openwrt/target/linux/ipq806x/base-files/lib/upgrade/platform.sh

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PART_NAME=firmware
REQUIRE_IMAGE_METADATA=1
RAMFS_COPY_BIN='fw_printenv fw_setenv'
RAMFS_COPY_DATA='/etc/fw_env.config /var/lock/fw_printenv.lock'
platform_check_image() {
return 0;
}
platform_do_upgrade() {
case "$(board_name)" in
ipq806x: add support for Arris TR4400 v2 / RAC2V1A Hardware specs: SoC: Qualcomm IPQ8065 (dual core Cortex-A15) RAM: 512 MB DDR3 Flash: 256 MB NAND, 32 MB NOR WiFi: QCA9983 2.4 GHz, QCA9984 5 GHz Switch: QCA8337 Ethernet: 5x 10/100/1000 Mbit/s USB: 1x USB 3.0 Type-A Buttons: WPS, Reset Power: 12 VDC, 2.5 A Ethernet ports: 1x WAN: connected to eth2 4x LAN: connected via the switch to eth0 and eth1 (eth0 is disabled in OEM firmware) MAC addresses (OEM and OpenWrt): fw_env @ 0x00 d4:ab:82:??:??:?a LAN (eth1) fw_env @ 0x06 d4:ab:82:??:??:?b WAN (eth2) fw_env @ 0x0c d4:ab:82:??:??:?c WLAN 2.4 GHz (ath1) fw_env @ 0x12 d4:ab:82:??:??:?d WLAN 5 GHz (ath0) fw_env @ 0x18 d4:ab:82:??:??:?e OEM usage unknown (eth0 in OpenWrt) OID d4:ab:82 is registered to: ARRIS Group, Inc., 6450 Sequence Drive, San Diego CA 92121, US More info: https://openwrt.org/inbox/toh/arris/tr4400_v2 IMPORTANT: This port requires moving the 'fw_env' partition prior to first boot to consolidate 70% of the usable space in flash into a contiguous partition. 'fw_env' contains factory-programmed MAC addresses, SSIDs, and passwords. Its contents must be copied to 'rootfs_1' prior to booting via initramfs. Note that the stock 'fw_env' partition will be wiped during sysupgrade. A writable 'stock_fw_env' partition pointing to the old, stock location is included in the port to help rolling back this change if desired. Installation: - Requires serial access and a TFTP server. - Fully boot stock, press ENTER, type in: mtd erase /dev/mtd21 dd if=/dev/mtd22 bs=128K count=1 | mtd write - /dev/mtd21 umount /config && ubidetach -m 23 && mtd erase /dev/mtd23 - Reboot and interrupt U-Boot by pressing a key, type in: set mtdids 'nand0=nand0' set mtdparts 'mtdparts=nand0:155M@0x6500000(mtd_ubi)' set bootcmd 'ubi part mtd_ubi && ubi read 0x44000000 kernel && bootm' env save - Setup TFTP server serving initramfs image as 'recovery.bin', type in: set ipaddr 192.168.1.1 set serverip 192.168.1.2 tftpboot recovery.bin && bootm - Use sysupgrade to install squashfs image. This port is based on work done by AmadeusGhost <amadeus@jmu.edu.cn>. Signed-off-by: Rodrigo Balerdi <lanchon@gmail.com> [add 5.15 changes for 0069-arm-boot-add-dts-files.patch] Signed-off-by: Sungbo Eo <mans0n@gorani.run>
2022-04-07 06:18:59 +00:00
arris,tr4400-v2 |\
ipq806x: add support for Askey RT4230W REV6 This adds support for the Askey RT4230W REV6 (Branded by Spectrum/Charter as RAC2V1K) At this time, there's no way to reinstall the stock firmware so don't install this on a router that's being rented. Specifications: Qualcomm IPQ8065 1 GB of RAM (DDR3) 512 MB Flash (NAND) 2x Wave 2 WiFi cards (QCA9984) 5x 10/100/1000 Mbps Ethernet (Switch: QCA8337) 1x LED (Controlled by a microcontroller that switches it between red and blue with different patterns) 1x USB 3.0 Type-A 12V DC Power Input UART header on PCB - pinout from top to bottom is RX, TX, GND, 5V Port settings are 115200n8 More information: https://forum.openwrt.org/t/askey-rac2v1k-support/15830 https://deviwiki.com/wiki/Askey_RAC2V1K To check what revision your router is, restore one of these config backups through the stock firmware to get ssh access then run "cat /proc/device-tree/model". https://forum.openwrt.org/t/askey-rac2v1k-support/15830/17 The revision number on the board doesn't seem to be very consistent so that's why this is needed. You can also run printenv in the uboot console and if machid is set to 177d, that means your router is rev6. Note: Don't install this if the router is being rented from an ISP. The defined partition layout is different from the OEM one and even if you changed the layout to match, backing up and restoring the OEM firmware breaks /overlay so nothing will save and the router will likely enter a bootloop. How to install: Method 1: Install without opening the case using SSH and tftp You'll need: RAC2V1K-SSH.zip: https://github.com/lmore377/openwrt-rt4230w/blob/master/RAC2V1K-SSH.zip initramfs and sysupgrade images Connect to one of the router's LAN ports Download the RAC2V1K-SSH.zip file and restore the config file that corresponds to your router's firmware (If you're firmware is newer than what's in the zip file, just restore the 1.1.16 file) After a reboot, you should be able to ssh into the router with username: "4230w" and password: "linuxbox" or "admin". Run the following commannds fw_setenv ipaddr 10.42.0.10 #IP of router, can be anything as long as it's in the same subnet as the server fw_setenv serverip 10.42.0.1# #IP of tftp server that's set up in next steps fw_setenv bootdelay 8 fw_setenv bootcmd "tftpboot initramfs.bin; bootm; bootipq" Don't reboot the router yet. Install and set up a tftp server on your computer Set a static ip on the ethernet interface of your computer (use this for serverip in the above commands) Rename the initramfs image to initramfs.bin, and host it with the tftp server Reboot the router. If you set up everything right, the router led should switch over to a slow blue glow which means openwrt is booted. If for some reason the file doesn't get loaded into ram properly, it should still boot to the OEM firmware. After openwrt boots, ssh into it and run these commands: fw_setenv bootcmd "setenv mtdids nand0=nand0 && setenv mtdparts mtdparts=nand0:0x1A000000@0x2400000(firmware) && ubi part firmware && ubi read 0x44000000 kernel 0x6e0000 && bootm" fw_setenv bootdelay 2 After openwrt boots up, figure out a way to get the sysupgrade file onto it (scp, custom build with usb kernel module included, wget, etc.) then flash it with sysupgrade. After it finishes flashing, it should reboot, the light should start flashing blue, then when the light starts "breathing" blue that means openwrt is booted. Method 2: Install with serial access (Do this if something fails and you can't boot after using method 1) You'll need: initramfs and sysupgrade images Serial access: https://openwrt.org/inbox/toh/askey/askey_rt4230w_rev6#opening_the_case Install and set up a tftp server Set a static ip on the ethernet interface of your computer Download the initramfs image, rename it to initramfs.bin, and host it with the tftp server Connect the wan port of the router to your computer Interrupt U-Boot and run these commands: setenv serverip 10.42.0.1 (You can use whatever ip you set for the computer) setenv ipaddr 10.42.0.10 (Can be any ip as long as it's in the same subnet) setenv bootcmd "setenv mtdids nand0=nand0 && set mtdparts mtdparts=nand0:0x1A000000@0x2400000(firmware) && ubi part firmware && ubi read 0x44000000 kernel 0x6e0000 && bootm" saveenv tftpboot initramfs.bin bootm After openwrt boots up, figure out a way to get the sysupgrade file onto it (scp, custom build with usb kernel module included, wget, etc.) then flash it with sysupgrade. After it finishes flashing, it should reboot, the light should start flashing blue, then when the light starts "breathing" blue that means openwrt is booted. Signed-off-by: Lauro Moreno <lmore377@gmail.com> [add entry in 5.10 patch, fix whitespace issues] Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
