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0db4f9785c
48 Commits
Author | SHA1 | Message | Date | |
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Shiji Yang
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0db4f9785c
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ath79: convert ath10k calibration data to NVMEM (ASCII MAC)
This patch converts ath10k calibration data to NVMEM format for wave 1 devices with mtd ASCII MAC address. The "calibration" NVMEM cell size is 0x844. All unportable MAC address settings have been moved to '10_fix_wifi_mac' scripts. Signed-off-by: Shiji Yang <yangshiji66@qq.com> |
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Shiji Yang
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2f1c62e5af
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ath79: convert ath10k calibration data to NVMEM (binary MAC)
This patch converts ath10k calibration data to NVMEM format for wave 1 devices with mtd binary MAC address. The "calibration" NVMEM cell size is 0x844. The MAC addresses are assigned via dts. Signed-off-by: Shiji Yang <yangshiji66@qq.com> |
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Eric J. Anderson
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807acbce66 |
ath79: make boot-leds service executable
This service was unfunctional due to not having its executable bit set. Fixes #13500. Signed-off-by: Eric J. Anderson <eric.j.ason256@gmail.com> |
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Weiping Yang
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c7baca3bb6 |
ath79: add support for GL.iNet GL-S200
Specifications: SoC: QCA9531(650MHz) RAM: DDR2 128M Flash: SPI NOR 16M + SPI NAND 128M WiFi: 2.4GHz with 2 antennas(WiFi/Thread) Ethernet: 1xLAN(10/100M) 2xWAN(10/100M) Button: 1x Reset Button Switch: 1x Mode switch LED: 1x Blue LED + 1x White LED + 1x Orange LED IOT: Thread + ZigBee/Zwave By uboot web failsafe: Push the reset button for 5 seconds util the power led flash faster, then use broswer to access http://192.168.1.1 Afterwards upgrade can use sysupgrade image. Signed-off-by: Weiping Yang <weiping.yang@gl-inet.com> |
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Shiji Yang
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12f53724c6 |
ath79: fix first reboot issue on Netgear WNDR4300 v2 and WNDR4500 v3
From the Netgear u-boot GPL code[1]. Bootloader always unconditionally marks block 768, 1020 - 1023 as bad blocks on each boot. This may lead to conflicts with the OpenWrt nand driver since these blocks may be good blocks. In this case, U-boot will override the oob of these blocks so that break the ubi volume. The system will be damaged after first reboot. To avoid this issue, manually skip these blocks by using "mtd-concat". [1] https://www.downloads.netgear.com/files/GPL/EX7300v2series-V1.0.0.146_gpl_src.tar.bz2.zip Fixes: https://github.com/openwrt/openwrt/issues/8878 Tested-by: Yousaf <yousaf465@gmail.com> Signed-off-by: Shiji Yang <yangshiji66@qq.com> |
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Christian Lamparter
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1d49310fdb |
ath79: add Cisco Meraki MR18
Specifications: SOC: Atheros/Qualcomm QCA9557-AT4A @ 720MHz RAM: 2x Winbond W9751G6KB-25 (128 MiB) FLASH: Hynix H27U1G8F2BTR-BC TSOP48 ONFI NAND (128 MiB) WIFI1: Atheros AR9550 5.0GHz (SoC) WIFI2: Atheros AR9582-AR1A 2.4GHz WIFI2: Atheros AR9582-AR1A 2.4GHz + 5GHz PHYETH: Atheros AR8035-A, 802.3af PoE capable Atheros (1x Gigabit LAN) LED: 1x Power-LED, 1 x RGB Tricolor-LED INPUT: One Reset Button UART: JP1 on PCB (Labeled UART), 3.3v-Level, 115200n8 (VCC, RX, TX, GND - VCC is closest to the boot set jumper under the console pins.) Flashing instructions: Depending on the installed firmware, there are vastly different methods to flash a MR18. These have been documented on: <https://openwrt.org/toh/meraki/mr18> Tip: Use an initramfs from a previous release and then use sysupgrade to get to the later releases. This is because the initramfs can no longer be built by the build-bots due to its size (>8 MiB). Note on that: Upgrades from AR71XX releases are possible, but they will require the force sysupgrade option ( -F ). Please backup your MR18's configuration before starting the update. The reason here is that a lot of development happend since AR71XX got removed, so I do advise to use the ( -n ) option for sysupgrade as well. This will cause the device to drop the old AR71xx configuration and make a new configurations from scratch. Note on LEDs: The LEDs has changed since AR71XX. The white LED is now used during the boot and when upgrading instead of the green tricolor LED. The technical reason is that currently the RGB-LED is brought up later by a userspace daemon. (added warning note about odm-caldata partition. remove initramfs - it's too big to be built by the bots. MerakiNAND -> meraki-header. sort nu801's targets) Signed-off-by: Christian Lamparter <chunkeey@gmail.com> |
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Andreas Böhler
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590d1fd0e6 |
ath79: add support for ZTE MF282
The ZTE MF282 is a LTE router used (exclusively?) by the network operator "3". Specifications ============== SoC: QCA9563 (775MHz) RAM: 128MiB Flash: 8MiB SPI-NOR + 128MiB SPI-NAND LAN: 1x GBit LAN LTE: ZTE MF270 (Cat4), detected as P685M WiFi: QCA9880ac + QCA9560bgn MAC addresses ============= LAN: from config WiFi 1: from config WiFi 2: +1 Installation ============ TFTP installation using UART is preferred. Disassemble the device and connect serial. Put the initramfs image as openwrt.bin to your TFTP server and configure a static IP of 192.168.1.100. Load the initramfs image by typing: setenv serverip 192.168.1.100 setenv ipaddr 192.168.1.1 tftpboot 0x82000000 openwrt.bin bootm 0x82000000 From this intiramfs boot you can take a backup of the currently installed partitions as no vendor firmware is available for download. Once booted, transfer the sysupgrade image and run sysupgrade. LTE Modem ========= The LTE modem is probably the same as in the MF283+, all instructions apply. Configuring the connection using modemmanager works properly, the modem provides three serial ports and a QMI CDC ethernet interface. Signed-off-by: Andreas Böhler <dev@aboehler.at> |
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Xinfa Deng
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dd8a4a8c34 |
ath79: add support for GL.iNet GL-X1200
