IP address as 192.168.0.22. This is the default expected by U-boot. You may wish to change that, and alter later commands accordingly. - Connect the serial console if you haven't done so already, - Interrupt boot sequence by pressing any key in U-boot when prompted - Use the following commands to boot OpenWrt initramfs through TFTP: setenv serverip 192.168.0.22 setenv ipaddr 192.168.0.1 tftpboot 0x81000000 openwrt-ath79-nand-zte_mf286a-initramfs-kernel.bin bootm 0x81000000 (Replace server IP and router IP as needed). There is no emergency TFTP boot sequence triggered by buttons, contrary to MF283+. - When OpenWrt initramfs finishes booting, proceed to actual installation. Method 2: using initramfs image as temporary boot kernel This exploits the fact, that kernel and rootfs MTD devices are consecutive on NAND flash, so from within stock image, an initramfs can be written to this area and booted by U-boot on next reboot, because it uses "nboot" command which isn't limited by kernel partition size. - Download the initramfs-kernel.bin image - After backing up the previous MTD contents, write the images to the "firmware" MTD device, which conveniently concatenates "kernel" and "rootfs" partitions that can fit the initramfs image: nandwrite -p /dev/<firmware-mtd> \ /var/usb_disk/openwrt-ath79-zte_mf286a-initramfs-kernel.bin - If write is OK, reboot the device, it will reboot to OpenWrt initramfs: reboot -f - After rebooting, SSH into the device and use sysupgrade to perform proper installation. Method 3: using built-in TFTP recovery (LAST RESORT): - With that method, ensure you have complete backup of system's NAND flash first. It involves deliberately erasing the kernel. - Download "-initramfs-kernel.bin" image for the device. - Prepare the recovery image by prepending 8MB of zeroes to the image, and name it root_uImage: dd if=/dev/zero of=padding.bin bs=8M count=1 cat padding.bin openwrt-ath79-nand-zte_mf286a-initramfs-kernel.bin > root_uImage - Set up a TFTP server at 192.0.0.1/8. Router will use random address from that range. - Put the previously generated "root_uImage" into TFTP server root directory. - Deliberately erase "kernel" partition" using stock firmware after taking backup. THIS IS POINT OF NO RETURN. - Restart the device. U-boot will attempt flashing the recovery initramfs image, which will let you perform actual installation using sysupgrade. This might take a considerable time, sometimes the router doesn't establish Ethernet link properly right after booting. Be patient. - After U-boot finishes flashing, the LEDs of switch ports will all light up. At this moment, perform power-on reset, and wait for OpenWrt initramfs to finish booting. Then proceed to actual installation. STEP 4: Actual installation: - Set your computer IP to 192.168.1.22/24 - scp the sysupgrade image to the device: scp openwrt-ath79-nand-zte_mf286a-squashfs-sysupgrade.bin \ root@192.168.1.1:/tmp/ - ssh into the device and execute sysupgrade: sysupgrade -n /tmp/openwrt-ath79-nand-zte_mf286a-squashfs-sysupgrade.bin - Wait for router to reboot to full OpenWrt. STEP 5: WAN connection establishment Since the router is equipped with LTE modem as its main WAN interface, it might be useful to connect to the Internet right away after installation. To do so, please put the following entries in /etc/config/network, replacing the specific configuration entries with one needed for your ISP: config interface 'wan' option proto 'qmi' option device '/dev/cdc-wdm0' option auth '<auth>' # As required, usually 'none' option pincode '<pin>' # If required by SIM option apn '<apn>' # As required by ISP option pdptype '<pdp>' # Typically 'ipv4', or 'ipv4v6' or 'ipv6' For example, the following works for most polish ISPs config interface 'wan' option proto 'qmi' option device '/dev/cdc-wdm0' option auth 'none' option apn 'internet' option pdptype 'ipv4' The required minimum is: config interface 'wan' option proto 'qmi' option device '/dev/cdc-wdm0' In this case, the modem will use last configured APN from stock firmware - this should work out of the box, unless your SIM requires PIN which can't be switched off. If you have build with LuCI, installing luci-proto-qmi helps with this task. Restoring the stock firmware: Preparation: If you took your backup using stock firmware, you will need to reassemble the partitions into images to be restored onto the flash. The layout might differ from ISP to ISP, this example is based on generic stock firmware The only partitions you really care about are "web", "kernel", and "rootfs". These are required to restore the stock firmware through factory TFTP recovery. Because kernel partition was enlarged, compared to stock firmware, the kernel and rootfs MTDs don't align anymore, and you need to carve out required data if you only have backup from stock FW: - Prepare kernel image cat mtd12_kernel.bin mtd13_rootfs.bin > owrt_kernel.bin truncate -s 4M owrt_kernel_restore.bin - Cut off first 1MB from rootfs dd if=mtd13_rootfs.bin of=owrt_rootfs.bin bs=1M skip=1 - Prepare image to write to "ubi" meta-partition: cat mtd6_reserved2.bi mtd7_cfg-param.bin mtd8_log.bin mtd9_oops.bin \ mtd10_reserved3.bin mtd11_web.bin owrt_rootfs.bin > \ owrt_ubi_ubi_restore.bin You can skip the "fota" partition altogether, it is used only for stock firmware update purposes and can be overwritten safely anyway. The same is true for "data" partition which on my device was found to be unused at all. Restoring mtd5_cfg-param.bin will