2020-10-28 20:59:47 +00:00
askey,rt4230w-rev6 |\
ipq806x: add support for Compex WPQ864 Hardware highlights: - SoC: Qualcomm Atheros IPQ8064/5 ARM Dual Core CPU - RAM: (512MB or 1GB) DDR3 System Memory - Storage: 32MB NOR (Cypress S25FL256S1) 256MB NAND (Micron MT29F2G08ABBEAH4) - Ethernet: 5 x 1G via QCA8337N - USB: 1 x USB 2.0/3.0 + 1 x USB 2.0 on mini PCIe3 socket - PCIe: 3x mini PCIe (third mini PCIE3 is PCIe/USB shared) - SIM Card Slot: 2 x Slot - Buttons: Reset Button - LEDs: 18x, 8x GPIO controllable - Buzzer The correct amount of RAM will be passed by the bootloader. In contrast to the documentation provided by Compex, the third PCIe doesn't use GPIO16 for PERST. Instead, GPIO3 is shared and used as PERST for PCIe0 and PCIe2. So far, no one was able to get USB 3.0 working with the 1GB RAM version, while it works fine for my 512MB version. Since USB 3.0 doesn't work with the Compex firmware for the 1G variant either, it could be a hardware issue with these boards. OpenWrt will be installed to the NAND flash. Make sure to have a full working image on the NOR flash. It will be the backup in case anything goes wrong. It has been observed that an image loaded via tftpboot might have bitflips. Hence the extra step to create a crc32 checksum to allow to compare the checksum with the one from the source file prior to flashing. In all cases it is necessary to set the following u-boot parameter to an empty (whitespace) value, to ensure that the chosen bootargs of the dts isn't overwritten or set to bogus - not working - values: (IPQ) # set bootargs " " (IPQ) # set fsbootargs " " (IPQ) # saveenv The sysupgrade image can be installed directly on flash using u-boot (put jumper in JP13 (leave JP9 open) to boot from nand): (IPQ) # set serverip 192.168.1.20 (IPQ) # set ipaddr 192.168.1.1 (IPQ) # tftpboot 0x42000000 openwrt-ipq806x-compex_wpq864-squashfs-nand-factory.bin (IPQ) # crc32 0x42000000 $filesize (IPQ) # nand erase 0x1340000 0x4000000 (IPQ) # nand write 0x42000000 0x1340000 $filesize The initramfs image can be started using: (IPQ) # set fdt_high 0x48000000 (IPQ) # tftpboot 0x44000000 openwrt-ipq806x-compex_wpq864-initramfs-fit-uImage.itb (IPQ) # bootm 0x44000000 Signed-off-by: Christian Mehlis <christian@m3hlis.de> Signed-off-by: Mathias Kresin <dev@kresin.me>
2016-10-30 08:51:54 +00:00
compex,wpq864|\
fortinet,fap-421e|\
ipq806x: add support for Linksys e8350-v1 AC2400 Dual-Band Gigabit Wi-Fi Router base on ipq8064. https://www.linksys.com/support-product?sku=E8350 Specification: - Qualcomm dual-core IPQ8064 @ 1.4 GHz - 512 MB of RAM - 4 MB of SPI NOR MX25U3235F - 128 MB of NAND S34MS01G2 - Qualcomm QCA9880 2.4GHz 802.11bgn - Quantenna QSR1000 5GHz 802.11ac (no support) - 4 x 10/100/1000 Mbit/s w/ vlan support Ethernet - Qualcomm Atheros QCA8337 switch - 1 x 3.0 + 1 x 2.0 (combo with eSata port) - 115200, 8N1 internal serial console - Power, Reset, WPS and WLAN buttons - Power, WPS and WLAN leds - 12 VDC, 3 A power Installation: The installation must be done using web interface of the router. To achive this new firmware-utils tool was added to set correct magic headers for the factory images. Installation from vendor firmware: 1. Flash over the native Linksys WEB interface using factory image. Installation using recovery mode: 1. Power off the device and disconnect the WAN port. (Only LAN port to be connected) 2. Press & hold the "Reset" button 3. Power on the device & wait 10 seconds with pressed "Reset" button 4. Set IP Internet Protocol on your PC from 192.168.1.0/24 network (Router is on IP 192.168.1.1) 5. Open the Firmware Recovery page in your browser: http://192.168.1.1/index.shtml Firmware Recovery -> File Name -> Recovery & Reboot The device page in inbox: https://openwrt.org/inbox/toh/linksys/linksys_ea8350_1 Signed-off-by: Sergey Filippov <sergey.filippov@outlook.com> Link: https://github.com/openwrt/openwrt/pull/15798 Signed-off-by: Christian Marangi <ansuelsmth@gmail.com>
2024-06-15 19:36:43 +00:00
linksys,e8350-v1|\
netgear,d7800 |\
netgear,r7500 |\
netgear,r7500v2 |\
netgear,r7800 |\
ipq806x: Add support for Netgear Nighthawk Pro Gaming XR450 Motivation: Firmware with platform ID "XR450" required for easy installation. Manufacturer pages: Product page: https://www.netgear.com/support/product/xr450 Product Data Sheet: https://www.netgear.com/images/datasheet/networking/wifirouter/XR450.pdf Current firmware: https://www.downloads.netgear.com/files/GDC/XR450/XR450-V2.3.2.134.zip Specifications: Almost identical to Netgear XR500(https://openwrt.org/toh/hwdata/netgear/netgear_xr500) Differences: Platform ID: XR450, utilized for firmware validation WLAN 2.4GHz: b/g/n Supports QAM64 (XR500 QAM256) SoC: Qualcomm Atheros IPQ8065 RAM: 512 MB Storage: 256 MiB Wireless: Qualcomm Atheros QCA9984 Switch: Qualcomm Atheros AR8337 rev. 2 Ethernet: 5x 1000/100/10 USB: 2x 3.0 Install via WEB GUI (recommended): 1. Navigate within GUI to firmware update section 2. Select openwrt-ipq806x-netgear_xr450-squashfs-factory.img 3. Dismiss downgrade warning Install via TFTP recovery (same as XR500/R7800): 1. Configure host PC to use static address 192.168.1.10 https://openwrt.org/toh/netgear/r7800#prerequisites_for_tftp_flashing 2. Flash openwrt-ipq806x-netgear_xr450-squashfs-factory.img using procedure https://openwrt.org/toh/netgear/r7800#tftp_flashing_process Revert to stock firmware 1. Download current manufacturer firmware, decompress zip file to obtain img file 2. Use TFTP recovery method flash img file (currently XR450-V2.3.2.134.img) ipq806x: add support to netgear_xr450 Signed-off-by: Andrzej Mialkowski <andrzej.mialkowski@gmail.com>
2023-05-19 11:09:54 +00:00
netgear,xr450 |\