This patch adds supports for GL-X1200. Specification: - SOC: QCA9563 (775MHz) - Flash: 16 MiB - RAM: 128 MiB DDR2 - Ethernet: 4x 1Gbps LAN + 1x 1Gbps WAN - Wireless: QCA9563(2.4GHz) and QCA9886(5GHz) - SIM: 2x SIM card slots - MicroSD: 1x microSD slot - Antenna: 2x external 5dBi antennas - USB: 1x USB 2.0 port - Button: 1x reset button - LED: 16x LEDs (3x GPIO controllable) - UART: 1x UART on PCB (JP1: 3.3V, RX, TX, GND) - OEM U-Boot supplies HTTP/GUI access Implementation Notes ==================== Both the NOR and NAND variants boot off a NOR-based kernel, consistent with the OEM's firmware. The mode LEDs are * Boot, Running system * Failsafe 2G * Upgrade 5G Installation ============ Using sysupgrade ---------------- sysupgrade may be used to install a NAND image on a device running a NAND image or a NOR image on a device running a NOR image. It is recommended to *not* preserve config when upgrading from OEM firmware or previous versions of OpenWrt. No supported sysupgrade path should require "force". Transitioning from NOR to NAND can be accomplished Using U-Boot ------------ The OEM U-Boot can be put into a graphical, firmware-upload mode by holding down the button on the side of the router while applying power and for a bit more than five seconds following with the current OEM U-Boot. The power LED will come on, then the 5G LED will flash five times, about once a second. When the 5G LED stops flashing and the 2G LED lights solid, the router's U-Boot will provide an upload page at http://192.168.1.1/ Either a browser may be used to upload an image, or a utility such as curl may be used: curl -X POST -F gl_firmware=\@*-nand-squashfs-factory.img \ http://192.168.1.1/index.html or curl -X POST -F gl_firmware=\@*-nor-squashfs-sysupgrade.bin \ http://192.168.1.1/index.html Note that NOR vs. NAND is based on the file name extension. Signed-off-by: Xinfa Deng <xinfa.deng@gl-inet.com> |
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Shiji Yang
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58088ff457 |
ath79: convert Netgear R6100 radio calibration to nvmem-cells
use nvmem-cells implementation to avoid copying art calibration data to rootfs. Tested on Netgear R6100 Signed-off-by: Shiji Yang <yangshiji66@qq.com> |
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Edward Chow
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3d343ca713 |
ath79: calibrate nand netgear wndrxxxx with nvmem
Driver for both soc (2.4GHz Wifi) and pci (5 GHz) now pull the calibration data from the nvmem subsystem. This allows us to move the userspace caldata extraction for the pci-e ath9k supported wifi into the device-tree definition of the device. wmac's nodes are also changed over to use nvmem-cells over OpenWrt's custom mtd-cal-data property. The wifi mac address remains correct after these changes, because When both "mac-address" and "calibration" are defined, the effective mac address comes from the cell corresponding to "mac-address" and mac-address-increment. Test passed on my wndr3700v4 and wndr4500v3. Signed-off-by: Edward Chow <equu@openmail.cc> |
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Edward Chow
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50f727b773 |
ath79: add support for Linksys EA4500 v3
Add support for the Linksys EA4500 v3 wireless router Hardware -------- SoC: Qualcomm Atheros QCA9558 RAM: 128M DDR2 (Winbond W971GG6KB-25) FLASH: 128M SPI-NAND (Spansion S34ML01G100TFI00) WLAN: QCA9558 3T3R 802.11 bgn QCA9580 3T3R 802.11 an ETH: Qualcomm Atheros QCA8337 UART: 115200 8n1, same as ea4500 v2 USB: 1 single USB 2.0 host port BUTTON: Reset - WPS LED: 1x system-LED LEDs besides the ethernet ports are controlled by the ethernet switch MAC Address: use address(sample 1) source label 94:10:3e:xx:xx:6f caldata@cal_macaddr lan 94:10:3e:xx:xx:6f $label wan 94:10:3e:xx:xx:6f $label WiFi4_2G 94:10:3e:xx:xx:70 caldata@cal_ath9k_soc WiFi4_5G 94:10:3e:xx:xx:71 caldata@cal_ath9k_pci Installation from Serial Console ------------ 1. Connect to the serial console. Power up the device and interrupt autoboot when prompted 2. Connect a TFTP server reachable at 192.168.1.0/24 (e.g. 192.168.1.66) to the ethernet port. Serve the OpenWrt initramfs image as "openwrt.bin" 3. To test OpenWrt only, go to step 4 and never execute step 5; To install, auto_recovery should be disabled first, and boot_part should be set to 1 if its current value is not. ath> setenv auto_recovery no ath> setenv boot_part 1 ath> saveenv 4. Boot the initramfs image using U-Boot ath> setenv serverip 192.168.1.66 ath> tftpboot 0x84000000 openwrt.bin ath> bootm 5. Copy the OpenWrt sysupgrade image to the device using scp and install it like a normal upgrade (with no need to keeping config since no config from "previous OpenWRT installation" could be kept at all) # sysupgrade -n /path/to/openwrt/sysupgrade.bin Note: Like many other routers produced by Linksys, it has a dual firmware flash layout, but because I do not know how to handle it, I decide to disable it for more usable space. (That is why the "auto_recovery" above should be disabled before installing OpenWRT.) If someone is interested in generating factory firmware image capable to flash from stock firmware, as well as restoring the dual firmware layout, commented-out layout for the original secondary partitions left in the device tree may be a useful hint. Installation from Web Interface ------------ 1. Login to the router via its web interface (default password: admin) 2. Find the firmware update interface under "Connectivity/Basic" 3. Choose the OpenWrt factory image and click "Start" 4. If the router still boots into the stock firmware, it means that the OpenWrt factory image has been installed to the secondary partitions and failed to boot (since OpenWrt on EA4500 v3 does not support dual boot yet), and the router switched back to the stock firmware on the primary partitions. You have to install a stock firmware (e.g. 3.1.6.172023, downloadable from https://www.linksys.com/support-article?articleNum=148385 ) first (to the secondary partitions) , and after that, install OpenWrt factory image (to the primary partitions). After successful installation of OpenWrt, auto_recovery will be automatically disabled and router will only boot from the primary partitions. Signed-off-by: Edward Chow <equu@openmail.cc> |
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David Bauer
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1e1695f959 |
ath79: add support for ZTE MF281
