FCC ID: A8J-EWS660AP
Engenius ENS1750 is an outdoor wireless access point with
2 gigabit ethernet ports, dual-band wireless,
internal antenna plates, and 802.3at PoE+
Engenius EWS660AP, ENS1750, and ENS1200 are "electrically identical,
different model names are for marketing purpose" according to docs
provided by Engenius to the FCC.
**Specification:**
- QCA9558 SOC 2.4 GHz, 3x3
- QCA9880 WLAN mini PCIe card, 5 GHz, 3x3, 26dBm
- AR8035-A PHY RGMII GbE with PoE+ IN
- AR8033 PHY SGMII GbE with PoE+ OUT
- 40 MHz clock
- 16 MB FLASH MX25L12845EMI-10G
- 2x 64 MB RAM
- UART at J1 populated, RX grounded
- 6 internal antenna plates (5 dbi, omni-directional)
- 5 LEDs, 1 button (power, eth0, eth1, 2G, 5G) (reset)
**MAC addresses:**
Base MAC addressed labeled as "MAC"
Only one Vendor MAC address in flash
eth0 *:d4 MAC art 0x0
eth1 *:d5 --- art 0x0 +1
phy1 *:d6 --- art 0x0 +2
phy0 *:d7 --- art 0x0 +3
**Serial Access:**
the RX line on the board for UART is shorted to ground by resistor R176
therefore it must be removed to use the console
but it is not necessary to remove to view boot log
optionally, R175 can be replaced with a solder bridge short
the resistors R175 and R176 are next to the UART RX pin
**Installation:**
2 ways to flash factory.bin from OEM:
Method 1: Firmware upgrade page:
OEM webpage at 192.168.1.1
username and password "admin"
Navigate to "Firmware Upgrade" page from left pane
Click Browse and select the factory.bin image
Upload and verify checksum
Click Continue to confirm and wait 3 minutes
Method 2: Serial to load Failsafe webpage:
After connecting to serial console and rebooting...
Interrupt uboot with any key pressed rapidly
execute `run failsafe_boot` OR `bootm 0x9fd70000`
wait a minute
connect to ethernet and navigate to
"192.168.1.1/index.htm"
Select the factory.bin image and upload
wait about 3 minutes
**Return to OEM:**
If you have a serial cable, see Serial Failsafe instructions
otherwise, uboot-env can be used to make uboot load the failsafe image
ssh into openwrt and run
`fw_setenv rootfs_checksum 0`
reboot, wait 3 minutes
connect to ethernet and navigate to 192.168.1.1/index.htm
select OEM firmware image from Engenius and click upgrade
**TFTP recovery:**
Requires serial console, reset button does nothing
rename initramfs.bin to '0101A8C0.img'
make available on TFTP server at 192.168.1.101
power board, interrupt boot
execute tftpboot and bootm 0x81000000
**Format of OEM firmware image:**
The OEM software of ENS1750 is a heavily modified version
of Openwrt Kamikaze. One of the many modifications
is to the sysupgrade program. Image verification is performed
simply by the successful ungzip and untar of the supplied file
and name check and header verification of the resulting contents.
To form a factory.bin that is accepted by OEM Openwrt build,
the kernel and rootfs must have specific names...
openwrt-ar71xx-generic-ens1750-uImage-lzma.bin
openwrt-ar71xx-generic-ens1750-root.squashfs
and begin with the respective headers (uImage, squashfs).
Then the files must be tarballed and gzipped.
The resulting binary is actually a tar.gz file in disguise.
This can be verified by using binwalk on the OEM firmware images,
ungzipping then untaring.
Newer EnGenius software requires more checks but their script
includes a way to skip them, otherwise the tar must include
a text file with the version and md5sums in a deprecated format.
The OEM upgrade script is at /etc/fwupgrade.sh.
OKLI kernel loader is required because the OEM software
expects the kernel to be no greater than 1536k
and the factory.bin upgrade procedure would otherwise
overwrite part of the kernel when writing rootfs.
Note on PLL-data cells:
The default PLL register values will not work
because of the external AR8035 switch between
the SOC and the ethernet port.