ipq806x: add support for Netgear Nighthawk Pro Gaming XR500 This adds support for the Netgear Nighthawk Pro Gaming XR500. It is the successor to the Netgear Nighthawk R7800 and shares almost identical hardware to that device. The stock firmware is a heavily modified version of OpenWRT. Specifications: SoC: Qualcomm Atheros IPQ8065 RAM: 512 MB Storage: 256 MiB NAND Flash Wireless: 2x Qualcomm Atheros QCA9984 Ethernet: 2x 1000/100/10 dedicated interfaces Switch: 5x 1000/100/10 external ports USB: 2x 3.0 ports More information: Manufacturer page: https://www.netgear.com/gaming/xr500/ Almost identical to Netgear R7800 Differences (r7800 > xr500): Flash: 128MiB > 256MiB Removed esata swapped leds: usb1 (gpio 7 > 8) usb2 (gpio 8 > 26) guest/esata (gpio 26 > 7) MAC addresses: On the OEM firmware, the mac addresses are: WAN: *:50 art 0x6 LAN: *:4f art 0x0 (label) 2G: *:4f art 0x0 5G: *:51 art 0xc Installation: Install via Web Interface (preferred): Utilize openwrt-ipq806x-netgear_xr500-squashfs-factory.img Install via TFTP recovery: 1.Turn off the power, push and hold the reset button (in a hole on backside) with a pin 2.Turn on the power and wait till power led starts flashing white (after it first flashes orange for a while) 3.Release the reset button and tftp the factory img in binary mode. The power led will stop flashing if you succeeded in transferring the image, and the router reboots rather quickly with the new firmware. 4.Try to ping the router (ping 192.168.1.1). If does not respond, then tftp will not work either. Uploading the firmware image with a TFTP client $ tftp 192.168.1.1 bin put openwrt-ipq806x-netgear_xr500-squashfs-factory.img Note: The end of the last partition is at 0xee00000. This was chosen by the initial author, but nobody was able to tell why this particular arbitrary size was chosen. Since it's not leaving too much empty space and it's the only issue left, let's just keep it for now. Based on work by Adam Hnat <adamhnat@gmail.com> ref: https://github.com/openwrt/openwrt/pull/3215 Signed-off-by: Peter Geis <pgwipeout@gmail.com> [squash commits, move common LEDs to DTSI, remove SPDX on old files, minor whitespace cleanup, commit message facelift, add MAC address overview, add Notes, fix MAC addresses, use generic name for partition nodes in DTS] Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
2021-09-13 15:08:57 +00:00
netgear,xr500 |\
ipq806x: add support for Nokia Airscale AC400i Hardware -------- SoC: Qualcomm IPQ8065 RAM: 512 MB DDR3 Flash: 256 MB NAND (Macronix MX30UF2G18AC) (split into 2x128MB) 4 MB SPI-NOR (Macronix MX25U3235F) WLAN: Qualcomm Atheros QCA9984 - 2.4Ghz Qualcomm Atheros QCA9984 - 5Ghz ETH: eth0 - POE (100Mbps in U-Boot, 1000Mbps in OpenWrt) eth1 - (1000Mbps in both) Auto-negotiation broken on both. USB: USB 2.0 LED: 5G, 2.4G, ETH1, ETH2, CTRL, PWR (All support green and red) BTN: Reset Other: SD card slot (non-functional) Serial: 115200bps, near the Ethernet transformers, labeled 9X. Connections from the arrow to the 9X text: [NC] - [TXD] - [GND] - [RXD] - [NC] Installation ------------ 0. Connect to the device Plug your computer into LAN2 (1000Mbps connection required). If you use the LAN1/POE port, set your computer to force a 100Mbps link. Connect to the device via TTL (Serial) 115200n8. Locate the header (or solder pads) labeled 9X, near the Ethernet jacks/transformers. There should be an arrow on the other side of the header marking. The connections should go like this: (from the arrow to the 9X text): NC - TXD - GND - RXD - NC 1. Prepare for installation While the AP is powering up, interrupt the startup process. MAKE SURE TO CHECK YOUR CURRENT PARTITION! If you see: "Current Partition is : partB" or "Need to switch partition from partA to partB", you have to force the device into partA mode, before continuing. This can be done by changing the PKRstCnt to 5 and resetting the device. setenv PKRstCnt 5 saveenv reset After you interrupt the startup process again, you should see: Need to switch partition from partB to partA You can now continue to the next step. If you see: "Current Partition is : partA", you can continue to the next step. 2. Prevent partition switching. To prevent the device from switching partitions, we are going to modify the startup command. set bootcmd "setenv PKRstCnt 0; saveenv; bootipq" setenv 3. First boot Now, we have to boot the OpenWrt intifs. The easiest way to do this is by using Tiny PXE. You can also use the normal U-Boot tftp method. Run "bootp" this will get an IP from the DHCP server and possibly the firmware image. If it doesn't download the firmware image, run "tftpboot". Now run "bootm" to run the image. You might see: "ERROR: new format image overwritten - must RESET the board to recover" this means that the image you are trying to load is too big. Use a smaller image for the initial boot. 4. Install OpenWrt from initfs Once you are booted into OpenWrt, transfer the OpenWrt upgrade image and use sysupgrade to install OpenWrt to the device. Signed-off-by: Kristjan Krušič <kristjan.krusic@krusic22.com>
2023-02-04 16:00:57 +00:00
nokia,ac400i |\
qcom,ipq8064-ap148 |\
qcom,ipq8064-ap161)
nand_do_upgrade "$1"
;;
ipq806x: add support for Askey RT4230W REV6 This adds support for the Askey RT4230W REV6 (Branded by Spectrum/Charter as RAC2V1K) At this time, there's no way to reinstall the stock firmware so don't install this on a router that's being rented. Specifications: Qualcomm IPQ8065 1 GB of RAM (DDR3) 512 MB Flash (NAND) 2x Wave 2 WiFi cards (QCA9984) 5x 10/100/1000 Mbps Ethernet (Switch: QCA8337) 1x LED (Controlled by a microcontroller that switches it between red and blue with different patterns) 1x USB 3.0 Type-A 12V DC Power Input UART header on PCB - pinout from top to bottom is RX, TX, GND, 5V Port settings are 115200n8 More information: https://forum.openwrt.org/t/askey-rac2v1k-support/15830 https://deviwiki.com/wiki/Askey_RAC2V1K To check what revision your router is, restore one of these config backups through the stock firmware to get ssh access then run "cat /proc/device-tree/model". https://forum.openwrt.org/t/askey-rac2v1k-support/15830/17 The revision number on the board doesn't seem to be very consistent so that's why this is needed. You can also run printenv in the uboot console and if machid is set to 177d, that means your router is rev6. Note: Don't install this if the router is being rented from an ISP. The defined partition layout is different from the OEM one and even if you changed the layout to match, backing up and restoring the OEM firmware breaks /overlay so nothing will save and the router will likely enter a bootloop. How to install: Method 1: Install without opening the case using SSH and tftp You'll need: RAC2V1K-SSH.zip: https://github.com/lmore377/openwrt-rt4230w/blob/master/RAC2V1K-SSH.zip initramfs and sysupgrade images Connect to one of the router's LAN ports Download the RAC2V1K-SSH.zip file and restore the config file that corresponds to your router's firmware (If you're firmware is newer than what's in the zip file, just restore the 1.1.16 file) After a reboot, you should be able to ssh into the router with username: "4230w" and password: "linuxbox" or "admin". Run the following commannds fw_setenv ipaddr 10.42.0.10 #IP of router, can be anything as long as it's in the same subnet as the server fw_setenv serverip 10.42.0.1# #IP of tftp server that's set up in next steps fw_setenv bootdelay 8 fw_setenv bootcmd "tftpboot initramfs.bin; bootm; bootipq" Don't reboot the router yet. Install and set up a tftp server on your computer Set a static ip on the ethernet interface of your computer (use this for serverip in the above commands) Rename the initramfs image to initramfs.bin, and host it with the tftp server Reboot the router. If you set up everything right, the router led should switch over to a slow blue glow which means openwrt is booted. If for some reason the file doesn't get loaded into ram properly, it should still boot to the OEM firmware. After openwrt boots, ssh into it and run these commands: fw_setenv bootcmd "setenv mtdids nand0=nand0 && setenv mtdparts mtdparts=nand0:0x1A000000@0x2400000(firmware) && ubi part firmware && ubi read 0x44000000 kernel 0x6e0000 && bootm" fw_setenv bootdelay 2 After openwrt boots up, figure out a way to get the sysupgrade file onto it (scp, custom build with usb kernel module included, wget, etc.) then flash it with sysupgrade. After it finishes flashing, it should reboot, the light should start flashing blue, then when the light starts "breathing" blue that means openwrt is booted. Method 2: Install with serial access (Do this if something fails and you can't boot after using method 1) You'll need: initramfs and sysupgrade images Serial access: https://openwrt.org/inbox/toh/askey/askey_rt4230w_rev6#opening_the_case Install and set up a tftp server Set a static ip on the ethernet interface of your computer Download the initramfs image, rename it to initramfs.bin, and host it with the tftp server Connect the wan port of the router to your computer Interrupt U-Boot and run these commands: setenv serverip 10.42.0.1 (You can use whatever ip you set for the computer) setenv ipaddr 10.42.0.10 (Can be any ip as long as it's in the same subnet) setenv bootcmd "setenv mtdids nand0=nand0 && set mtdparts mtdparts=nand0:0x1A000000@0x2400000(firmware) && ubi part firmware && ubi read 0x44000000 kernel 0x6e0000 && bootm" saveenv tftpboot initramfs.bin bootm After openwrt boots up, figure out a way to get the sysupgrade file onto it (scp, custom build with usb kernel module included, wget, etc.) then flash it with sysupgrade. After it finishes flashing, it should reboot, the light should start flashing blue, then when the light starts "breathing" blue that means openwrt is booted. Signed-off-by: Lauro Moreno <lmore377@gmail.com> [add entry in 5.10 patch, fix whitespace issues] Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
2020-10-28 20:59:47 +00:00
asrock,g10)
asrock_upgrade_prepare
nand_do_upgrade "$1"
;;
buffalo,wxr-2533dhp)
buffalo_upgrade_prepare_ubi
CI_ROOTPART="ubi_rootfs"
nand_do_upgrade "$1"
;;
ipq806x: add Edgecore ECW5410 support This patch adds support for the Edgecore ECW5410 indoor AP. Specification: - SoC: Qualcomm Atheros IPQ8068 ARMv7 2x Cortex A-15 - RAM: 256MB(225 usable) DDR3 - NOR Flash: 16MB SPI NOR - NAND Flash: 128MB S34MS01G2 Parallel NAND - Ethernet: 2 x 1G via 2x AR8033 PHY-s connected directly to GMAC2 and GMAC3 via SGMII (802.3af POE IN on eth0) - USB: 1 x USB 3.0 SuperSpeed - WLAN: 2x QCA9994 AC Wawe 2 (1x 2GHz bgn, 1x 5GHz acn) - CC2540 BLE - UART console on RJ45 next to ethernet ports exposed. Its Cisco pin compatible, 115200 8n1 baud. Installation instructions: Through stock firmware or initramfs. 1.Connect to console 2. Login with root account, if password is unknown then interrupt the boot with f and reset it in failsafe. 3. Transfer factory image 4. Flash the image with ubiformat /dev/mtd1 -y -f <your factory image path> This will replace the rootfs2 with OpenWrt, if you are currently running from rootfs2 then simply change /dev/mtd1 to /dev/mtd0 Note Initramfs: 1. Connect to console 2. Transfer the image from TFTP server with tftpboot, or by using DHCP advertised image with dhcp command. 3. bootm 4. Run ubiformat /dev/mtd1 You need to interrupt the bootloader after rebooting and run: run altbootcmd This will switch your active rootfs partition to one you wrote to and boot from it. So if rootfs1 is active, then it will change it to rootfs2. This will format the rootfs2 partition, if your active partition is 2 then simply change /dev/mtd1 with /dev/mtd0 If you dont format the partition you will be writing too, then sysupgrade will find existing UBI rootfs and kernel volumes and update those. This will result in wrong ordering and OpenWrt will panic on boot. 5. Transfer sysupgrade image 6. Flash with sysupgrade -n. Note that sysupgrade will write the image to rootfs partition that is not currently in use. Signed-off-by: Robert Marko <robert.marko@sartura.hr>
2020-09-07 10:43:37 +00:00
edgecore,ecw5410)
part="$(awk -F 'ubi.mtd=' '{printf $2}' /proc/cmdline | sed -e 's/ .*$//')"
if [ "$part" = "rootfs1" ]; then
fw_setenv active 2 || exit 1
CI_UBIPART="rootfs2"
else
fw_setenv active 1 || exit 1
CI_UBIPART="rootfs1"
fi
nand_do_upgrade "$1"
;;
ipq806x: add support for Extreme Networks AP3935 Extreme Networks AP3935i/e - https://www.extremenetworks.com/support/documentation/access-points-ap3935i-e/ SoC: IPQ8068 QYY AT46279K45060I RAM: NANYA 1527 NT5CC256M16DP-DI 515073W0EF 7 TW FLASH: NOR - S25FL256S1 - 32MB NAND - Macronix MX30UF4G28AB - 512MB LAN: Atheros AR8035-A J5150WL 1515 CN - RGMII LAN2: Atheros AR8033-AL1A SKCSR.AJ1 1444 China - SGMII WLAN2: QCA9990 OVV FNPV209 K451406 WLAN5: QCA9990 OVV FNPV209 K451406 SERIAL: RS232 Port (115200 8n1) Cisco console cable and 4pin Serial Header | 3.3 | GND | RX | TX MAC address for LAN1/LAN2/WLAN 2G/WLAN 5G in uboot env * Installation via either RJ45 console or on-board 4 PIN header Install Method -------------- 1) Setup TFTP server, and place openwrt-ipq806x-generic-extreme_ap3935-initramfs-uImage image in /srv/tftp or similar 2) Connect to console on router and connect ethernet port "LAN1" to your LAN 3) Interupt the boot with any character 4) Login with admin/new2day for default password (use reset/FactoryDefault if password needs to be reset) 5) Set serverip to TFTP IP: set serverip 192.168.1.2 6) Set ipaddr to another IP: set ipaddr 192.168.1.101 7) Make uboot ping something to activate eth0 on boot: set bootcmd 'ping 192.168.1.1; run boot_flash' saveenv 8) TFTP image to RAM: tftpboot 0x42000000 openwrt-ipq806x-generic-extreme_ap3935i-initramfs-uImage 9) Boot image: bootm 0x42000000 In OpenWRT, "LAN1" is LAN, "LAN2" is WAN 10) SFTP openwrt-ipq806x-generic-extreme_ap3935-squashfs-nand-sysupgrade.bin image to /tmp 11) sysupgrade /tmp/openwrt-*-nand-sysupgrade.bin Signed-off-by: Glen Lee <g2lee@yahoo.com>