Add support for the ZTE MF281 battery-powered WiFi router. Hardware -------- SoC: Qualcomm Atheros QCA9563 RAM: 128M DDR2 FLASH: 2M SPI-NOR (GigaDevice GD25Q16) 128M SPI-NAND (GigaDevice) WLAN: QCA9563 2T2R 802.11 abgn QCA9886 2T2R 802.11 nac WWAN: ASRMicro ASR1826 ETH: Qualcomm Atheros QCA8337 UART: 115200 8n1 Unpopulated connector next to SIM slot (SIM) GND - RX - TX - 3V3 Don't connect 3V3 BUTTON: Reset - WPS LED: 1x debug-LED (internal) LEDs on front of the device are controlled using the modem CPU and can not be controlled by OpenWrt Installation ------------ 1. Connect to the serial console. Power up the device and interrupt autoboot when prompted 2. Connect a TFTP server reachable at 192.168.1.66 to the ethernet port. Serve the OpenWrt initramfs image as "speedbox-2.bin" 3. Boot the initramfs image using U-Boot $ setenv serverip 192.168.1.66 $ setenv ipaddr 192.168.1.154 $ tftpboot 0x84000000 speedbox-2.bin $ bootm 4. Copy the OpenWrt factory image to the device using scp and write to the NAND flash $ mtd write /path/to/openwrt/factory.bin firmware WWAN ---- The WWAN card can be used with OpenWrt. Example configuration for connection with a unauthenticated dual-stack APN: network.lte=interface network.lte.proto='ncm' network.lte.device='/dev/ttyACM0' network.lte.pdptype='IPV4V6' network.lte.apn='internet.telekom' network.lte.ipv6='auto' network.lte.delay='10' The WWAN card is running a modified version of OpenWrt and handles power-management as well as the LED controller (AW9523). A root shell can be acquired by installing adb using opkg and executing "adb shell". Signed-off-by: David Bauer <mail@david-bauer.net> |
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Leo Soares
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35a0f2b00c |
ath79: add LTE led for GL.iNet GL-XE300
This commit adds the LTE led for GL.iNet GL-XE300 to the default leds config. Signed-off-by: Leo Soares <leo@hyper.ag> |
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Chris Blake
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949e8ba521 |
ath79: add support for Netgear PGZNG1
This adds support for the Netgear PGZNG1, also known as the ADT Pulse Gateway. Hardware: CPU: Atheros AR9344 Memory: 256MB Storage: 256MB NAND Hynix H27U2G8F2CTR-BC USB: 1x USB 2.0 Ethernet: 2x 100Mb/s WiFi: Atheros AR9340 2.4GHz 2T2R Leds: 8 LEDs Button: 1x Reset Button UART: Header marked JPE1. Pinout is VCC, TX, RX, GND. The marked pin, closest to the JPE1 marking, is VCC. Note VCC isn't required to be connected for UART to work. Enable Stock Firmware Shell Access: 1. Interrupt u-boot and run the following commands setenv console_mode 1 saveenv reset This will enable a UART shell in the firmware. You can then login using the root password of `icontrol`. If that doesn't work, the device is running a firmware based on OpenWRT where you can drop into failsafe to mount the FS and then modify /etc/passwd. Installation Instructions: 1. Interupt u-boot and run the following commands setenv active_image 0 setenv stock_bootcmd nboot 0x81000000 0 \${kernel_offset} setenv openwrt_bootcmd nboot 0x82000000 0 \${kernel_offset} setenv bootcmd run openwrt_bootcmd saveenv 2. boot initramfs image via TFTP u-boot tftpboot 0x82000000 openwrt-ath79-nand-netgear_pgzng1-initramfs-kernel.bin; bootm 0x82000000 3. Once booted, use LuCI sysupgrade to flash openwrt-ath79-nand-netgear_pgzng1-squashfs-sysupgrade.bin MAC Table: WAN (eth0): xx:xa - caldata 0x0 LAN (eth1): xx:xb - caldata 0x6 WLAN (phy0): xx:xc - burned into ath9k caldata Not Working: Z-Wave RS422 Signed-off-by: Chris Blake <chrisrblake93@gmail.com> (added more hw-info, fixed file permissions) Signed-off-by: Christian Lamparter <chunkeey@gmail.com> |
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Lech Perczak
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1fabeeb799 |
ath79: ZTE MF286[A,R]: add "Power button blocker" GPIO switch
ZTE MF286A and MF286R feature a "power switch override" GPIO in stock firmware as means to prevent power interruption during firmware update, especially when used with internal battery. To ensure that this GPIO is properly driven as in stock firmware, configure it with userspace GPIO switch. It was observed that on some units, the modem would not be restarted together with the board itself on reboot, this should help with that as well. Signed-off-by: Lech Perczak <lech.perczak@gmail.com> |
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Pascal Coudurier
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0905b07139 |
ath79: improve support for GL.iNet GL-XE300
- fix eth0 eth1 sharing same mac so it conforms to the behavior stated in the original commit and the way it is in vendor firmware : WAN is label, LAN is label +1 and WLAN is label +2 - add default leds config - add default network config Signed-off-by: Pascal Coudurier <coudu@wanadoo.fr> |
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Lech Perczak
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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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Alex Henrie
|
fe1ecf1fcb |
ath79: add Zyxel EMG2926-Q10A
The Zyxel EMG2926-Q10A is 99% the Zyxel NBG6716, but the bootloader expects a different product name when flashing over TFTP. Also, the EMG2926-Q10A always has 128 MiB of NAND flash whereas the NBG6716 reportedly can have either 128 MiB or 256 MiB. Signed-off-by: Alex Henrie <alexhenrie24@gmail.com> |
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Graham Cole
|
e282e50d44 |
ath79: fix wndr4500v3 lan port order to match case
The LED and LAN port numbering on the case of wndr4500v3 devices are reversed relative to the wndr4300v2. I created this patch to so that the ordering in OpenWRT will be consistent with that. Signed-off-by: Graham Cole <diakka@gmail.com> |
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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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Sungbo Eo
|
c7a559980a |
ath79: improve support for Dongwon T&I DW02-412H
* Move &nand node to DTSI * Utilize nvmem for fetching caldata * Rename build recipe, clean before build * Simplify KERNEL definition Signed-off-by: Sungbo Eo <mans0n@gorani.run> |
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Piotr Dymacz
|
5dfa89be99 |
ath79: add support for Netgear R6100
Netgear R6100 is a dual-band Wi-Fi 5 (AC1200) router based on Qualcomm
Atheros (AR9344 + QCA9882) platform. Support for this device was first
introduced in
|
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Jihoon Han