restore the stock firmware configuration you had before. Method 1: Using initramfs: This method is recmmended if you took your backup from within OpenWrt initramfs, as the reassembly is not needed. - Boot to initramfs as in step 3: - Completely detach ubi0 partition using ubidetach /dev/ubi0_0 - Look up the kernel and ubi partitions in /proc/mtd - Copy over the stock kernel image using scp to /tmp - Erase kernel and restore stock kernel: (scp mtd4_kernel.bin root@192.168.1.1:/tmp/) mtd write <kernel_mtd> mtd4_kernel.bin rm mtd4_kernel.bin - Copy over the stock partition backups one-by-one using scp to /tmp, and restore them individually. Otherwise you might run out of space in tmpfs: (scp mtd3_ubiconcat0.bin root@192.168.1.1:/tmp/) mtd write <ubiconcat0_mtd> mtd3_ubiconcat0.bin rm mtd3_ubiconcat0.bin (scp mtd5_ubiconcat1.bin root@192.168.1.1:/tmp/) mtd write <ubiconcat1_mtd> mtd5_ubiconcat1.bin rm mtd5_ubiconcat1.bin - If the write was correct, force a device reboot with reboot -f Method 2: Using live OpenWrt system (NOT RECOMMENDED): - Prepare a USB flash drive contatining MTD backup files - Ensure you have kmod-usb-storage and filesystem driver installed for your drive - Mount your flash drive mkdir /tmp/usb mount /dev/sda1 /tmp/usb - Remount your UBI volume at /overlay to R/O mount -o remount,ro /overlay - Write back the kernel and ubi partitions from USB drive cd /tmp/usb mtd write mtd4_kernel.bin /dev/<kernel_mtd> mtd write mtd9_ubi.bin /dev/<kernel_ubi> - If everything went well, force a device reboot with reboot -f Last image may be truncated a bit due to lack of space in RAM, but this will happen over "fota" MTD partition which may be safely erased after reboot anyway. Method 3: using built-in TFTP recovery: This method is recommended if you took backups using stock firmware. - Assemble a recovery rootfs image from backup of stock partitions by concatenating "web", "kernel", "rootfs" images dumped from the device, as "root_uImage" - Use it in place of "root_uImage" recovery initramfs image as in the TFTP pre-installation method. Quirks and known issuesa - It was observed, that CH340-based USB-UART converters output garbage during U-boot phase of system boot. At least CP2102 is known to work properly. - Kernel partition size is increased to 4MB compared to stock 3MB, to accomodate future kernel updates - at this moment OpenWrt 5.10 kernel image is at 2.5MB which is dangerously close to the limit. This has no effect on booting the system - but keep that in mind when reassembling an image to restore stock firmware. - uqmi seems to be unable to change APN manually, so please use the one you used before in stock firmware first. If you need to change it, please use protocok '3g' to establish connection once, or use the following command to change APN (and optionally IP type) manually: echo -ne 'AT+CGDCONT=1,"IP","<apn>' > /dev/ttyUSB0 - The only usable LED as a "system LED" is the blue debug LED hidden inside the case. All other LEDs are controlled by modem, on which the router part has some influence only on Wi-Fi LED. - Wi-Fi LED currently doesn't work while under OpenWrt, despite having correct GPIO mapping. All other LEDs are controlled by modem, including this one in stock firmware. GPIO19, mapped there only acts as a gate, while the actual signal source seems to be 5GHz Wi-Fi radio, however it seems it is not the LED exposed by ath10k as ath10k-phy0. - GPIO5 used for modem reset is a suicide switch, causing a hardware reset of whole board, not only the modem. It is attached to gpio-restart driver, to restart the modem on reboot as well, to ensure QMI connectivity after reboot, which tends to fail otherwise. - Modem, as in MF283+, exposes root shell over ADB - while not needed for OpenWrt operation at all - have fun lurking around. The same modem module is used as in older MF286. Signed-off-by: Lech Perczak <lech.perczak@gmail.com> |
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Jax Jiang
|
1050e66c8f |
x86: grub2: search for the "kernel" filesystem on all disks
Previously, grub2 was hardcoded to always look on "hd0" for the kernel. This works well when the system only had a single disk. But if there was a second disk/stick present, it may have look on the wrong drive because of enumeration races. This patch utilizes grub2 search function to look for a filesystem with the label "kernel". This works thanks to existing setup in scripts/gen_image_generic.sh. Which sets the "kernel" label on both the fat and ext4 filesystem variants. Signed-off-by: Jax Jiang <jax.jiang.007@gmail.com> Suggested-by: Alberto Bursi <bobafetthotmail@gmail.com> (MX100 WA) (word wrapped, slightly rewritten commit message, removed MX100 WA) Signed-off-by: Christian Lamparter <chunkeey@gmail.com> |
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Claudiu Beznea
|
3e53eec589 |
at91: add support for sama7g5-ek board
Add support for SAMA7G5-EK board. Hardware: - SoC: SAMA7G5 - RAM: Aliance Memory AS4C256M16D3LC (4 Gbit DDR3L) - SD/MMC: 1 standard 4bit SD Card interface - USB: 1 Micro-AB host/device, 1 Type-A host, 1 Type-C host - CAN: 2 interfaces - Ethernet: 10/100 port, 1Gbps port - Wi-Fi/BT: 1 optional interface - Audio: 1 SPDIF RX port, 1 SPDIF TX port, 4 digital microphones - Camera: 1 RPi CSI camera interface - Debug: 1 J-Link-OB + CDC, 1 JTAG - LEDs: 1 RGB - Buttons: 4 push buttons - Expansions: 1 RPi Expansion connector, 2 mikroBUS connectors - Power management: 1 power management IC, 1 power consumption measurement device Signed-off-by: Claudiu Beznea <claudiu.beznea@microchip.com> |