For QCA955x series, the PLL registers for eth0 and eth1
can be see in the DTSI as 0x28 and 0x48 respectively.
Therefore the PLL registers can be read from uboot
for each link speed after attempting tftpboot
or another network action using that link speed
with `md 0x18050028 1` and `md 0x18050048 1`.
The clock delay required for RGMII can be applied
at the PHY side, using the at803x driver `phy-mode`.
Therefore the PLL registers for GMAC0
do not need the bits for delay on the MAC side.
This is possible due to fixes in at803x driver
since Linux 5.1 and 5.3
Tested-by: Kevin Abraham <kevin@westhousefarm.com>
Signed-off-by: Kevin Abraham <kevin@westhousefarm.com>
With the switch from the uImage.FIT partition parser to fitblk the
cmdline needs to be adjusted as well. Do this now as it has been
forgotten when the switch was done.
Fixes: 6368ed1ae5 ("mediatek: mt7623: phase out uImage.FIT partition parser")
Signed-off-by: Daniel Golle <daniel@makrotopia.org>
This has been tested on two of my Unifi 6 LR v2s:
```bash
$ fw_printenv # before
Cannot parse config file '/etc/fw_env.config': No such file or directory
$ cat /etc/fw_env.config
/dev/mtd3 0x0000 0x1000 0x1000 1
$ fw_printenv
arch=arm
baudrate=115200
board=mt7622_evb
board_name=mt7622_evb
bootcmd=bootubnt
bootdelay=3
bootfile=uImage
cpu=armv7
device_model=U6-LR
ethact=mtk_eth
ethaddr=<redacted>
ethcard=AQR112C
ipaddr=<redacted>
is_default=true
loadaddr=0x5007FF28
macaddr=<redacted>
serverip=<redacted>
soc=mt7622
stderr=serial
stdin=serial
stdout=serial
vendor=mediatek
is_ble_stp=true
```
I had to reverse-engineer the working settings above to the UCI script.
Signed-off-by: Joel Low <joel@joelsplace.sg>
Link: https://github.com/openwrt/openwrt/pull/13897
Signed-off-by: Christian Marangi <ansuelsmth@gmail.com>
This adds support for the bpi-r4 variant with internal 2.5G PHY and
additional ethernet port instead of second sfp.
Signed-off-by: Martin Schiller <ms@dev.tdt.de>
This adds support for the bpi-r4 variant with internal 2.5G PHY and
additional ethernet port instead of second sfp.
Signed-off-by: Martin Schiller <ms@dev.tdt.de>
Hardware:
=========
SOC: Qualcomm IPQ4019
WiFi 1: QCA4019 IEEE 802.11b/g/n
WiFi 2: QCA4019 IEEE 802.11a/n/ac
WiFi 3: QCA9886 IEEE 802.11a/n/ac
Bluetooth: Qualcomm CSR8510 (A10)
Zigbee: Silicon Labs EM3581 NCP + Skyworks SE2432L
Ethernet: Qualcomm Atheros QCA8072 (2-port)
Flash: Samsung KLM4G1FEPD (4GB eMMC)
RAM (NAND): 512MB
LED Controller: NXP PCA9633 (I2C)
Buttons: Single reset button (GPIO).
Ethernet:
=========
The device has 2 ethernet ports, configured as follows by default:
- left port: WAN
- right port: LAN
Wifi:
=====
The Wifi radios are turned off by default. To configure the router,
you will need to connect your computer to the LAN port of the device.
Bluetooth and Zigbee:
=====================
Configuration included but not tested.
Storage:
========
For compatibility with stock firmware, all of OpenWrt runs in a 136 MiB
eMMC partition (of which there are two copies, see below). You can also
use partition /dev/mmcblk0p19 "syscfg" (3.4 GiB) any way you see fit.
During very limited tests, stock firmware did not mount this partition.
However, backing up its stock content before use is recommended anyway.
Firmware:
=========
The device uses a dual firmware mechanism: it automatically reverts to
the previous firmware after 3 failed boot attempts.
You can switch to the inactive firmware copy by changing the "boot_part"
U-Boot environment variable. You can also do it by turning on the device
for a couple of seconds and then back off, 3 times in a row.