|
84451173f0 |
ath79: add support for Dongwon T&I DW02-412H
Dongwon T&I DW02-412H is a 2.4/5GHz band 11ac (WiFi-5) router, based on Qualcomm Atheros QCA9557. Specifications -------------- - SoC: Qualcomm Atheros QCA9557-AT4A - RAM: DDR2 128MB - Flash: SPI NOR 2MB (Winbond W25Q16DVSSIG / ESMT F25L16PA(2S)) + NAND 64/128MB - WiFi: - 2.4GHz: QCA9557 WMAC - 5GHz: QCA9882-BR4A - Ethernet: 5x 10/100/1000Mbps - Switch: QCA8337N-AL3C - USB: 1x USB 2.0 - UART: - JP2: 3.3V, TX, RX, GND (3.3V is the square pad) / 115200 8N1 Installation -------------- 1. Connect a serial interface to UART header and interrupt the autostart of kernel. 2. Transfer the factory image via TFTP and write it to the NAND flash. 3. Update U-Boot environment variable. > tftpboot 0x81000000 <your image>-factory.img > nand erase 0x1000000 > nand write 0x81000000 0x1000000 ${filesize} > setenv bootpart 2 > saveenv Revert to stock firmware -------------- 1. Revert to stock U-Boot environment variable. > setenv bootpart 1 > saveenv MAC addresses as verified by OEM firmware -------------- WAN: *:XX (label) LAN: *:XX + 1 2.4G: *:XX + 3 5G: *:XX + 4 The label MAC address was found in art 0x0. Credits -------------- Credit goes to the @manatails who first developed how to port OpenWRT to this device and had a significant impact on this patch. And thanks to @adschm and @mans0n for guiding me to revise the code in many ways. Signed-off-by: Jihoon Han <rapid_renard@renard.ga> Reviewed-by: Sungbo Eo <mans0n@gorani.run> Tested-by: Sungbo Eo <mans0n@gorani.run> |
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Adrian Schmutzler
|
6f648ed7e6 |
treewide: remove "+" sign for increment with macaddr_add
Many people appear to use an unneeded "+" prefix for the increment when calculating a MAC address with macaddr_add. Since this is not required and used inconsistently [*], just remove it. [*] As a funny side-fact, copy-pasting has led to almost all hotplug.d files using the "+", while nearly all of the 02_network files are not using it. Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de> |
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Adrian Schmutzler
|
85b1f4d8ca |
treewide: remove execute bit and shebang from board.d files
So far, board.d files were having execute bit set and contained a shebang. However, they are just sourced in board_detect, with an apparantly unnecessary check for execute permission beforehand. Replace this check by one for existance and make the board.d files "normal" files, as would be expected in /etc anyway. Note: This removes an apparantly unused '#!/bin/sh /etc/rc.common' in target/linux/bcm47xx/base-files/etc/board.d/01_network Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de> |
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Adrian Schmutzler
|
63e1ce3e09 |
ath79: fix position of SPDX license identifier
Strictly, the identifier needs to be in the line directly after the shebang. Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de> |
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Adrian Schmutzler
|
6f96a4d043 |
ath79: remove model name from LED labels
Currently, we request LED labels in OpenWrt to follow the scheme modelname:color:function However, specifying the modelname at the beginning is actually entirely useless for the devices we support in OpenWrt. On the contrary, having this part actually introduces inconvenience in several aspects: - We need to ensure/check consistency with the DTS compatible - We have various exceptions where not the model name is used, but the vendor name (like tp-link), which is hard to track and justify even for core-developers - Having model-based components will not allow to share identical LED definitions in DTSI files - The inconsistency in what's used for the model part complicates several scripts, e.g. board.d/01_leds or LED migrations from ar71xx where this was even more messy Apart from our needs, upstream has deprecated the label property entirely and introduced new properties to specify color and function properties separately. However, the implementation does not appear to be ready and probably won't become ready and/or match our requirements in the foreseeable future. However, the limitation of generic LEDs to color and function properties follows the same idea pointed out above. Generic LEDs will get names like "green:status" or "red:indicator" then, and if a "devicename" is prepended, it will be the one of an internal device, like "phy1:amber:status". With this patch, we move into the same direction, and just drop the boardname from the LED labels. This allows to consolidate a few definitions in DTSI files (will be much more on ramips), and to drop a few migrations compared to ar71xx that just changed the boardname. But mainly, it will liberate us from a completely useless subject to take care of for device support review and maintenance. To also drop the boardname from existing configurations, a simple migration routine is added unconditionally. Although this seems unfamiliar at first look, a quick check in kernel for the arm/arm64 dts files revealed that while 1033 lines have labels with three parts *:*:*, still 284 actually use a two-part labelling *:*, and thus is also acceptable and not even rare there. Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de> |
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Adrian Schmutzler
|
0cfdc7d446 |
target: update SPDX license names
SPDX moved from GPL-2.0 to GPL-2.0-only and from GPL-2.0+ to GPL-2.0-or-later. Reflect that in the SPDX license headers. Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de> |
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Davy Hollevoet
|
394f54ee62 |
ath79/nand: add support for Netgear WNDR4300TN