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Claudiu Beznea
|
3ed992a996 |
uboot-at91: update to linux4sam-2021.10
Update uboot-at91 to linux4sam-2021.10 version. Signed-off-by: Claudiu Beznea <claudiu.beznea@microchip.com> |
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Claudiu Beznea
|
bf13b2da2a |
at91bootstrap: update to v3.10.4, v4.0.1
AT91Bootstrap version 4 is available only for SAM9X60, SAMA5D2, SAMA5D3, SAMA5D4, SAMA7G5. Thus use v4.0.1 for the above targets and v3.10.4 for the rest of them. With the switch to v4 AT91Bootstrap binaries are now on build/binaries. Take also this into account. Also, patches directory is not needed anymore with the version update. Signed-off-by: Claudiu Beznea <claudiu.beznea@microchip.com> |
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Josef Schlehofer
|
696f0a1cb4 |
uboot-mvebu: backport pending patches for Marvell A38x
100-ddr-marvell-a38x-fix-BYTE_HOMOGENEOUS_SPLIT_OUT-deci.patch [1]: SoC Marvell A38x is used in Turris Omnia, and we thought that with recent fiddling around DDR training to fix it once for all, there were reproduced the issue in the upcoming new revision Turris Omnia boards. 101-arm-mvebu-spl-Add-option-to-reset-the-board-on-DDR-t.patch [2]: This is useful when some board may occasionally fail with DDR training, and it adds the option to reset the board on the DDR training failure 102-arm-mvebu-turris_omnia-Reset-the-board-immediately-o.patch [3]: This enables the option CONFIG_DDR_RESET_ON_TRAINING_FAILURE (added by 101 patch), so the Turris Omnia board is restarted immediately, and it does not require to reset the board manually or wait 120s for MCU to reset the board [1] https://patchwork.ozlabs.org/project/uboot/patch/20220217000837.13003-1-kabel@kernel.org/ [2] https://patchwork.ozlabs.org/project/uboot/patch/20220217000849.13028-1-kabel@kernel.org/ [3] https://patchwork.ozlabs.org/project/uboot/patch/20220217000849.13028-2-kabel@kernel.org/ Signed-off-by: Josef Schlehofer <pepe.schlehofer@gmail.com> |
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Lech Perczak
|
411940ded4 |
ath79: uboot-envtools: fix partition for ZTE MF286
By mistake, a wrong partition for U-boot environment was introduced for
ZTE MF286 while adding support, when flash layout wasn't finalized. Fix
that, according to the actual flash layout:
dev: size erasesize name
mtd0: 00140000 00020000 "fota-flag"
mtd1: 00140000 00020000 "caldata"
mtd2: 00140000 00020000 "mac"
mtd3: 00f40000 00020000 "ubiconcat0"
mtd4: 00400000 00020000 "kernel"
mtd5: 06900000 00020000 "ubiconcat1"
mtd6: 00080000 00010000 "u-boot"
mtd7: 00020000 00010000 "u-boot-env"
mtd8: 07840000 00020000 "ubi"
Fixes:
|
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Martin Kennedy
|
cfe79f2eb8 |
mpc85xx: Patch HiveAP 330 u-boot to fix boot
When Kernel 5.10 was enabled for mpc85xx, the kernel once again became too large upon decompression (>7MB or so) to decompress itself on boot (see FS#4110[1]). There have been many attempts to fix booting from a compressed kernel on the HiveAP-330: - |
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Raymond Wang
|
3343ca7e68 |
ramips: add support for Xiaomi Mi Router CR660x series
Xiaomi Mi Router CR6606 is a Wi-Fi6 AX1800 Router with 4 GbE Ports. Alongside the general model, it has three carrier customized models: CR6606 (China Unicom), CR6608 (China Mobile), CR6609 (China Telecom) Specifications: - SoC: MediaTek MT7621AT - RAM: 256MB DDR3 (ESMT M15T2G16128A) - Flash: 128MB NAND (ESMT F59L1G81MB) - Ethernet: 1000Base-T x4 (MT7530 SoC) - WLAN: 2x2 2.4GHz 574Mbps + 2x2 5GHz 1201Mbps (MT7905DAN + MT7975DN) - LEDs: System (Blue, Yellow), Internet (Blue, Yellow) - Buttons: Reset, WPS - UART: through-hole on PCB ([VCC 3.3v](RX)(GND)(TX) 115200, 8n1) - Power: 12VDC, 1A Jailbreak Notes: 1. Get shell access. 1.1. Get yourself a wireless router that runs OpenWrt already. 1.2. On the OpenWrt router: 1.2.1. Access its console. 1.2.2. Create and edit /usr/lib/lua/luci/controller/admin/xqsystem.lua with the following code (exclude backquotes and line no.): ``` 1 module("luci.controller.admin.xqsystem", package.seeall) 2 3 function index() 4 local page = node("api") 5 page.target = firstchild() 6 page.title = ("") 7 page.order = 100 8 page.index = true 9 page = node("api","xqsystem") 10 page.target = firstchild() 11 page.title = ("") 12 page.order = 100 13 page.index = true 14 entry({"api", "xqsystem", "token"}, call("getToken"), (""), 103, 0x08) 15 end 16 17 local LuciHttp = require("luci.http") 18 19 function getToken() 20 local result = {} 21 result["code"] = 0 22 result["token"] = "; nvram set ssh_en=1; nvram commit; sed -i 's/channel=.*/channel=\"debug\"/g' /etc/init.d/dropbear; /etc/init.d/drop bear start;" 23 LuciHttp.write_json(result) 24 end ``` 1.2.3. Browse http://{OWRT_ADDR}/cgi-bin/luci/api/xqsystem/token It should give you a respond like this: {"code":0,"token":"; nvram set ssh_en=1; nvram commit; ..."} If so, continue; Otherwise, check the file, reboot the rout- er, try again. 1.2.4. Set wireless network interface's IP to 169.254.31.1, turn off DHCP of wireless interface's zone. 1.2.5. Connect to the router wirelessly, manually set your access device's IP to 169.254.31.3, make sure http://169.254.31.1/cgi-bin/luci/api/xqsystem/token still have a similar result as 1.2.3 shows. 