Installation:
=============
OpenWrt's "factory" image can be installed via the stock web UI:
1. Login to the UI. (The default password is printed on the label.)
2. Enter support mode by clicking on the "CA" link at the bottom.
3. Click "Connectivity", "Choose file", "Start", and ignore warnings.
This port is based on work done by flipy (https://github.com/flipy).
Signed-off-by: Rodrigo Balerdi <lanchon@gmail.com>
Link: https://github.com/openwrt/openwrt/pull/15345
Signed-off-by: Robert Marko <robimarko@gmail.com>
Upgrade the OpenSBI firmware used by RISC-V CPUs to 1.4.
Runtime-tested:
- d1 (Lichee RV)
- sifiveu (SiFive Unleashed)
Updates since last release:
1.4:
Synopsys DesignWare APB GPIO driver
Zicntr and Zihpm support
Console print improvements
Smepmp support
Simple FDT based syscon regmap driver
Syscon based reboot and poweroff driver
Non-contiguous hpm counters
Smcntrpmf support
Full sparse hartid support
IPI improvements
RFENCE improvements
Zkr support
Andes custom PMU support
1.3.1:
ACLINT driver fix for disabled CPUs
SBI PMU fix for out-of-bound access
Designware GPIO driver
1.3:
Allow platform to influence cold boot HART selection
Starfive JH7110 platform support
Split RX and RW firmware regions
Advertise non-retentive suspend for allwinner D1 platform
Byteorder/endianness conversion macros
SBI debug console extension (Experimental)
Configure the PMA regions for RZ/Five platform
SBI system suspend extension (Experimental)
SBI PMU platform firmware events (Experimental)
SBI CPPC extension (Experimental)
Optimized remote TLB flushes
Simple heap for boot time memory allocations
Bring back no-map DT property for reserved memory nodes
Signed-off-by: Zoltan HERPAI <wigyori@uid0.hu>
This is needed to boot the BCM6238-based Inteno XG6846.
Currently this is restricted to the XG6846 board.
Reviewed-by: Paul Donald <newtwen+github@gmail.com>
Signed-off-by: Linus Walleij <linus.walleij@linaro.org>
Well, it seems that cryptopp hash was never refreshed since calling
make package/boot/arm-trusted-firmware-mvebu/check FIXUP=1 V=s does not
actually refresh the download calls hashes so refresh it manually.
Signed-off-by: Robert Marko <robert.marko@sartura.hr>
Since ("download: don't overwrite VERSION variable") trying to download the
required sources for mvebu ATF will fail with:
Makefile:247: *** Download/mox-boot-builder is missing the SOURCE_VERSION field.. Stop.
This also broke the buildbot mvebu/cortex-a53 builds.
So, fix it by switching to SOURCE_VERSION instead.
Signed-off-by: Robert Marko <robert.marko@sartura.hr>
uboot-envtools is currently missing config for Edgerouter-X
and its not immediately obvious what settings to manually
apply.
Provide default configuration for envtools on Edgerouter-X.
Signed-off-by: Tim Lunn <tim@feathertop.org>
The Upstream Linux community has discontinued support for the target.
Maintaining support for it downstream would require too much effort.
Moreover, it seems that the supported hardware is no longer deemed worthy
of it.
Signed-off-by: Nick Hainke <vincent@systemli.org>
Spectrum SAX1V1K is a AX WIFI router with 3 1G and 1 2.5G ports.
The router is provided to Spectrum customers.
It is OEM of Askey RT5010W
https://forum.openwrt.org/t/spectrum-sax1v1k-askey-rt5010w-openwrt-support/149923
It continues the original work by @MeisterLone to get this device supported.
Specifications:
```
• CPU: Qualcomm IPQ8072A Quad core Cortex-A53 2.2GHz
• RAM: 2048MB of DDR3
• Storage: 1024MB eMMC
• Ethernet: 3x 1G RJ45 ports (QCA8075) + 1 2.5G Port (QCA8081)
• WLAN:
• 2.4GHz: Qualcomm QCN5024 4x4 802.11b/g/n/ax 1174 Mbps PHY rate
• 5GHz: Qualcomm QCN5054 4x4 802.11a/b/g/n/ac/ax 2402 PHY rate
• LED: 1 gpio-controlled dual color led (blue/red)
• Buttons: 1x reset
• Power: 12V DC jack
```
Notes:
```
• This commit adds only single partition support, that means
sysupgrade is upgrading the current rootfs partition.