This patch adds support for the WNDR4300TN, marketed by Belgian ISP Telenet. The hardware is the same as the WNDR4300 v1, without the fifth ethernet port (WAN) and the USB port. The circuit board has the traces, but the components are missing. Specifications: * SoC: Atheros AR9344 * RAM: 128 MB * Flash: 128 MB NAND flash * WiFi: Atheros AR9580 (5 GHz) and AR9344 (2.4 GHz) * Ethernet: 4x 1000Base-T * LED: Power, LAN, WiFi 2.4GHz, WiFi 5GHz, WPS * UART: on board, to the right of the RF shield at the top of the board Installation: * Flashing through the OEM web interface: + Connect your computer to the router with an ethernet cable and browse to http://192.168.0.51/ + Log in with the default credentials are admin:password + Browse to Advanced > Administration > Firmware Upgrade in the Telenet interface + Upload the Openwrt firmware: openwrt-ath79-nand-netgear_wndr4300tn-squashfs-factory.img + Proceed with the firmware installation and give the device a few minutes to finish and reboot. * Flashing through TFTP: + Configure your wired client with a static IP in the 192.168.1.x range, e.g. 192.168.1.10 and netmask 255.255.255.0. + Power off the router. + Press and hold the RESET button (the factory reset button on the bottom of the device, with the gray circle around it, next to the Telenet logo) and turn the router on while keeping the button pressed. + The power LED will start flashing orange. You can release the button once it switches to flashing green. + Transfer the image over TFTP: $ tftp 192.168.1.1 -m binary -c put openwrt-ath79-nand-netgear_wndr4300tn-squashfs-factory.img Signed-off-by: Davy Hollevoet <github@natox.be> [use DT label reference for adding LEDs in DTSI files] Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de> |
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Luochongjun
|
68ac3f2cdd |
ath79: add support for gl-e750
The gl-e750 is a portable travel router that gives you safe access to the internet while traveling. Specifications: - SoC: Qualcomm Atheros AR9531 (650MHz) - RAM: 128 MB DDR2 - Flash: 16 MB SPI NOR (W25Q128FVSG) + 128 MB SPI NAND (GD5F1GQ4UFYIG) - Ethernet: 10/100: 1xLAN - Wireless: QCA9531 2.4GHz (bgn) + QCA9887 5GHz (ac) - USB: 1x USB 2.0 port - Switch: 1x switch - Button: 1x reset button - OLED Screen: 128*64 px MAC addresses based on vendor firmware: LAN *:a0 art 0x0 2.4GHz *:a1 art 0x1002 5GHz *:a2 art calculated from art 0x0 + 2 Flash firmware: Since openwrt's kernel already exceeds 2MB, upgrading from the official version of GL-inet (v3.100) using the sysupgrade command will break the kernel image. Users who are using version 3.100 can only upgrade via uboot. The official guidance for GL-inet is as follows: https://docs.gl-inet.com/en/3/troubleshooting/debrick/ In the future, GL-inet will modify the firmware to support the sysupgrade command, so users will be able to upgrade directly with the sysupgrade command in future releases. OLED screen control: OLED controller is connected to QCA9531 through serial port, and can send instructions to OLED controller directly through serial port. Refer to the links below for a list of supported instructions: https://github.com/gl-inet/GL-E750-MCU-instruction Signed-off-by: Luochongjun <luochongjun@gl-inet.com> [fix alphabetic sorting in 10-fix-wifi-mac, drop check-kernel-size] Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de> |
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Andrey Bondar
|
326e488c7b |
ath79: add support for 8devices Rambutan board
Rambutan is a Wifi module based on QCA9550/9557 http://www.8devices.com/products/rambutan Specification: - 720/600/200 MHz (CPU/DDR/AHB) - 128 MB of DDR2 RAM - 128 MB of NAND Flash - 1x 100Mbps Ethernet - 1x 1000Mbps Ethernet (PHY on dev-kit) - 1x Wifi radio 2x2 MIMO, dualband 2.4 and 5 GHz - 2x U.FL connectors on module, chip antennas on dev-kit - 1x miniPCIe slot - 2x USB2.0 host - 2x UART - SPI, I2C, GPIO Flash instructions: Upgrade from ar71xx target: sysupgrade -F /tmp/openwrt-ath79-nand-8dev_rambutan-squashfs-sysupgrade.tar or upgrade from GUI (don't save config) Use factory image to flash from U-Boot: tftpboot 80060000 openwrt-ath79-nand-8dev_rambutan-squashfs-factory.ubi nand erase.part ubi nand write 80060000 ubi ${filesize} Signed-off-by: Petr Štetiar <ynezz@true.cz> [copy&pasted missing commit description] Signed-off-by: Andrey Bondar <a.bondar@8devices.com> |
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Stijn Segers
|
9a1f4b2f83 |
ath79/nand: add support for Netgear WNDR4300SW
This patch adds support for the WNDR4300SW, marketed by California ISP SureWest (hence the 'SW' suffix). Hardware wise, it's identical to the WNDR4300 v1. Specifications: * SoC: Atheros AR9344 * RAM: 128 MB * Flash: 128 MB NAND flash * WiFi: Atheros AR9580 (5 GHz) and AR9344 (2,4 GHz) * Ethernet: 5x 1000Base-T * LED: Power, WAN, LAN, WiFi, USB, WPS * UART: on board, to the right of the RF shield at the top of the board Installation: * Flashing through the OEM web interface: + Connect your computer to the router with an ethernet cable and browse to http://192.168.1.1/ + Log in with the default credentials are admin:password + Browse to Advanced > Administration > Firmware Upgrade in the Netgear interface + Upload the Openwrt firmware: openwrt-ath79-nand-netgear_wndr4300sw-squashfs-factory.img + Proceed with the firmware installation and give the device a few minutes to finish and reboot. * Flashing through TFTP: + Configure your wired client with a static IP in the 192.168.1.x range, e.g. 192.168.1.10 and netmask 255.255.255.0. + Power off the router. + Press and hold the RESET button (the factory reset button on the bottom of the device, with the red circle around it) and turn the router on while keeping the button pressed. + The power LED will start flashing orange. You can release the button once it switches to flashing green. + Transfer the image over TFTP: $ tftp 192.168.1.1 -m binary -c put openwrt-ath79-nand-netgear_wndr4300sw-squashfs-factory.img Signed-off-by: Stijn Segers <foss@volatilesystems.org> |
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Guillaume Lefebvre
|
f5a9181d6e |
ath79: fix wmac initialization for Zyxel NBG6716
2.4 GHz Wifi on ath79 is set up in 10-ath9k-eeprom, but in ar71xx it was done with ath79_register_wmac. Thus, the following errors are observed on the device: ath: phy1: Unable to initialize hardware; initialization status: -5 ath9k 18100000.wmac: failed to initialize device ath9k: probe of 18100000.wmac failed with error -5 This patch changes the ath79 support to properly use wmac as well. This will also require fixing the MAC address in a different way. Signed-off-by: Guillaume Lefebvre <guillaume@zelig.ch> [several adjustments to 10-fix-wifi-mac, use correct MAC address, rewrite commit message] Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de> |
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Adrian Schmutzler
|
85aef6f627 |
ath79: fix MAC addresses for ethernet on ZyXEL NBG6716
MAC addresses of the ethernet devices (eth0 & eth1) are randomly set at
boot time by the ag71xx driver, because it is currently not possible to
retrieve MAC addresses in ASCII format within the DTS file.
This commit works around this behaviour by setting the MAC addresses
during the preinit phase.