1.3. On the Xiaomi CR660x: 1.3.1. Login to the web interface. Your would be directed to a page with URL like this: http://{ROUTER_ADDR}/cgi-bin/luci/;stok={STOK}/web/home#r- outer 1.3.2. Browse this URL with {STOK} from 1.3.1, {WIFI_NAME} {PASSWORD} be your OpenWrt router's SSID and password: http://{MIROUTER_ADDR}/cgi-bin/luci/;stok={STOK}/api/misy- stem/extendwifi_connect?ssid={WIFI_NAME}&password={PASSWO- RD} It should return 0. 1.3.3. Browse this URL with {STOK} from 1.3.1: http://{MIROUTER_ADDR}/cgi-bin/luci/;stok={STOK}/api/xqsy- stem/oneclick_get_remote_token?username=xxx&password=xxx&- nonce=xxx 1.4. Before rebooting, you can now access your CR660x via SSH. For CR6606, you can calculate your root password by this project: https://github.com/wfjsw/xiaoqiang-root-password, or at https://www.oxygen7.cn/miwifi. The root password for carrier-specific models should be the admi- nistration password or the default login password on the label. It is also feasible to change the root password at the same time by modifying the script from step 1.2.2. You can treat OpenWrt Router however you like from this point as long as you don't mind go through this again if you have to expl- oit it again. If you do have to and left your OpenWrt router unt- ouched, start from 1.3. 2. There's no official binary firmware available, and if you lose the content of your flash, no one except Xiaomi can help you. Dump these partitions in case you need them: "Bootloader" "Nvram" "Bdata" "crash" "crash_log" "firmware" "firmware1" "overlay" "obr" Find the corespond block device from /proc/mtd Read from read-only block device to avoid misoperation. It's recommended to use /tmp/syslogbackup/ as destination, since files would be available at http://{ROUTER_ADDR}/backup/log/YOUR_DUMP Keep an eye on memory usage though. 3. Since UART access is locked ootb, you should get UART access by modify uboot env. Otherwise, your router may become bricked. Excute these in stock firmware shell: a. nvram set boot_wait=on b. nvram set bootdelay=3 c. nvram commit Or in OpenWrt: a. opkg update && opkg install kmod-mtd-rw b. insmod mtd-rw i_want_a_brick=1 c. fw_setenv boot_wait on d. fw_setenv bootdelay 3 e. rmmod mtd-rw Migrate to OpenWrt: 1. Transfer squashfs-firmware.bin to the router. 2. nvram set flag_try_sys1_failed=0 3. nvram set flag_try_sys2_failed=1 4. nvram commit 5. mtd -r write /path/to/image/squashfs-firmware.bin firmware Additional Info: 1. CR660x series routers has a different nand layout compared to other Xiaomi nand devices. 2. This router has a relatively fresh uboot (2018.09) compared to other Xiaomi devices, and it is capable of booting fit image firmware. Unfortunately, no successful attempt of booting OpenWrt fit image were made so far. The cause is still yet to be known. For now, we use legacy image instead. Signed-off-by: Raymond Wang <infiwang@pm.me> |
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Wenli Looi
|
c32008a37b |
ath79: add partial support for Netgear EX7300v2
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> |
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Lech Perczak
|
8c78a13bfc |
ath79: support ZTE MF286
ZTE MF286 is an indoor LTE category 6 CPE router with simultaneous dual-band 802.11ac plus 802.11n Wi-Fi radios and quad-port gigabit Ethernet switch, FXS and external USB 2.0 port. Hardware highlights: - CPU: QCA9563 SoC at 775MHz, - RAM: 128MB DDR2, - NOR Flash: MX25L1606E 2MB SPI Flash, for U-boot only, - NAND Flash: GD5F1G04UBYIG 128MB SPI NAND-Flash, for all other data, - Wi-Fi 5GHz: QCA9882 2x2 MIMO 802.11ac radio, - WI-Fi 2.4GHz: QCA9563 3x3 MIMO 802.11n radio, - Switch: QCA8337v2 4-port gigabit Ethernet, with single SGMII CPU port, - WWAN: MDM9230-based category 6 internal LTE modem in extended mini-PCIE form factor, with 3 internal antennas and 2 external antenna connections, single mini-SIM slot. Modem model identified as MF270, - FXS: one external ATA port (handled entirely by modem part) with two physical connections in parallel, - USB: Single external USB 2.0 port, - Switches: power switch, WPS, Wi-Fi and reset buttons, - LEDs: Wi-Fi, Test (internal). Rest of LEDs (Phone, WWAN, Battery, Signal state) handled entirely by modem. 4 link status LEDs handled by the switch on the backside. - Battery: 3Ah 1-cell Li-Ion replaceable battery, with charging and monitoring handled by modem. - Label MAC device: eth0 Console connection: connector X2 is the console port, with the following pinout, starting from pin 1, which is the topmost pin when the board is upright: - VCC (3.3V). Do not use unless you need to source power for the converer from it. - TX - RX - GND Default port configuration in U-boot as well as in stock firmware is 115200-8-N-1. Installation: Due to different flash layout from stock firmware, sysupgrade from within stock firmware is impossible, despite it's based on QSDK which itself is based on OpenWrt. STEP 0: Stock firmware update: As installing OpenWrt cuts you off from official firmware updates for the modem part, it is recommended to update the stock firmware to latest version before installation, to have built-in modem at the latest firmware version. STEP 1: gaining root shell: Method 1: This works if busybox has telnetd compiled in the binary. If this does not work, try method 2. Using well-known exploit to start telnetd on your router - works only if Busybox on stock firmware has telnetd included: - Open stock firmware web interface - Navigate to "URL filtering" section by going to "Advanced settings", then "Firewall" and finally "URL filter". - Add an entry ending with "&&telnetd&&", for example "http://hostname/&&telnetd&&". - telnetd will immediately listen on port 4719. - After connecting to telnetd use "admin/admin" as credentials. Method 2: This works if busybox does not have telnetd compiled in. Notably, this is the case in DNA.fi firmware. If this does not work, try method 3. - Set IP of your computer to 192.168.1.22. - Have a TFTP server running at that address - Download MIPS build of busybox including telnetd, for example from: https://busybox.net/downloads/binaries/1.21.1/busybox-mips and put it in it's root directory. Rename it as "telnetd". - As previously, login to router's web UI and navigate to "URL filtering" - Using "Inspect" feature, extend "maxlength" property of the input field named "addURLFilter", so it looks like this: <input type="text" name="addURLFilter" id="addURLFilter" maxlength="332" class="required form-control"> - Stay on the page - do not navigate anywhere - Enter "http://aa&zte_debug.sh 192.168.1.22 telnetd" as a filter. - Save the settings. This will download the telnetd binary over tftp and execute it. You should be able to log in at port 23, using "admin/admin" as credentials. Method 3: If the above doesn't work, use the serial console - it exposes root shell directly without need for login. Some stock firmwares, notably one from finnish DNA operator lack telnetd in their builds. STEP 2: Backing up original software: As the stock firmware may be customized by the carrier and is not officially available in the Internet, IT IS IMPERATIVE to back up the stock firmware, if you ever plan to returning to stock firmware. Method 1: after booting OpenWrt initramfs image via TFTP: PLEASE NOTE: YOU CANNOT DO THIS IF USING INTERMEDIATE FIRMWARE FOR INSTALLATION. - Dump stock firmware located on stock kernel and ubi partitions: ssh root@192.168.1.1: cat /dev/mtd4 > mtd4_kernel.bin ssh root@192.168.1.1: cat /dev/mtd8 > mtd8_ubi.bin And keep them in a safe place, should a restore be needed in future. Method 2: using stock firmware: - Connect an external USB drive formatted with FAT or ext4 to the USB port. - The drive will be auto-mounted to /var/usb_disk - Check the flash layout of the device: cat /proc/mtd It should show the following: mtd0: 00080000 00010000 "uboot" mtd1: 00020000 00010000 "uboot-env" mtd2: 00140000 00020000 "fota-flag" mtd3: 00140000 00020000 "caldata" mtd4: 00140000 00020000 "mac" mtd5: 00600000 00020000 "cfg-param" mtd6: 00140000 00020000 "oops" mtd7: 00800000 00020000 "web" mtd8: 00300000 00020000 "kernel" mtd9: 01f00000 00020000 "rootfs" mtd10: 01900000 00020000 "data" mtd11: 03200000 00020000 "fota" Differences might indicate that this is NOT a vanilla MF286 device but one of its later derivatives. - Copy over all MTD partitions, for example by executing the following: for i in 0 1 2 3 4 5 6 7 8 9 10 11; do cat /dev/mtd$i > \ /var/usb_disk/mtd$i; done - If the count of MTD partitions is different, this might indicate that this is not a standard MF286 device, but one of its later derivatives. - (optionally) rename the files according to MTD partition names from /proc/mtd - Unmount the filesystem: umount /var/usb_disk; sync and then remove the drive. - Store the files in safe place if you ever plan to return to stock firmware. This is especially important, because stock firmware for this device is not available officially, and is usually customized by the mobile providers. STEP 3: Booting initramfs image: Method 1: using serial console (RECOMMENDED): - Have TFTP server running, exposing the OpenWrt initramfs image, and set your computer's IP address as 192.168.1.22. This is the default expected by U-boot. You may wish to change that, and alter later commands accordingly. - Connect the serial console if you haven't done so already, - Interrupt boot sequence by pressing any key in U-boot when prompted - Use the following commands to boot OpenWrt initramfs through TFTP: setenv serverip 192.168.1.22 setenv ipaddr 192.168.1.1 tftpboot 0x81000000 openwrt-ath79-nand-zte_mf286-initramfs-kernel.bin bootm 0x81000000 (Replace server IP and router IP as needed). There is no emergency TFTP boot sequence triggered by buttons, contrary to MF283+. - When OpenWrt initramfs finishes booting, proceed to actual installation. Method 2: using initramfs image as temporary boot kernel This exploits the fact, that kernel and rootfs MTD devices are consecutive on NAND flash, so from within stock image, an initramfs can be written to this area and booted by U-boot on next reboot, because it uses "nboot" command which isn't limited by kernel partition size. - Download the initramfs-kernel.bin image - Split the image into two parts on 3MB partition size boundary, which is the size of kernel partition. Pad the output of second file to eraseblock size: dd if=openwrt-ath79-nand-zte_mf286-initramfs-kernel.bin \ bs=128k count=24 \ of=openwrt-ath79-zte_mf286-intermediate-kernel.bin dd if=openwrt-ath79-nand-zte_mf286-initramfs-kernel.bin \ bs=128k skip=24 conv=sync \ of=openwrt-ath79-zte_mf286-intermediate-rootfs.bin - Copy over /usr/bin/flash_eraseall and /usr/bin/nandwrite utilities to /tmp. This is CRITICAL for installation, as erasing rootfs will cut you off from those tools on flash! - After backing up the previous MTD contents, write the images to the respective MTD devices: /tmp/flash_eraseall /dev/<kernel-mtd> /tmp/nandwrite /dev/<kernel-mtd> \ /var/usb_disk/openwrt-ath79-zte_mf286-intermediate-kernel.bin /tmp/flash_eraseall /dev/<kernel-mtd> /tmp/nandwrite /dev/<rootfs-mtd> \ /var/usb_disk/openwrt-ath79-zte_mf286-intermediate-rootfs.bin - Ensure that no bad blocks were present on the devices while writing. If they were present, you may need to vary the split between kernel and rootfs parts, so U-boot reads a valid uImage after skipping the bad blocks. If it fails, you will be left with method 3 (below). - If write is OK, reboot the device, it will reboot to OpenWrt initramfs: reboot -f - After rebooting, SSH into the device and use sysupgrade to perform proper installation. Method 3: using built-in TFTP recovery (LAST RESORT): - With that method, ensure you have complete backup of system's NAND flash first. It involves deliberately erasing the kernel. - Download "-initramfs-kernel.bin" image for the device. - Prepare the recovery image by prepending 8MB of zeroes to the image, and name it root_uImage: dd if=/dev/zero of=padding.bin bs=8M count=1 cat padding.bin openwrt-ath79-nand-zte_mf286-initramfs-kernel.bin > root_uImage - Set up a TFTP server at 192.0.0.1/8. Router will use random address from that range. - Put the previously generated "root_uImage" into TFTP server root directory. - Deliberately erase "kernel" partition" using stock firmware after taking backup. THIS IS POINT OF NO RETURN. - Restart the device. U-boot will attempt flashing the recovery initramfs image, which will let you perform actual installation using sysupgrade. This might take a considerable time, sometimes the router doesn't establish Ethernet link properly right after booting. Be patient. - After U-boot finishes flashing, the LEDs of switch ports will all light up. At this moment, perform power-on reset, and wait for OpenWrt initramfs to finish booting. Then proceed to actual installation. STEP 4: Actual installation: - scp the sysupgrade image to the device: scp openwrt-ath79-nand-zte_mf286-squashfs-sysupgrade.bin \ root@192.168.1.1:/tmp/ - ssh into the device and execute sysupgrade: sysupgrade -n /tmp/openwrt-ath79-nand-zte_mf286-squashfs-sysupgrade.bin - Wait for router to reboot to full OpenWrt. STEP 5: WAN connection establishment Since the router is equipped with LTE modem as its main WAN interface, it might be useful to connect to the Internet right away after installation. To do so, please put the following entries in /etc/config/network, replacing the specific configuration entries with one needed for your ISP: config interface 'wan' option proto 'qmi' option device '/dev/cdc-wdm0' option auth '<auth>' # As required, usually 'none' option pincode '<pin>' # If required by SIM option apn '<apn>' # As required by ISP option pdptype '<pdp>' # Typically 'ipv4', or 'ipv4v6' or 'ipv6' For example, the following works for most polish ISPs config interface 'wan' option proto 'qmi' option device '/dev/cdc-wdm0' option auth 'none' option apn 'internet' option pdptype 'ipv4' If you have build with LuCI, installing luci-proto-qmi helps with this task. Restoring the stock firmware: Preparation: If you took your backup using stock firmware, you will need to reassemble the partitions into images to be restored onto the flash. The layout might differ from ISP to ISP, this example is based on generic stock firmware. The only partitions you really care about are "web", "kernel", and "rootfs". For easy padding and possibly restoring configuration, you can concatenate most of them into images written into "ubi" meta-partition in OpenWrt. To do so, execute something like: cat mtd5_cfg-param.bin mtd6-oops.bin mtd7-web.bin mtd9-rootfs.bin > \ mtd8-ubi_restore.bin You can skip the "fota" partition altogether, it is used only for stock firmware update purposes and can be overwritten safely anyway. The same is true for "data" partition which on my device was found to be unused at all. Restoring mtd5_cfg-param.bin will restore the stock firmware configuration you had before. Method 1: Using initramfs: - Boot to initramfs as in step 3: - Completely detach ubi0 partition using ubidetach /dev/ubi0_0 - Look up the kernel and ubi partitions in /proc/mtd - Copy over the stock kernel image using scp to /tmp - Erase kernel and restore stock kernel: (scp mtd4_kernel.bin root@192.168.1.1:/tmp/) mtd write <kernel_mtd> mtd4_kernel.bin rm mtd4_kernel.bin - Copy over the stock partition backups one-by-one using scp to /tmp, and restore them individually. Otherwise you might run out of space in tmpfs: (scp mtd3_ubiconcat0.bin root@192.168.1.1:/tmp/) mtd write <ubiconcat0_mtd> mtd3_ubiconcat0.bin rm mtd3_ubiconcat0.bin (scp mtd5_ubiconcat1.bin root@192.168.1.1:/tmp/) mtd write <ubiconcat1_mtd> mtd5_ubiconcat1.bin rm mtd5_ubiconcat1.bin - If the write was correct, force a device reboot with reboot -f Method 2: Using live OpenWrt system (NOT RECOMMENDED): - Prepare a USB flash drive contatining MTD backup files - Ensure you have kmod-usb-storage and filesystem driver installed for your drive - Mount your flash drive mkdir /tmp/usb mount /dev/sda1 /tmp/usb - Remount your UBI volume at /overlay to R/O mount -o remount,ro /overlay - Write back the kernel and ubi partitions from USB drive cd /tmp/usb mtd write mtd4_kernel.bin /dev/<kernel_mtd> mtd write mtd8_ubi.bin /dev/<kernel_ubi> - If everything went well, force a device reboot with reboot -f Last image may be truncated a bit due to lack of space in RAM, but this will happen over "fota" MTD partition which may be safely erased after reboot anyway. Method 3: using built-in TFTP recovery (LAST