2023-06-29 19:58:05 +00:00
extreme,ap3935)
CI_ROOTPART="nand_flash"
CI_KERNPART="PriImg"
nand_do_upgrade "$1"
;;
ipq806x: add support for Linksys EA7500 V1 This patch adds support for the Linksys EA7500 V1 router. Specification: - CPU: Qualcomm IPQ8064 - RAM: 256MB - Flash: NAND 128MB - WiFi: QCA9982 an+ac + QCA9983 bgn - Ethernet: 5 GBE Ports (WAN+ 4xLAN) (QCA8337) - USB: 1x USB 3.0 1x USB2.0 - Serial console: RJ-45 115200 8n1 (1V8 Voltage level) - 2 Buttons - 1 LED Known issues: - Some devices won't flash via web gui Installation: - Newer stock images doesn't allow to install custom firmware. - Please downgrade software to 1.1.2 version. Official firmware: https://downloads.linksys.com/downloads/firmware/FW_EA7500_1.1.2.172843_prod.gpg.img - Do it two times to downgrade all stored images. - Apply factory image via web-gui. Serial + TFTP method: - downgrade to 1.1.2 two times - connect ehternet and serial cable - set ip address of tftp server to 192.168.1.254 - put openwrt factory image to tftp folder and rename it to macan.bin - stop device while booting in u-boot - run command: "run flashimg" - run command: "setenv boot_part 1" - run command "saveenv" - reset Back to stock: - Please use old non-gpg image like this 1.1.2: https://downloads.linksys.com/downloads/firmware/FW_EA7500_1.1.2.172843_prod.img - ssh to router and copy image to tmp - use sysupgrade -n -F Tested by github users: @jack338c and @grzesiczek1 Signed-off-by: Pawel Dembicki <paweldembicki@gmail.com> [removed i2c4_pins, mdio0_pins, nand_pins, rgmii2_pins from DTSI] Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
2020-05-26 19:14:11 +00:00
linksys,ea7500-v1 |\
ipq806x: add support for Compex WPQ864 Hardware highlights: - SoC: Qualcomm Atheros IPQ8064/5 ARM Dual Core CPU - RAM: (512MB or 1GB) DDR3 System Memory - Storage: 32MB NOR (Cypress S25FL256S1) 256MB NAND (Micron MT29F2G08ABBEAH4) - Ethernet: 5 x 1G via QCA8337N - USB: 1 x USB 2.0/3.0 + 1 x USB 2.0 on mini PCIe3 socket - PCIe: 3x mini PCIe (third mini PCIE3 is PCIe/USB shared) - SIM Card Slot: 2 x Slot - Buttons: Reset Button - LEDs: 18x, 8x GPIO controllable - Buzzer The correct amount of RAM will be passed by the bootloader. In contrast to the documentation provided by Compex, the third PCIe doesn't use GPIO16 for PERST. Instead, GPIO3 is shared and used as PERST for PCIe0 and PCIe2. So far, no one was able to get USB 3.0 working with the 1GB RAM version, while it works fine for my 512MB version. Since USB 3.0 doesn't work with the Compex firmware for the 1G variant either, it could be a hardware issue with these boards. OpenWrt will be installed to the NAND flash. Make sure to have a full working image on the NOR flash. It will be the backup in case anything goes wrong. It has been observed that an image loaded via tftpboot might have bitflips. Hence the extra step to create a crc32 checksum to allow to compare the checksum with the one from the source file prior to flashing. In all cases it is necessary to set the following u-boot parameter to an empty (whitespace) value, to ensure that the chosen bootargs of the dts isn't overwritten or set to bogus - not working - values: (IPQ) # set bootargs " " (IPQ) # set fsbootargs " " (IPQ) # saveenv The sysupgrade image can be installed directly on flash using u-boot (put jumper in JP13 (leave JP9 open) to boot from nand): (IPQ) # set serverip 192.168.1.20 (IPQ) # set ipaddr 192.168.1.1 (IPQ) # tftpboot 0x42000000 openwrt-ipq806x-compex_wpq864-squashfs-nand-factory.bin (IPQ) # crc32 0x42000000 $filesize (IPQ) # nand erase 0x1340000 0x4000000 (IPQ) # nand write 0x42000000 0x1340000 $filesize The initramfs image can be started using: (IPQ) # set fdt_high 0x48000000 (IPQ) # tftpboot 0x44000000 openwrt-ipq806x-compex_wpq864-initramfs-fit-uImage.itb (IPQ) # bootm 0x44000000 Signed-off-by: Christian Mehlis <christian@m3hlis.de> Signed-off-by: Mathias Kresin <dev@kresin.me>
2016-10-30 08:51:54 +00:00
linksys,ea8500)
platform_do_upgrade_linksys "$1"
ipq806x: add support for Compex WPQ864 Hardware highlights: - SoC: Qualcomm Atheros IPQ8064/5 ARM Dual Core CPU - RAM: (512MB or 1GB) DDR3 System Memory - Storage: 32MB NOR (Cypress S25FL256S1) 256MB NAND (Micron MT29F2G08ABBEAH4) - Ethernet: 5 x 1G via QCA8337N - USB: 1 x USB 2.0/3.0 + 1 x USB 2.0 on mini PCIe3 socket - PCIe: 3x mini PCIe (third mini PCIE3 is PCIe/USB shared) - SIM Card Slot: 2 x Slot - Buttons: Reset Button - LEDs: 18x, 8x GPIO controllable - Buzzer The correct amount of RAM will be passed by the bootloader. In contrast to the documentation provided by Compex, the third PCIe doesn't use GPIO16 for PERST. Instead, GPIO3 is shared and used as PERST for PCIe0 and PCIe2. So far, no one was able to get USB 3.0 working with the 1GB RAM version, while it works fine for my 512MB version. Since USB 3.0 doesn't work with the Compex firmware for the 1G variant either, it could be a hardware issue with these boards. OpenWrt will be installed to the NAND flash. Make sure to have a full working image on the NOR flash. It will be the backup in case anything goes wrong. It has been observed that an image loaded via tftpboot might have bitflips. Hence the extra step to create a crc32 checksum to allow to compare the checksum with the one from the source file prior to flashing. In all cases it is necessary to set the following u-boot parameter to an empty (whitespace) value, to ensure that the chosen bootargs of the dts isn't overwritten or set to bogus - not working - values: (IPQ) # set bootargs " " (IPQ) # set fsbootargs " " (IPQ) # saveenv The sysupgrade image can be installed directly on flash using u-boot (put jumper in JP13 (leave JP9 open) to boot from nand): (IPQ) # set serverip 192.168.1.20 (IPQ) # set ipaddr 192.168.1.1 (IPQ) # tftpboot 0x42000000 openwrt-ipq806x-compex_wpq864-squashfs-nand-factory.bin (IPQ) # crc32 0x42000000 $filesize (IPQ) # nand erase 0x1340000 0x4000000 (IPQ) # nand write 0x42000000 0x1340000 $filesize The initramfs image can be started using: (IPQ) # set fdt_high 0x48000000 (IPQ) # tftpboot 0x44000000 openwrt-ipq806x-compex_wpq864-initramfs-fit-uImage.itb (IPQ) # bootm 0x44000000 Signed-off-by: Christian Mehlis <christian@m3hlis.de> Signed-off-by: Mathias Kresin <dev@kresin.me>
2016-10-30 08:51:54 +00:00
;;