The same has been implemented recently for the Siemens WS-AP3610 in
|
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Roger Pueyo Centelles
|
a66eee6336 |
ath79: add mikrotik subtarget
This commit creates the ath79/mikrotik subtarget in order to support MikroTik devices based on Qualcomm Atheros MIPS SoCs. MikroTik devices need a couple of specific features: the split MiNOR firmware MTD format, which is not used by other devices, and the 4k sector erase size on SPI NOR storage, which can not be added to the ath79/generic and ath79/nand subtargets now. Additionally, the commit moves the two MikroTik devices already in the generic and nand subtargets to this new one. Tested on the RB922 board and the wAP AC router. Signed-off-by: Roger Pueyo Centelles <roger.pueyo@guifi.net> |
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WeiDong Jia
|
643cab4f31 |
ath79: add support for DomyWifi DW33D
This commit ports the device from ar71xx to the ath79 target and modifies the partition layout. 1. Firmware is installed to nand flash. 2. Modify the uboot-env parameter to boot from the nand flash. 3. The kernel size is extended to 5M. 4.nor flash retains the oem firmware. oem partition layout dev: size erasesize name mtd0: 00040000 00010000 "u-boot" mtd1: 00010000 00010000 "u-boot-env" mtd2: 00e30000 00010000 "rootfs" mtd3: 00170000 00010000 "kernel" mtd4: 00010000 00010000 "art" mtd5: 00f90000 00010000 "firmware" mtd6: 06000000 00020000 "rootfs_data" mtd7: 02000000 00020000 "backup" new partition layout dev: size erasesize name mtd0: 00040000 00010000 "u-boot" mtd1: 00010000 00010000 "u-boot-env" mtd2: 00fa0000 00010000 "oem-firmware" mtd3: 00010000 00010000 "art" mtd4: 00500000 00020000 "kernel" mtd5: 05b00000 00020000 "ubi" mtd6: 02000000 00020000 "oem-backup" MAC address overview: All mac addresses are stored in the art partition. eth0: 0x0 eth1: 0x6 ath9k: 0xc ath10k: 0x12 No valid addresses in 0x1002 and 0x5006. All addresses match the OEM firmware. Install from oem firmware. Enable ssh service: Connect to the router web, click professional, click system-startup, and add dropbear in the local startup input box. Click system-administration, delete ssh-key, and replace your ssh pub key. Restart the router. 1.Upload openwrt firmware to the device scp openwrt-snapshot-r11365-df60a0852c-ath79-nand-domywifi_dw33d-\ squashfs-factory.bin root@192.168.10.1:/tmp 2.modify uboot-env. ssh login to the device: fw_setenv bootcmd 'nboot 0x8050000 0;bootm || bootm 0x9fe80000' Run the fw_printenv command to check if the settings are correct. 3.Write openwrt firmware. ssh login to the device: mtd -r write /tmp/openwrt-snapshot-r11365-df60a0852c-ath79-nand-\ domywifi_dw33d-squashfs-factory.bin /dev/mtd6 The device will restart automatically and the openwrt firmware installation is complete. Restore oem firmware.just erase the kernel partition and the ubi partition. ssh login to the device: mtd erase /dev/mtd4 mtd -r erase /dev/mtd5 Reboot the device Signed-off-by: WeiDong Jia <jwdsccd@gmail.com> [alter flash instruction in commit message] Signed-off-by: Chuanhong Guo <gch981213@gmail.com> |
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Roger Pueyo Centelles
|
8f93c05a59 |
ath79: add support for MikroTik RouterBOARD 922UAGS-5HPacD
This patch ports support for the MikroTik RouterBOARD 922UAGS-5HPacD with a built-in 802.11ac High-Power radio (31dBm), which was already available in the ar71xx target. See https://mikrotik.com/product/RB922UAGS-5HPacD for more info. Specifications: - SoC: Qualcomm Atheros QCA9558 (720 MHz) - RAM: 128 MB - Storage: 128 MB NAND - Wireless: external QCA9882 802.11a/ac 2x2:2 - Ethernet: 1x 1000/100/10 Mbps, integrated, via AR8031 PHY, passive PoE-in 24V - SFP: 1x host - USB: 1x 2.0 type A - PCIe: 1x Mini slot (also contains USB 2.0 for 3G/LTE modems) - SIM slot: 1x mini-SIM Working: - Board/system detection - SPI and NAND storage - PCIe - USB type A host - Wireless - Ethernet - LEDs (user, phy0) - Reset button - Sysupgrade to/from ar71xx Not supported: - RSSI LEDs - SFP cage Installation methods: - Sysupgrade from ar71xx (it is advisable to use the -n option to wipe any previous settings), or - Boot the initramfs image via TFTP and then flash the sysupgrade image using "sysupgrade -n" Signed-off-by: Roger Pueyo Centelles <roger.pueyo@guifi.net> |
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Michal Cieslakiewicz
|
a736f39432 |
ath79: add support for Netgear WNDR4500 v3
This patch introduces support for Netgear WNDR4500v3. Router is very similar to WNDR4300v2 and is based on the same PCB. Information gathered from various Internet sources (including https://patchwork.ozlabs.org/patch/809227/) shows following differences to WNDR4300v2: * two USB 2.0 ports with separate LEDs * USB LEDs soldered to secondary pads * WPS and RFKILL buttons soldered to secondary pads * described as N900 device with 3x3:3 MIMO for 2.4GHz radio * power supply requirement is DC 12V 2.5A * vendor HW ID suffix differs in one digit * bigger chassis Signed-off-by: Michal Cieslakiewicz <michal.cieslakiewicz@wp.pl> |
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Michal Cieslakiewicz
|
37a36a588a |
ath79: add support for Netgear WNDR4300 v2