• Installation can be done by serial connection only.
• A poulated serial header is onboard
https://forum.openwrt.org/t/spectrum-sax1v1k-askey-rt5010w-openwrt-support/149923/6
• RX/TX is working, u-boot bootwait is active, secure boot is enabled.
```
Installation Instructions:
**Most part of the installation is performed from an initramfs image.**
Boot initramfs : Using serial connection
1. Boot up the device and wait till it displays "VERIFY_IB: Success. verify IB ok"
2. Once that message appears,
login with username 'root'
password serial number of your router in uppercase.
3. Use vi to paste the 'open.sh' script from @MeisterLone github on your device
https://github.com/MeisterLone/Askey-RT5010W-D187-REV6/blob/master/Patch/open.sh
4. chmod 755 open.sh
5. ./open.sh
6. Set your ip to 192.168.0.1
7. Run a TFTP server and host the initramfs image on the TFTP server and name it "recovery.img"
8. Reboot device. On boot it will try TFTP.
Install OpenWrt from initramfs image:
1. Use SCP (or other way) to transfer OpenWrt factory image
2. Connect to device using SSH (on a LAN port)
3. Flash firmware: sysupgrade
# sysupgrade -n -v /tmp/openwrt_sysupgrade.bin
4. Set U-boot env variable: bootcmd
# fw_setenv bootcmd "run fix_uboot; run setup_and_boot"
5. Reboot the device
# reboot
6. Once device is booted, residue of previous firmware will prevent openwrt to work properly.
Factory Reset is MUST required
# Once serial console is displaying to login, hold reset button for 10 sec
7. Now everything should be operational.
Note: this PR adds only single partition support, that means sysupgrade is
upgrading the current rootfs partition
Signed-off-by: Connor Yoon <j_connor@taliaent.com>
Lets update to 2024.04 in order to drop all of the patches as they have
been merged upstream.
Tested on Methode eDPU.
Signed-off-by: Robert Marko <robert.marko@sartura.hr>
As commit 3ce1e4c3d3 ("d1: define subtarget specifically") added the
'generic' subtarget, without 'BUILD_SUBTARGET' the correspond U-Boot
package will be no longer selected automatically.
Fixes: 3ce1e4c3d3 ("d1: define subtarget specifically")
Signed-off-by: Tianling Shen <cnsztl@immortalwrt.org>
HW specifications:
* Mediatek MT7981A
* 256MB SPI-NAND
* 512MB DRAM
* Uplink: 1 x 10/100/1000Base-T Ethernet, Auto MDIX, RJ-45 with 802.3at
PoE (Built-in GBe PHY)
* LAN: 1 x 10/100/1000Base-T Ethernet, Auto MDIX, RJ-45 (Airoha EN8801SC)
* 1 Tricolor LED
* Reset button
* 12V/2.0A DC input
Installation:
Board comes with OpenWifi/TIP which is OpenWrt based, so sysupgrade can
be used directly over SSH.
Signed-off-by: Robert Marko <robert.marko@sartura.hr>
So, when updating the hash for at91bootstrap it was done via CHECK_ALL=1
so that updated the PKG_MIRROR_HASH for the main v4 version hash, but
at91bootstrap checkout version depends on the subtarget as well.
Choosing to build for sam9x will change the at91bootstrap version to v3
and this hash was not refreshed thus causing the CI to fail.
Fixes: 6918c637b7 ("treewide: package: update missed hashes after switch to ZSTD")
Signed-off-by: Robert Marko <robimarko@gmail.com>
With the switch to ZSTD for git clone packaging, hashes have changed so
fixup remaining package hashes that were missed in the inital update.