ipq806x: add support for Cisco Meraki MR42/MR52 The MR42 and MR52 are two similar IPQ806x based devices from the Cisco Meraki "Cryptid" series. MR42 main features: - IPQ8068 1.4GHz - 512MB RAM - 128MB NAND - 2x QCA9992 (2.4 & 5GHz) - 1x QCA9889 (2.4 & 5GHz) - 1x AR8033 PHY - PoE/AC power MR52 main features: - IPQ8068 1.4GHz - 512MB RAM - 128MB NAND - 2x QCA9994 (2.4 & 5GHz) - 1x QCA9889 (2.4 & 5GHz) - 2x AR8033 PHYs - PoE/AC power (MR42 Only) Installation via diagnostic mode: If you can successfully complete step 1 then you can continue to install via this method without having to open the device. Otherwise please use the standard UART method. Please note that when booting via TFTP, some Ethernet devices, in particular those on laptops, will not connect in time, resulting in TFTP boot not succeeding. In this instance it is advised to connect via a switch. 1. Hold down reset at power on and keep holding, after around 10 seconds if the orange LED changes behaviour to begin flashing, proceed to release reset, then press reset two times. Ensure that the LED has turned blue. Note that flashing will occur on some devices, but it will not be possible to change the LED colour using the reset button. In this case it will still be possible to continue with this install method. 2. Set your IP to 192.168.1.250. Set up a TFTP server serving mr42_u-boot.mbn and openwrt-ipq806x-generic-meraki_mr42-initramfs-fit-uImage.itb, obtained from [1]. 3. Use telnet and connect to 192.168.1.1. Run the following commands to install u-boot. Note that all these commands are critical, an error will likely render the device unusable. Option 3.1: If you are sure you have set up the TFTP server correctly you can run this script on the device. This will download and flash the u-boot image immediately: `/etc/update_uboot.sh 192.168.1.250 mr42_u-boot.mbn` Once completed successfully, power off the device. Option 3.2: If you are unsure the TFTP server is correctly set up you can obtain the image and flash manually: 3.2.1. `cd /tmp` 3.2.2. `tftp-hpa 192.168.1.250 -m binary -c get mr42_u-boot.mbn` 3.2.3. Confirm file has downloaded correctly by comparing the md5sum: `md5sum mr42_u-boot.mbn` 3.2.4. The following are the required commands to write the image. `echo 1 > /sys/devices/platform/msm_nand/boot_layout mtd erase /dev/mtd1 nandwrite -pam /dev/mtd1 mr42_u-boot.mbn echo 0 > /sys/devices/platform/msm_nand/boot_layout` Important: You must observe the output of the `nandwrite` command. Look for the following to verify writing is occurring: `Writing data to block 0 at offset 0x0 Writing data to block 1 at offset 0x20000 Writing data to block 2 at offset 0x40000` If you do not see this then do not power off the device. Check your previous commands and that mr42_u-boot.mbn was downloaded correctly. Once you are sure the image has been written you can proceed to power off the device. 4. Hold the reset button and power on the device. This will immediately begin downloading the appropriate initramfs image and boot into it. Note: If the device does not download the initramfs, this is likely due to the interface not being brought up in time. Changing Ethernet source to a router or switch will likely resolve this. You can also try manually setting the link speed to 10Mb/s Half-Duplex. 5. Once a solid white LED is displayed on the device, continue to the UART installation method, step 6. Standard installation via UART - MR42 & MR52 1. Disassemble the device and connect a UART header. The header pinout is as follows: 1 - 3.3v 2 - TXD 3 - RXD 4 - GND Important: You should only connect TXD, RXD and GND. Connecting 3.3v may damage the device. 2. Set your IP to 192.168.1.250. Set up a TFTP server serving openwrt-ipq806x-generic-meraki_(mr42|mr52)-initramfs-fit-uImage.itb. Separately obtain the respective sysupgrade image. 3. Run the following commands, preferably from a Linux host. The mentioned files, including ubootwrite.py and u-boot images, can be obtained from [1]. `python ubootwrite.py --write=(mr42|mr52)_u-boot.bin` The default for "--serial" option is /dev/ttyUSB0. 4. Power on the device. The ubootwrite script will upload the image to the device and launch it. The second stage u-boot will in turn load the initramfs image by TFTP, provided the TFTP server is running correctly. This process will take about 13 minutes. Once a solid white LED is displayed, the image has successfully finished loading. Note: If the image does not load via TFTP, try again with the Ethernet link to 10Mb/s Half-Duplex. 5. (MR42 only) Do not connect over the network. Instead connect over the UART using minicom or similar tool. To replace u-boot with the network enabled version, please run the following commands. Note that in the provided initramfs images, the u-boot.mbn file is located in /root: If you have not used the provided initramfs, you must ensure you are using an image with "boot_layout" ECC configuration enabled in the Kernel. This will be version 5.10 or higher. If you do not do this correctly the device will be bricked. `insmod mtd-rw i_want_a_brick=1 mtd erase /dev/mtd8 nandwrite -pam /dev/mtd8 /root/mr42_u-boot.mbn` After running nandwrite, ensure you observe the following output: `Writing data to block 0 at offset 0x0 Writing data to block 1 at offset 0x20000 Writing data to block 2 at offset 0x40000` 6. (Optional) If you have no further use for the Meraki OS, you can remove all other UBI volumes on ubi0 (mtd11), including diagnostic1, part.old, storage and part.safe. You must not remove the ubi1 ART partition (mtd12). `for i in diagnostic1 part.old storage part.safe ; do ubirmvol /dev/ubi0 -N $i done` 7. Proceed to flash the sysupgrade image via luci, or else download or scp the image to /tmp and use the sysupgrade command. [1] The mentioned images and ubootwrite.py script can be found in this repo: https://github.com/clayface/openwrt-cryptid [2] The modified u-boot sources for the MR42 and MR52 are available: https://github.com/clayface/U-boot-MR52-20200629 Signed-off-by: Matthew Hagan <mnhagan88@gmail.com>
2021-05-09 22:28:04 +00:00
meraki,mr42 |\
meraki,mr52)
CI_KERNPART="bootkernel2"
nand_do_upgrade "$1"
;;
tplink,ad7200 |\
tplink,c2600)
PART_NAME="os-image:rootfs"
MTD_CONFIG_ARGS="-s 0x200000"
default_do_upgrade "$1"
;;