This patch introduces support for Netgear WNDR4300v2. Specification ============= * Description: Netgear WNDR4300 v2 * Loader: U-boot * SOC: Qualcomm Atheros QCA9563 (775 MHz) * RAM: 128 MiB * Flash: 2 MiB SPI-NOR + 128 MiB SPI-NAND - NOR: U-boot binary: 256 KiB - NOR: U-boot environment: 64 KiB - NOR: ART Backup: 64 KiB - NOR: Config: 64 KiB - NOR: Traffic Meter: 64 KiB - NOR: POT: 64 KiB - NOR: Reserved: 1408 KiB - NOR: ART: 64 KiB - NAND: Firmware: 25600 KiB (see notes for OpenWrt) - NAND: Language: 2048 KiB - NAND: mtdoops Crash Dump: 128 KiB - NAND: Reserved: 103296 KiB * Ethernet: 5 x 10/100/1000 (4 x LAN, 1 x WAN) (AR8337) * Wireless: - 2.4 GHz b/g/n (internal) - 5 GHz a/n (AR9580) * USB: yes, 1 x USB 2.0 * Buttons: - Reset - WiFi (rfkill) - WPS * LEDs: - Power (amber/green) - WAN (amber/green) - WLAN 2G (green) - WLAN 5G (blue) - 4 x LAN (amber/green) - USB (green) - WPS (green) * UART: 4-pin connector JP1, 3.3V (Vcc, TX, RX, GND), 115200 8N1 * Power supply: DC 12V 1.5A * MAC addresses: LAN=WLAN2G on case label, WAN +1, WLAN5G +2 Important Notes =============== 0. NOR Flash (2 MiB) is not touched by OpenWrt installation. 1. NAND Flash (128 MiB) layout under OpenWrt is changed as follows: all space is split between 4 MiB kernel and 124 MiB UBI areas; vendor partitions (language and mtdoops) are removed; kernel space size can be further expanded if needed; maximum image size is set to 25600k for compatibility reasons and can also be increased. 2. CPU clock is 775 MHz, not 750 MHz. 3. 5 GHz wireless radio chip is Atheros AR9580-AR1A with bogus PCI device ID 0xabcd. For ath9k driver to load successfully, this is overriden in DTS with correct value for this chip, 0x0033. 4. RFKILL button is wired to AR9580 pin 9 which is normally disabled by chip definition in ath9k code (0x0000F4FF gpio mask). Therefore 'qca,gpio-mask=<0xf6ff>' hack must be used for button to work properly. 5. USB port is always on, no GPIO for 5V power control has been identified. Installation ============ * TFTP recovery * TFTP via U-boot prompt * sysupgrade * Web interface Test build configuration ======================== CONFIG_TARGET_ath79=y CONFIG_TARGET_ath79_nand=y CONFIG_TARGET_ath79_nand_DEVICE_netgear_wndr4300-v2=y CONFIG_ALL_KMODS=y CONFIG_DEVEL=y CONFIG_CCACHE=y CONFIG_COLLECT_KERNEL_DEBUG=y CONFIG_IMAGEOPT=y Signed-off-by: Michal Cieslakiewicz <michal.cieslakiewicz@wp.pl> |
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Paul Blazejowski
|
7e623c3128 |
ath79: add support for Netgear WNDR3700v4
This patch adds ath79 support for Netgear WNDR3700v4. Router was previously supported by ar71xx target only. Note: device requires 'ar934x-nand' driver in kernel. Specification ============= * Description: Netgear WNDR3700v4 * Loader: U-boot * SOC: Atheros AR9344 (560 MHz) * RAM: 128 MiB * Flash: 128 MiB (NAND) - U-boot binary: 256 KiB - U-boot environment: 256 KiB - ART: 256 KiB - POT: 512 KiB - Language: 2 MiB - Config: 512 KiB - Traffic Meter: 3 MiB - Firmware: 25 MiB - ART Backup: 256 KiB - Reserved: 96 MiB * Ethernet: 5 x 10/100/1000 (4 x LAN, 1 x WAN) (AR8327) * Wireless: - 2.4 GHz b/g/n (internal) - 5 GHz a/n (AR9580) * USB: yes, 1 x USB 2.0 * Buttons: - Reset - WiFi (rfkill) - WPS * LEDs: - Power (amber/green) - WAN (amber/green) - WLAN 2G (green) - WLAN 5G (blue) - 4 x LAN (amber/green) - USB (green) - WPS (amber/green) * UART: 4-pin connector JP1, 3.3V (Vcc, TX, RX, GND), 115200 8N1 * Power supply: DC 12V 2.5A * MAC addresses: LAN=WLAN2G on case label, WAN +1, WLAN5G +2 Installation ============ * TFTP recovery * TFTP via U-boot prompt * sysupgrade * Web interface Note about partitioning: firmware partition offset (0x6c0000) is hardcoded into vendor's u-boot, so this partition cannot be moved and resized to include Netgear-specific flash areas (pot, language, config, traffic_meter) not used by OpenWrt. Test build configuration ======================== CONFIG_TARGET_ath79=y CONFIG_TARGET_ath79_nand=y CONFIG_TARGET_ath79_nand_DEVICE_netgear_wndr3700-v4=y CONFIG_ALL_KMODS=y CONFIG_DEVEL=y CONFIG_CCACHE=y CONFIG_COLLECT_KERNEL_DEBUG=y CONFIG_IMAGEOPT=y Signed-off-by: Paul Blazejowski <paulb@blazebox.homeip.net> |
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Jeff Kletsky
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b496a2294c |
ath79: GL-AR750S: provide NAND support; increase kernel to 4 MB
The GL.iNet GL-AR750S has been supported by the ar71xx and ath79
platforms with access to its 16 MB NOR flash, but not its 128 MB
SPI NAND flash.
This commit provides support for the NAND through the upstream
SPI-NAND framework.
At this time, the OEM U-Boot appears to only support loading the
kernel from NOR. This configuration is preserved as this time,
with the glinet,gl-ar750s-nand name reserved for a potential,
future, NAND-only boot.
The family of GL-AR750S devices on the ath79 platform now includes:
* glinet,gl-ar750m-nor-nand "nand" target
* glinet,gl-ar750m-nor "nand" target (NAND-aware)
NB: This commit increases the kernel size from 2 MB to 4 MB
"Force-less" sysupgrade is presently supported from the current
versions of following NOR-based firmwre images to the version of
glinet,gl-ar750s-nor firmware produced by this commit:
* glinet,gl-ar750s -- OpenWrt 19.07 ar71xx
* glinet,gl-ar750s -- OpenWrt 19.07 ath79
Users who have sucessfully upgraded to glinet,gl-ar750m-nor may then
flash glinet,gl-ar750m-nor-nand with sysupgrade to transtion to the
NAND-based variant.
Other upgrades to these images, including directly to the NAND-based
glinet,gl-ar750s-nor-nand firmware, can be accomplished through U-Boot.
NB: See "ath79: restrict GL-AR750S kernel build-size to 2 MB" which
enables flashing of NAND factory.img with the current GL-iNet U-Boot,
"U-Boot 1.1.4-gcf378d80-dirty (Aug 16 2018 - 07:51:15)"
The GL-AR750S OEM U-Boot allows upload and flashing of either NOR
firmware (sysupgrade.bin) or NAND firmware (factory.img) through its
HTTP-based GUI. Serial connectivity is not required.
The glinet,gl-ar750s-nor and glinet,gl-ar750s-nor-nand images
generated after this commit flash each other directly.