Fixes: b3c1c57 ("treewide: update PKG_MIRROR_HASH to zst")
Signed-off-by: Robert Marko <robimarko@gmail.com>
With the default BUILD_BOT configuration on a linux 6.6 kernel,
the WNDR4700's kernel no longer fits into the alloted ~3.5MiB,
even with LZMA compression.
Bigger kernels are possible, but there's a problem with Netgear's
"bootcmd":
> if loadn_dniimg 0 0x180000 0x4e0000 && chk_dniimg 0x4e0000; then nand read 0x800000 0x180000 0x20000;bootm 0x500000 - 0x800040;else fw_recovery; fi"
This loads the dni-image starting offset 0x180000 from the NAND
flash (which is the DTB partition) to 0x4e0000 in the RAM. It then
checks whenever the provided image is "valid". If it is then it
reads the DTB again to 0x800000 in the RAM and starts the extraction
and boot process. (If the image wasn't valid then it starts the
automated firmware recovery).
The issues here are that first: the kernel image gets "squeezed"
between 0x500040 and 0x7fffff... And second, the decompressor
only has area 0x0 - 0x500000 for decompression.
Hence the image now requires to update the bootcmd by providing
new values (which have been successfully tested with the original
Netgear WNDR4700 v1.0.0.56 firmware) for the RAM locations and
make full use of the fact that loadn_dniimg loads the DTB as well.
This needs to be done only once. Just connect a serial adapter to
interface with uboot and overwrite (and save) the new bootcmd.
WARNING: The serial port needs a TTL/RS-232 3.3v level converter!
Steps:
0. Power-off the WNDR4700
1. Connect the serial interface (you need to open the WNDR4700)
2. Power-up the WNDR4700
3. Monitor the boot-sequence and hit "Enter"-key when it says:
"Hit any key to stop autoboot" (Be quick, you have a ~2 second window)
4. in the Prompt enter the following commands (copy & paste)
setenv bootcmd "if loadn_dniimg 0 0x180000 0xce0000 && chk_dniimg 0xce0000; then bootm 0xd00000 - 0xce0040;else fw_recovery; fi"
saveenv
run bootcmd
Note: This new bootcmd will also unbrick devices that were bricked
by the bigger 4.19-6.1 kernels.
Note2: This method was tested with a WNDR4700. A big kernel with most
debug features enabled on v6.6.22 measured 4.30 MiB when compressed
with lzma. The uncompressed kernel is 12.34 MiB. This is over the 3 MiB,
the device reserves for the kernel... But it booted! For bigger kernels,
the device needs repartitioning of the the ubi partition due to the
kernel+dtb not fitting into the partition.
Note3: For initramfs development. I would advice to load the initramfs
images to 0x800000 (or higher). i.e.: tftp 800000 wndr4700.bin
Note4: the fw_recovery uboot command to transfer the factory image to
the flash still works.
Signed-off-by: Christian Lamparter <chunkeey@gmail.com>
Specification:
- MT7981 CPU using 2.4GHz and 5GHz WiFi (both AX)
- MT7531 switch
- 512MB RAM
- 128MB NAND flash with two UBI partitions with identical size
- 1 multi color LED (red, green, blue, white) connected via GCA230718
- 3 buttons (WPS, reset, LED on/off)
- 1 1Gbit WAN port
- 4 1Gbit LAN ports
Disassembly:
- There are four screws at the bottom: 2 under the rubber feets, 2 under the label.
- After removing the screws, the white plastic part can be shifted out of the blue part.
- Be careful because the antennas are mounted on the side and the top of the white part.
Serial Interface
- The serial interface can be connected to the 4 pin holes on the side of the board.
- Pins (from front to rear):
- 3.3V
- RX
- TX
- GND
- Settings: 115200, 8N1
MAC addresses:
- WAN MAC is stored in partition "Odm" at offset 0x81
- LAN (as printed on the device) is WAN MAC + 1
- WLAN MAC (2.4 GHz) is WAN MAC + 2
- WLAN MAC (5GHz) is WAN MAC + 3
Flashing via Recovery Web Interface:
- The recovery web interface always flashes to the currently active partition.
- If OpenWrt is flahsed to the second partition, it will not boot.
- Ensure that you have an OEM image available (encrypted and decrypted version). Decryption is described in the end.