ipq806x: Initial TP-Link and ASUS OnHub support TP-Link and ASUS OnHub devices are very similar, sharing many of the same characteristics and much of their Device Tree. They both run a version of ChromeOS for their factory firmware, and so installation instructions look very similar to Google Wifi [1]. Things I've tested, and are working: * Ethernet * WiFi (2.4 and 5 GHz) * LEDs * USB * eMMC * Serial console (if you wire it up yourself) * 2x CPU * Speaker == Installation instructions summary == 1. Flash *-factory.bin to a USB drive (e.g., with `dd`) 2. Insert USB drive, to boot OpenWrt from USB 3. Copy the same *-factory.bin over to device, and flash it to eMMC to make OpenWrt permanent == Developer mode, booting from USB (Step 2) == To enter Developer Mode and boot OpenWrt from a USB stick: 1. Unplug power 2. Gain access to the "developer switch" through the bottom of the device 3. Hold down the "reset switch" (near the USB port / power plug) 4. Plug power back in 5. The LED on the device should turn white, then blink orange, then red. Release the reset switch. 6. Insert USB drive with OpenWrt factory.bin 7. Press the hidden developer switch under the device to boot to USB; you should see some activity lights (if you have any) on your USB drive 8. Depending on your configuration, the router's LED(s) should come on. You're now running OpenWrt off a USB stick. These instructions are derived from: https://www.exploitee.rs/index.php/Rooting_The_Google_OnHub#Enabling_%22Developer_Mode%22_on_the_OnHub https://www.exploitee.rs/index.php/Asus_OnHub#Enabling_%22Developer_Mode%22_on_the_OnHub ~~Finding the developer switch:~~ for TP-Link, the developer switch is on the bottom of the device, underneath some of the rubber padding and a screw. For ASUS, remove the entire base, via 4 screws under the rubber feet. See the Exploitee instructions for more info and photos. == Making OpenWrt permanent (on eMMC) (Step 3) == Once you're running OpenWrt via USB: 1. Connect Ethernet to the LAN port; router's LAN address should be at 192.168.1.1 2. Connect another system to the router's LAN, and copy the factory.bin image over, via SCP and SSH: scp -O openwrt-ipq806x-chromium-tplink_onhub-squashfs-factory.bin root@192.168.1.1: ssh root@192.168.1.1 -C "dd if=/dev/zero bs=512 seek=7552991 of=/dev/mmcblk0 count=33 && \ dd if=/root/openwrt-ipq806x-chromium-tplink_onhub-squashfs-factory.bin of=/dev/mmcblk0" 3. Reboot and remove the USB drive. == Developer mode beep == Note that every time you boot the OnHub in developer mode, the device will play a loud "beep" after a few seconds. This is described in the Chromium docs [2], and is intended to make it clear that the device is not running Google software. It is nontrivial to completely disable this beep, although it's possible to "acknowledge" developer mode (and skip the beep) by using a USB keyboard to press CTRL+D every time you boot. [1] https://openwrt.org/toh/google/wifi [2] https://chromium.googlesource.com/chromiumos/docs/+/HEAD/developer_mode.md Signed-off-by: Brian Norris <computersforpeace@gmail.com>
2023-01-13 05:32:22 +00:00
asus,onhub |\
tplink,onhub)
export_bootdevice
export_partdevice CI_ROOTDEV 0
CI_KERNPART="kernel"
CI_ROOTPART="rootfs"
CI_DATAPART="rootfs_data"
emmc_do_upgrade "$1"
;;
tplink,vr2600v)
MTD_CONFIG_ARGS="-s 0x200000"
default_do_upgrade "$1"
;;
zyxel,nbg6817)
zyxel_do_upgrade "$1"
;;
ipq806x: add ipq4019 fritz4040 support This patch adds support for AVM FRITZ!Box 4040. hardware highlights: SOC: IPQ4018 / QCA Dakota CPU: Quad-Core ARMv7 Processor rev 5 (v7l) Cortex-A7 DRAM: 256 MiB Nanya NT5CC128M16IP FLASH: 32 MiB MXIC MX25L25635FMI ETH: Qualcomm Atheros QCA8075 Gigabit Switch (4 x LAN, 1 x WAN) USB: 1 x 3.0 (via Synopsys DesignWare DWC3 controller in the SoC) 1 x 2.0 (via Synopsys DesignWare DWC3 controller in the SoC) WLAN1: Qualcomm Atheros QCA4018 2.4GHz 802.11bgn 2:2x2 WLAN2: Qualcomm Atheros QCA4018 5GHz 802.11a/n/ac 2:2x2 INPUT: one WLAN and one WPS button LEDS: Power, WAN/Internet, WIFI, INFO (red and amber) and LAN. Serial: WARNING: The serial port needs a TTL/RS-232 v3.3 level converter! The Serial setting is 115200-8-N-1. The SoC's serial port is right next to the MXIC FLASH chip. The board has a unpopulated 1x4 0.1" header for it. Use a multimeter to figure out the pinout! This board currently needs an additional u-boot image in order to boot properly. Booting with EVA isn't possible ATM. Install Procedure: 0. It's highly recommended to connect to the serial port. The serial settings are listed above. 1. install a u-boot image for AVM Fritz!Box 4040 (see <https://github.com/chunkeey/FritzBox-4040-UBOOT/releases> and <https://github.com/chunkeey/FritzBox-4040-UBOOT/blob/master/upload-to-f4040.sh>) 2. upload the initramfs.itb image via tftp (u-boot listens to 192.168.1.1 - use binary transfer mode!) 3. connect to the FB4040 and use sysupgrade sysupgrade.bin to install the image. Works: - Switch and Ethernet (99%) - Buttons (WLAN, WPS) - FLASH (1 x 32MiB NOR Chip) - WLAN2G and WLAN5G - CPUFREQ scaling - PRNG - serial - Crypto Accelerator - sysupgrade (Read the flash instructions to avoid bricking) - full LEDE Install (Read the flash instructions to avoid bricking) - LEDs (Power, WAN, Info (red and amber), LAN) The LEDs are connected to the QCA8075 LED ports. The AR40xx driver contains a gpio-controller to handle these special "GPIOs". - USB Both 3.0 and 2.0 ports - many packages from other ARMv7 boards (This does include the RaspberryPi Model 2!) - ... Not planned: - WAN<->LAN short-cut - Qualcomm Secure Execution Environment - ... Signed-off-by: Christian Lamparter <chunkeey@googlemail.com> Signed-off-by: John Crispin <john@phrozen.org>
2017-03-14 16:04:28 +00:00
*)
default_do_upgrade "$1"
ipq806x: add ipq4019 fritz4040 support This patch adds support for AVM FRITZ!Box 4040. hardware highlights: SOC: IPQ4018 / QCA Dakota CPU: Quad-Core ARMv7 Processor rev 5 (v7l) Cortex-A7 DRAM: 256 MiB Nanya NT5CC128M16IP FLASH: 32 MiB MXIC MX25L25635FMI ETH: Qualcomm Atheros QCA8075 Gigabit Switch (4 x LAN, 1 x WAN) USB: 1 x 3.0 (via Synopsys DesignWare DWC3 controller in the SoC) 1 x 2.0 (via Synopsys DesignWare DWC3 controller in the SoC) WLAN1: Qualcomm Atheros QCA4018 2.4GHz 802.11bgn 2:2x2 WLAN2: Qualcomm Atheros QCA4018 5GHz 802.11a/n/ac 2:2x2 INPUT: one WLAN and one WPS button LEDS: Power, WAN/Internet, WIFI, INFO (red and amber) and LAN. Serial: WARNING: The serial port needs a TTL/RS-232 v3.3 level converter! The Serial setting is 115200-8-N-1. The SoC's serial port is right next to the MXIC FLASH chip. The board has a unpopulated 1x4 0.1" header for it. Use a multimeter to figure out the pinout! This board currently needs an additional u-boot image in order to boot properly. Booting with EVA isn't possible ATM. Install Procedure: 0. It's highly recommended to connect to the serial port. The serial settings are listed above. 1. install a u-boot image for AVM Fritz!Box 4040 (see <https://github.com/chunkeey/FritzBox-4040-UBOOT/releases> and <https://github.com/chunkeey/FritzBox-4040-UBOOT/blob/master/upload-to-f4040.sh>) 2. upload the initramfs.itb image via tftp (u-boot listens to 192.168.1.1 - use binary transfer mode!) 3. connect to the FB4040 and use sysupgrade sysupgrade.bin to install the image. Works: - Switch and Ethernet (99%) - Buttons (WLAN, WPS) - FLASH (1 x 32MiB NOR Chip) - WLAN2G and WLAN5G - CPUFREQ scaling - PRNG - serial - Crypto Accelerator - sysupgrade (Read the flash instructions to avoid bricking) - full LEDE Install (Read the flash instructions to avoid bricking) - LEDs (Power, WAN, Info (red and amber), LAN) The LEDs are connected to the QCA8075 LED ports. The AR40xx driver contains a gpio-controller to handle these special "GPIOs". - USB Both 3.0 and 2.0 ports - many packages from other ARMv7 boards (This does include the RaspberryPi Model 2!) - ... Not planned: - WAN<->LAN short-cut - Qualcomm Secure Execution Environment - ... Signed-off-by: Christian Lamparter <chunkeey@googlemail.com> Signed-off-by: John Crispin <john@phrozen.org>