RESORT): - Assemble a recovery rootfs image from backup of stock partitions by concatenating "web", "kernel", "rootfs" images dumped from the device, as "root_uImage" - Use it in place of "root_uImage" recovery initramfs image as in the TFTP pre-installation method. Quirks and known issues - Kernel partition size is increased to 4MB compared to stock 3MB, to accomodate future kernel updates - at this moment OpenWrt 5.10 kernel image is at 2.5MB which is dangerously close to the limit. This has no effect on booting the system - but keep that in mind when reassembling an image to restore stock firmware. - uqmi seems to be unable to change APN manually, so please use the one you used before in stock firmware first. If you need to change it, please use protocok '3g' to establish connection once, or use the following command to change APN (and optionally IP type) manually: echo -ne 'AT+CGDCONT=1,"IP","<apn>' > /dev/ttyUSB0 - The only usable LED as a "system LED" is the green debug LED hidden inside the case. All other LEDs are controlled by modem, on which the router part has some influence only on Wi-Fi LED. - Wi-Fi LED currently doesn't work while under OpenWrt, despite having correct GPIO mapping. All other LEDs are controlled by modem, including this one in stock firmware. GPIO19, mapped there only acts as a gate, while the actual signal source seems to be 5GHz Wi-Fi radio, however it seems it is not the LED exposed by ath10k as ath10k-phy0. - GPIO5 used for modem reset is a suicide switch, causing a hardware reset of whole board, not only the modem. It is attached to gpio-restart driver, to restart the modem on reboot as well, to ensure QMI connectivity after reboot, which tends to fail otherwise. - Modem, as in MF283+, exposes root shell over ADB - while not needed for OpenWrt operation at all - have fun lurking around. - MAC address shift for 5GHz Wi-Fi used in stock firmware is 0x320000000000, which is impossible to encode in the device tree, so I took the liberty of using MAC address increment of 1 for it, to ensure different BSSID for both Wi-Fi interfaces. Signed-off-by: Lech Perczak <lech.perczak@gmail.com> |
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Josef Schlehofer
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d16bd89c71 |
uboot-mvebu: backport two patches for Marvell A38x
This solves issue with DDR training on Turris Omnia. Log: ******** DRAM initialization Failed (res 0x1) ******** DDR3 Training Sequence - FAILED ERROR ### Please RESET the board ### Signed-off-by: Josef Schlehofer <pepe.schlehofer@gmail.com> |
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Josef Schlehofer
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5c804bc199 |
uboot-mvebu: Add U-boot for Turris Omnia
* Add U-boot support for Turris Omnia Signed-off-by: Josef Schlehofer <pepe.schlehofer@gmail.com> |
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Josef Schlehofer
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782d4c8306 |
uboot-mvebu: update to version 2022.01
Signed-off-by: Josef Schlehofer <pepe.schlehofer@gmail.com> Tested-by: Andre Heider <a.heider@gmail.com> # ESPRESSObin |
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Hauke Mehrtens
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8c1a84aada |
uboot-envtools: Update to version 2022.01
The sizes of the ipk changed on MIPS 24Kc like this: 13281 uboot-envtools_2021.01-54_mips_24kc.ipk 13308 uboot-envtools_2022.01-1_mips_24kc.ipk Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de> |
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Daniel Golle
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145d896e0e
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uboot-mediatek: update to version 2022.01
Tested on BananaPi R2 (SD, eMMC), BananaPi R64 (SD, eMMC, SPI-NAND) and UniElec U7623-02 (eMMC). Signed-off-by: Daniel Golle <daniel@makrotopia.org> |
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Daniel Golle
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31872a38be
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uboot-envtools: add configuration for UniElec U7623 board
Add U-Boot env settings to allow accessing the environment using fw_printenv and fw_setenv tools on the UniElec U7623 board. Signed-off-by: Daniel Golle <daniel@makrotopia.org> |
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Daniel Golle
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213b406ae3
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uboot-mediatek: update build for the U7623-02 board
Brings bootmenu and production/recovery dual-boot scheme like on the BPi-R2, BPi-R64, E8450 and UniFi 6 LR. Signed-off-by: Daniel Golle <daniel@makrotopia.org> |
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Sven Eckelmann
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8143709c90 |
ath79: Add support for OpenMesh OM2P v1