- Set your IP address to 192.168.200.10, subnetmask 255.255.255.0
- Press the reset button while powering on the device
- Keep the reset button pressed until the LED blinks red
- Open a Chromium based and goto http://192.168.200.1 (recovery web interface)
- Download openwrt-mediatek-filogic-dlink_aquila-pro-ai-m30-a1-squashfs-recovery.bin
- The recovery web interface always reports successful flashing, even if it fails
- After flashing, the recovery web interface will try to forward the browser to 192.168.0.1 (can be ignored)
- If OpenWrt was flashed to the first partition, OpenWrt will boot (The status LED will start blinking white and stay white in the end). In this case you're done and can use OpenWrt.
- If OpenWrt was flashed to the second partition, OpenWrt won't boot (The status LED will stay red forever). In this case, the following steps are reuqired:
- Start the web recovery interface again and flash the **decrypted OEM image**. This will be flashed to the second partition as well. The OEM firmware web interface is afterwards accessible via http://192.168.200.1.
- Now flash the **encrypted OEM image** via OEM firmware web interface. In this case, the new firmware is flashed to the first partition. After flashing and the following reboot, the OEM firmware web interface should still be accessible via http://192.168.200.1.
- Start the web recovery interface again and flash the OpenWrt recovery image. Now it will be flashed to the first partition, OpenWrt will boot correctly afterwards and is accessible via 192.168.1.1.
Flashing via U-Boot:
- Open the case, connect to the UART console
- Set your IP address to 192.168.200.2, subnet mask 255.255.255.0. Connect to one of the LAN interfaces of the router
- Run a tftp server which provides openwrt-mediatek-filogic-dlink_aquila-pro-ai-m30-a1-initramfs-kernel.bin.
- Power on the device and select "7. Load image" in the U-Boot menu
- Enter image file, tftp server IP and device IP (if they differ from the default).
- TFTP download to RAM will start. After a few seconds OpenWrt initramfs should start
- The initramfs is accessible via 192.168.1.1, change your IP address accordingly (or use multiple IP addresses on your interface)
- Perform a sysupgrade using openwrt-mediatek-filogic-dlink_aquila-pro-ai-m30-a1-squashfs-sysupgrade.bin
- Reboot the device. OpenWrt should start from flash now
Revert back to stock using the Recovery Web Interface:
- Set your IP address to 192.168.200.2, subnetmask 255.255.255.0
- Press the reset button while powering on the device
- Keep the reset button pressed until the LED blinks red
- Open a Chromium based and goto http://192.168.200.1 (recovery web interface)
- Flash a decrypted firmware image from D-Link. Decrypting an firmware image is described below.
Decrypting a D-Link firmware image:
- Download https://github.com/RolandoMagico/firmware-utils/blob/M32/src/m32-firmware-util.c
- Compile a binary from the downloaded file, e.g. gcc m32-firmware-util.c -lcrypto -o m32-firmware-util
- Run ./m32-firmware-util M30 --DecryptFactoryImage <OriginalFirmware> <OutputFile>
- Example for firmware M30A1_FW101B05: ./m32-firmware-util M30 --DecryptFactoryImage M30A1_FW101B05\(0725091522\).bin M30A1_FW101B05\(0725091522\)_decrypted.bin
Flashing via OEM web interface is not possible, as it will change the active partition and OpenWrt is only running on the first UBI partition.