This commit changes the control of the USB VBUS to gpio-hog from
regulator-fixed introduced by commit
|
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Jeff Kletsky
|
55e6c903ae |
ath79: GL-AR300M: provide NAND support; increase to 4 MB kernel
The GL.iNet GL-AR300M has been supported by the ar71xx and ath79 platforms with access to its 16 MB NOR flash, but not its 128 MB SPI NAND flash. This commit provides support for the NAND through the upstream SPI-NAND framework. Devices with both NOR and NAND flash can support independent firmware on each, with U-Boot able to boot from either. The OEM U-Boot will fall back to the NOR firmware after three "unsuccessful" boots. The family of GL-AR300M devices on the ath79 platform now includes: * glinet,gl-ar300m-lite "generic" target, NOR-only board * glinet,gl-ar300m-nand "nand" target * glinet,gl-ar300m-nor "nand" target (NAND-aware) NB: This commit increases the kernel size from 2 MB to 4 MB "Force-less" sysupgrade is presently supported from the current versions of following NOR-based firmwre images to the version of glinet,gl-ar300m-nor firmware produced by this commit: * gl-ar300m -- OEM v3 NOR ar71xx (openwrt-ar300m16-*.bin) * gl-ar300m -- OpenWrt 18.06 ar71xx * gl-ar300m -- OpenWrt 19.07 ar71xx Other upgrades to these images should be performed through U-Boot. The GL-AR300M OEM U-Boot allows upload and flashing of either NOR firmware (sysupgrade.bin) or NAND firmware (factory.img) through its HTTP-based GUI. Serial connectivity is not required. The glinet,gl-ar300m-nand and glinet,gl-ar300m-nor images generated after this commit should safely flash each other using sysupgrade. The boot counter is implemented by the OEM using u-boot-env. At this time, it does not appear that the switch on the side of the unit can be used to select NOR vs. NAND boot and the fail-over is only from NAND to NOR. To save flash wear, it is only reset when running the glinet,gl-ar300m-nand firmware. NAND-specific base-files are used to remove impact on existing generic and tiny targets. As there is now no "generic" build appropriate for the GL-AR300M16, (or for users of the GL-AR300M that do not need access to NAND) it will be introduced in a subsequent commit. Note: `mtd_get_mac_binary art 0x6` does not return the proper MAC and the GL.iNet source indicates that only the 0x0 offset is valid The ar71xx targets are unmodified. Signed-off-by: Jeff Kletsky <git-commits@allycomm.com> |
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Adrian Schmutzler
|
194612997b |
ath79: use nand_do_upgrade by default for nand subtarget
On nand subtarget, the default upgrade mechanism should be nand_do_upgrade. This patch changes platform_do_upgrade() accordingly. Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de> |
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Adrian Schmutzler
|
6d00e6fc7b |
ath79: fix several issues for ZyXEL NBG6716
This fixes several issues introduced with ZyXEL NBG6716 support:
- Inhomogeneous indent
- Wrong ath10k MAC patching function
- Wrong brackets for pad-to in nand.mk
- Add missing DEVICE_MODEL
- Remove k2t.sh include (copy/paste leftover)
Fixes:
|
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Michal Cieslakiewicz
|
9b6f89c37f |
ath79: add support for Netgear WNDR4300
This patch adds ath79 support for Netgear WNDR4300. Router was previously supported by ar71xx target only. Note: device requires 'ar934x-nand' driver in kernel. Specification ============= * Description: Netgear WNDR4300 * Loader: U-boot * SOC: Atheros AR9344 (560 MHz) * RAM: 128 MiB * Flash: 128 MiB (NAND) - U-boot binary: 256 KiB - U-boot environment: 256 KiB - ART: 256 KiB - POT: 512 KiB - Language: 2 MiB - Config: 512 KiB - Traffic Meter: 3 MiB - Firmware: 25 MiB - ART Backup: 256 KiB - Reserved: 96 MiB * Ethernet: 5 x 10/100/1000 (4 x LAN, 1 x WAN) (AR8327) * Wireless: - 2.4 GHz b/g/n (internal) - 5 GHz a/n (AR9580) * USB: yes, 1 x USB 2.0 * Buttons: - Reset - WiFi (rfkill) - WPS * LEDs: - Power (amber/green) - WAN (amber/green) - WLAN 2G (green) - WLAN 5G (blue) - 4 x LAN (amber/green) - USB (green) - WPS (amber/green) * UART: 4-pin connector JP1, 3.3V (Vcc, TX, RX, GND), 115200 8N1 * Power supply: DC 12V 2.5A * MAC addresses: LAN=WLAN2G on case label, WAN +1, WLAN5G +2 Installation ============ * TFTP recovery * TFTP via U-boot prompt * sysupgrade * Web interface Note about partitioning: firmware partition offset (0x6c0000) is hardcoded into vendor's u-boot, so this partition cannot be moved and resized to include Netgear-specific flash areas (pot, language, config, traffic_meter) not used by OpenWrt. Test build configuration ======================== CONFIG_TARGET_ath79=y CONFIG_TARGET_ath79_nand=y CONFIG_TARGET_ath79_nand_DEVICE_netgear_wndr4300=y CONFIG_ALL_KMODS=y CONFIG_DEVEL=y CONFIG_CCACHE=y CONFIG_COLLECT_KERNEL_DEBUG=y CONFIG_IMAGEOPT=y Signed-off-by: Michal Cieslakiewicz <michal.cieslakiewicz@wp.pl> |
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Adrian Schmutzler
|
b288c56e1e |
ath79: move base-files for ZyXEL NBG6716
Due to rebase of the base-files split patch after adding support
for the ZyXEL NBG6716, its base-files were added to the generic
subtarget, although the device belongs to the nand subtarget.
This moves the definitions to their proper locations.
Fixes:
|
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David Bauer
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62db255543 |
ath79: add support for Aerohive HiveAP 121
This commit adds support for the Aerohive HiveAP-121. It was previously already supported in the ar71xx subtarget. The following is copied from the commit which added ar71xx support: Specification: - SoC: Atheros AR9344-BC2A at 560MHz - WiFi 1: 2.4GHz Atheros AR9340? - SoC - WiFi 2: 5.0GHz Atheros AR9382-AL1A - Memory: 128MB from 2x Nanya NT5TU32M16DG-AC - SPI: 1MB Macronix MX25L8006E - NAND: 128MB Hynix H27U1G8F2BTR-BC - Ethernet: Atheros AR8035-A - USB: 1x 2.0 - TPM: Atmel SC3204 Flashing: 1. Hook into UART (9600 baud) and enter U-Boot. You may need to enter a password of administrator or AhNf?d@ta06 if prompted. 2. Once in U-Boot, download and flash LEDE factory image over tftp: dhcp; setenv serverip tftp-server-ip; tftpboot 0x81000000 lede-ar71xx-nand-hiveap-121-squashfs-factory.bin; nand erase 0x800000 0x800000; nand write 0x81000000 0x800000 0x800000; reset; Signed-off-by: David Bauer <mail@david-bauer.net> |
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Adrian Schmutzler
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0130022bae |
ath79: split base-files into subtargets
While most of the target's contents are split into subtargets, the base-files are maintained for the target as a whole. However, OpenWrt already implements a mechanism that will use (and even prefer) files in the subtargets' directories. This can be exploited to make several scripts subtarget-specific and thus save some space (especially helpful for the tiny devices). The only script remaining in parent base-files is /etc/hotplug.d/ieee80211/00-wifi-migration, everything else is moved/split. Note that this will increase overall code lines, but reduce code per subtarget. base-files ipk size reduction: master (generic) 49135 B split (generic) 48533 B (- 0.6 kiB) split (tiny) 43337 B (- 5.7 kiB) split (nand) 44423 B (- 4.6 kiB) Tested on TL-WR1043ND v4 (generic) and TL-WR841N v12 (tiny). Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de> |