Device specifications: ====================== * Qualcomm/Atheros AR7240 rev 2 * 350/350/175 MHz (CPU/DDR/AHB) * 32 MB of RAM * 16 MB of SPI NOR flash - 2x 7 MB available; but one of the 7 MB regions is the recovery image * 2x 10/100 Mbps Ethernet * 1T1R 2.4 GHz Wi-Fi * 6x GPIO-LEDs (3x wifi, 2x ethernet, 1x power) * 1x GPIO-button (reset) * external h/w watchdog (enabled by default) * TTL pins are on board (arrow points to VCC, then follows: GND, TX, RX) * 2x fast ethernet - eth0 + 18-24V passive POE (mode B) + used as WAN interface - eth1 + builtin switch port 4 + used as LAN interface * 12-24V 1A DC * external antenna The device itself requires the mtdparts from the uboot arguments to properly boot the flashed image and to support dual-boot (primary + recovery image). Unfortunately, the name of the mtd device in mtdparts is still using the legacy name "ar7240-nor0" which must be supplied using the Linux-specfic DT parameter linux,mtd-name to overwrite the generic name "spi0.0". Flashing instructions: ====================== Various methods can be used to install the actual image on the flash. Two easy ones are: ap51-flash ---------- The tool ap51-flash (https://github.com/ap51-flash/ap51-flash) should be used to transfer the image to the u-boot when the device boots up. initramfs from TFTP ------------------- The serial console must be used to access the u-boot shell during bootup. It can then be used to first boot up the initramfs image from a TFTP server (here with the IP 192.168.1.21): setenv serverip 192.168.1.21 setenv ipaddr 192.168.1.1 tftpboot 0c00000 <filename-of-initramfs-kernel>.bin && bootm $fileaddr The actual sysupgrade image can then be transferred (on the LAN port) to the device via scp <filename-of-squashfs-sysupgrade>.bin root@192.168.1.1:/tmp/ On the device, the sysupgrade must then be started using sysupgrade -n /tmp/<filename-of-squashfs-sysupgrade>.bin Signed-off-by: Sven Eckelmann <sven@narfation.org> |
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Sven Eckelmann
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97f5617259 |
ath79: Add support for OpenMesh OM5P-AC v1
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> |
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Sven Eckelmann
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72ef594550 |
ath79: Add support for OpenMesh OM5P-AN
Device specifications: ====================== * Qualcomm/Atheros AR9344 rev 2 * 560/450/225 MHz (CPU/DDR/AHB) * 64 MB of RAM * 16 MB of SPI NOR flash - 2x 7 MB available; but one of the 7 MB regions is the recovery image * 1T1R 2.4 GHz Wi-Fi * 2T2R 5 GHz Wi-Fi * 6x GPIO-LEDs (3x wifi, 2x ethernet, 1x power) * 1x GPIO-button (reset) * external h/w watchdog (enabled by default) * TTL pins are on board (arrow points to VCC, then follows: GND, TX, RX) * TI tmp423 (package kmod-hwmon-tmp421) for temperature monitoring * 2x ethernet - eth0 + AR8035 ethernet PHY + 10/100/1000 Mbps Ethernet + 802.3af POE + used as LAN interface - eth1 + 10/100 Mbps Ethernet + builtin switch port 1 + 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> |
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Nick McKinney
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e0a574d4b7 |
ramips: add support for Linksys EA6350 v4
Specifications: - SoC: MT7621DAT (880MHz, 2 Cores) - RAM: 128 MB - Flash: 128 MB NAND - Ethernet: 5x 1GiE MT7530 - WiFi: MT7603/MT7613 - USB: 1x USB 3.0 This is another MT7621 device, very similar to other Linksys EA7300 series devices. Installation: Upload the generated factory.bin image via the stock web firmware updater. Reverting to factory firmware: Like other EA7300 devices, this device has an A/B router configuration to prevent bricking. Hard-resetting this device three (3) times will put the device in failsafe (default) mode. At this point, flash the OEM image to itself and reboot. This puts the router back into the 'B' image and allows for a firmware upgrade. Troubleshooting: If the firmware will not boot, first restore the factory as described above. This will then allow the factory.bin update to be applied properly. Signed-off-by: Nick McKinney <nick@ndmckinney.net> |
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Pawel Dembicki
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4e46ae1f69 |
kirkwood: add support for NETGEAR ReadyNAS Duo v2
NETGEAR ReadyNAS Duo v2 is a NAS based on Marvell kirkwood SoC. Specification: - Processor Marvell 88F6282 (1.6 GHz) - 256MB RAM - 128MB NAND - 1x GBE LAN port (PHY: Marvell 88E1318) - 1x USB 2.0 - 2x USB 3.0 - 2x SATA - 3x button - 5x leds - serial on J5 connector accessible from rear panel (115200 8N1) (VCC,TX,RX,GND) (3V3 LOGIC!) Installation by USB + serial: - Copy initramfs image to fat32 usb drive - Connect pendrive to USB 2.0 front socket - Connect serial console - Stop booting in u-boot - Do: usb reset setenv bootargs 'console=ttyS0,115200n8 earlyprintk' setenv bootcmd 'nand read.e 0x1200000 0x200000 0x600000;bootm 0x1200000' saveenv fatload usb 0:1 0x1200000 openwrt-kirkwood-netgear_readynas-duo-v2-initramfs-uImage bootm 0x1200000 - copy sysupgrade image via ssh. - run sysupgrade Installation by TFTP + serial: - Setup TFTP server and copy initramfs image - Connect serial console - Stop booting in u-boot - Do: setenv bootargs 'console=ttyS0,115200n8 earlyprintk' setenv bootcmd 'nand read.e 0x1200000 0x200000 0x600000;bootm 0x1200000' saveenv setenv serverip 192.168.1.1 setenv ipaddr 192.168.1.2 tftpboot 0x1200000 openwrt-kirkwood-netgear_readynas-duo-v2-initramfs-uImage bootm 0x1200000 - copy sysupgrade image via ssh. - run sysupgrade Known issues: - Power button and PHY INTn pin are connected to the same GPIO. It causes that every network restart button is pressed in system. As workaround, button is used as regular BTN_1. For more info please look at file: RND_5.3.13_WW.src/u-boot/board/mv_feroceon/mv_hal/usibootup/usibootup.c from Netgear GPL sources. Tested-by: Raylynn Knight <rayknight@me.com> Tested-by: Lech Perczak <lech.perczak@gmail.com> Signed-off-by: Pawel Dembicki <paweldembicki@gmail.com> |