2017-03-14 16:04:28 +00:00
;;
esac
}
ipq806x: Initial TP-Link and ASUS OnHub support TP-Link and ASUS OnHub devices are very similar, sharing many of the same characteristics and much of their Device Tree. They both run a version of ChromeOS for their factory firmware, and so installation instructions look very similar to Google Wifi [1]. Things I've tested, and are working: * Ethernet * WiFi (2.4 and 5 GHz) * LEDs * USB * eMMC * Serial console (if you wire it up yourself) * 2x CPU * Speaker == Installation instructions summary == 1. Flash *-factory.bin to a USB drive (e.g., with `dd`) 2. Insert USB drive, to boot OpenWrt from USB 3. Copy the same *-factory.bin over to device, and flash it to eMMC to make OpenWrt permanent == Developer mode, booting from USB (Step 2) == To enter Developer Mode and boot OpenWrt from a USB stick: 1. Unplug power 2. Gain access to the "developer switch" through the bottom of the device 3. Hold down the "reset switch" (near the USB port / power plug) 4. Plug power back in 5. The LED on the device should turn white, then blink orange, then red. Release the reset switch. 6. Insert USB drive with OpenWrt factory.bin 7. Press the hidden developer switch under the device to boot to USB; you should see some activity lights (if you have any) on your USB drive 8. Depending on your configuration, the router's LED(s) should come on. You're now running OpenWrt off a USB stick. These instructions are derived from: https://www.exploitee.rs/index.php/Rooting_The_Google_OnHub#Enabling_%22Developer_Mode%22_on_the_OnHub https://www.exploitee.rs/index.php/Asus_OnHub#Enabling_%22Developer_Mode%22_on_the_OnHub ~~Finding the developer switch:~~ for TP-Link, the developer switch is on the bottom of the device, underneath some of the rubber padding and a screw. For ASUS, remove the entire base, via 4 screws under the rubber feet. See the Exploitee instructions for more info and photos. == Making OpenWrt permanent (on eMMC) (Step 3) == Once you're running OpenWrt via USB: 1. Connect Ethernet to the LAN port; router's LAN address should be at 192.168.1.1 2. Connect another system to the router's LAN, and copy the factory.bin image over, via SCP and SSH: scp -O openwrt-ipq806x-chromium-tplink_onhub-squashfs-factory.bin root@192.168.1.1: ssh root@192.168.1.1 -C "dd if=/dev/zero bs=512 seek=7552991 of=/dev/mmcblk0 count=33 && \ dd if=/root/openwrt-ipq806x-chromium-tplink_onhub-squashfs-factory.bin of=/dev/mmcblk0" 3. Reboot and remove the USB drive. == Developer mode beep == Note that every time you boot the OnHub in developer mode, the device will play a loud "beep" after a few seconds. This is described in the Chromium docs [2], and is intended to make it clear that the device is not running Google software. It is nontrivial to completely disable this beep, although it's possible to "acknowledge" developer mode (and skip the beep) by using a USB keyboard to press CTRL+D every time you boot. [1] https://openwrt.org/toh/google/wifi [2] https://chromium.googlesource.com/chromiumos/docs/+/HEAD/developer_mode.md Signed-off-by: Brian Norris <computersforpeace@gmail.com>
2023-01-13 05:32:22 +00:00
platform_copy_config() {
case "$(board_name)" in
ipq806x: Initial TP-Link and ASUS OnHub support TP-Link and ASUS OnHub devices are very similar, sharing many of the same characteristics and much of their Device Tree. They both run a version of ChromeOS for their factory firmware, and so installation instructions look very similar to Google Wifi [1]. Things I've tested, and are working: * Ethernet * WiFi (2.4 and 5 GHz) * LEDs * USB * eMMC * Serial console (if you wire it up yourself) * 2x CPU * Speaker == Installation instructions summary == 1. Flash *-factory.bin to a USB drive (e.g., with `dd`) 2. Insert USB drive, to boot OpenWrt from USB 3. Copy the same *-factory.bin over to device, and flash it to eMMC to make OpenWrt permanent == Developer mode, booting from USB (Step 2) == To enter Developer Mode and boot OpenWrt from a USB stick: 1. Unplug power 2. Gain access to the "developer switch" through the bottom of the device 3. Hold down the "reset switch" (near the USB port / power plug) 4. Plug power back in 5. The LED on the device should turn white, then blink orange, then red. Release the reset switch. 6. Insert USB drive with OpenWrt factory.bin 7. Press the hidden developer switch under the device to boot to USB; you should see some activity lights (if you have any) on your USB drive 8. Depending on your configuration, the router's LED(s) should come on. You're now running OpenWrt off a USB stick. These instructions are derived from: https://www.exploitee.rs/index.php/Rooting_The_Google_OnHub#Enabling_%22Developer_Mode%22_on_the_OnHub https://www.exploitee.rs/index.php/Asus_OnHub#Enabling_%22Developer_Mode%22_on_the_OnHub ~~Finding the developer switch:~~ for TP-Link, the developer switch is on the bottom of the device, underneath some of the rubber padding and a screw. For ASUS, remove the entire base, via 4 screws under the rubber feet. See the Exploitee instructions for more info and photos. == Making OpenWrt permanent (on eMMC) (Step 3) == Once you're running OpenWrt via USB: 1. Connect Ethernet to the LAN port; router's LAN address should be at 192.168.1.1 2. Connect another system to the router's LAN, and copy the factory.bin image over, via SCP and SSH: scp -O openwrt-ipq806x-chromium-tplink_onhub-squashfs-factory.bin root@192.168.1.1: ssh root@192.168.1.1 -C "dd if=/dev/zero bs=512 seek=7552991 of=/dev/mmcblk0 count=33 && \ dd if=/root/openwrt-ipq806x-chromium-tplink_onhub-squashfs-factory.bin of=/dev/mmcblk0" 3. Reboot and remove the USB drive. == Developer mode beep == Note that every time you boot the OnHub in developer mode, the device will play a loud "beep" after a few seconds. This is described in the Chromium docs [2], and is intended to make it clear that the device is not running Google software. It is nontrivial to completely disable this beep, although it's possible to "acknowledge" developer mode (and skip the beep) by using a USB keyboard to press CTRL+D every time you boot. [1] https://openwrt.org/toh/google/wifi [2] https://chromium.googlesource.com/chromiumos/docs/+/HEAD/developer_mode.md Signed-off-by: Brian Norris <computersforpeace@gmail.com>
2023-01-13 05:32:22 +00:00
asus,onhub |\
tplink,onhub)
emmc_copy_config
;;
esac
return 0
}