Controlling the LEDs:
- The LEDs are controlled by a chip called "GCA230718" which is connected to the main CPU via I2C (address 0x40)
- I didn't find any documentation or driver for it, so the information below is purely based on my investigations
- If there is already I driver for it, please tell me. Maybe I didn't search enough
- I implemented a kernel module (leds-gca230718) to access the LEDs via DTS
- The LED controller supports PWM for brightness control and ramp control for smooth blinking. This is not implemented in the driver
- The LED controller supports toggling (on -> off -> on -> off) where the brightness of the LEDs can be set individually for each on cycle
- Until now, only simple active/inactive control is implemented (like when the LEDs would have been connected via GPIO)
- Controlling the LEDs requires three sequences sent to the chip. Each sequence consists of
- A reset command (0x81 0xE4) written to register 0x00
- A control command (for example 0x0C 0x02 0x01 0x00 0x00 0x00 0xFF 0x01 0x00 0x00 0x00 0xFF 0x87 written to register 0x03)
- The reset command is always the same
- In the control command
- byte 0 is always the same
- byte 1 (0x02 in the example above) must be changed in every sequence: 0x02 -> 0x01 -> 0x03)
- byte 2 is set to 0x01 which disables toggling. 0x02 would be LED toggling without ramp control, 0x03 would be toggling with ramp control
- byte 3 to 6 define the brightness values for the LEDs (R,G,B,W) for the first on cycle when toggling
- byte 7 defines the toggling frequency (if toggling enabled)
- byte 8 to 11 define the brightness values for the LEDs (R,G,B,W) for the second on cycle when toggling
- byte 12 is constant 0x87
Comparison to M32/R32:
- The algorithms for decrypting the OEM firmware are the same for M30/M32/R32, only the keys differ
- The keys are available in the GPL sources for the M32
- The M32/R32 contained raw data in the firmware images (kernel, rootfs), the R30 uses a sysupgrade tar instead
- Creation of the recovery image is quite similar, only the header start string changes. So mostly takeover from M32/R32 for that.
- Turned out that the bytes at offset 0x0E and 0x0F in the recovery image header are the checksum over the data area
- This checksum was not checked in the recovery web interface of M32/R32 devices, but is now active in R30
- I adapted the recovery image creation to also calculate the checksum over the data area
- The recovery image header for M30 contains addresses which don't match the memory layout in the DTS. The same addresses are also present in the OEM images
- The recovery web interface either calculates the correct addresses from it or has it's own logic to determine where which information must be written
Signed-off-by: Roland Reinl <reinlroland+github@gmail.com>
Huawei AP5030DN is a dual-band, dual-radio 802.11ac Wave 1 3x3 MIMO
enterprise access point with two Gigabit Ethernet ports and PoE
support.
Hardware highlights:
- CPU: QCA9550 SoC at 720MHz
- RAM: 256MB DDR2
- Flash: 32MB SPI-NOR
- Wi-Fi 2.4GHz: QCA9550-internal radio
- Wi-Fi 5GHz: QCA9880 PCIe WLAN SoC
- Ethernet 1: 10/100/1000 Mbps Ethernet through Broadcom B50612E PHY
- Ethernet 2: 10/100/1000 Mbps Ethernet through Marvell 88E1510 PHY
- PoE: input through Ethernet 1 port
- Standalone 12V/2A power input
- Serial console externally available through RJ45 port
- External watchdog: SGM706 (1.6s timeout)
Serial console:
9600n8 (9600 baud, no stop bits, no parity, 8 data bits)
MAC addresses:
Each device has 32 consecutive MAC addresses allocated by
the vendor, which don't overlap between devices.
This was confirmed with multiple devices with consecutive
serial numbers.
The MAC address range starts with the address on the label.
To be able to distinguish between the interfaces,
the following MAC address scheme is used:
- eth0 = label MAC
- eth1 = label MAC + 1
- radio0 (Wi-Fi 5GHz) = label MAC + 2
- radio1 (Wi-Fi 2.4GHz) = label MAC + 3
Installation:
0. Connect some sort of RJ45-to-USB adapter to "Console" port of the AP
1. Power up the AP
2. At prompt "Press f or F to stop Auto-Boot in 3 seconds",
do what they say.
Log in with default admin password "admin@huawei.com".
3. Boot the OpenWrt initramfs from TFTP using the hidden script
"run ramboot". Replace IP address as needed:
> setenv serverip 192.168.1.10
> setenv ipaddr 192.168.1.1
> setenv rambootfile
openwrt-ath79-generic-huawei_ap5030dn-initramfs-kernel.bin
> saveenv
> run ramboot
4. Optional but recommended as the factory firmware cannot
be downloaded publicly:
Back up contents of "firmware" partition using the web interface or ssh:
$ ssh root@192.168.1.1 cat /dev/mtd11 > huawei_ap5030dn_fw_backup.bin
5. Run sysupgrade using sysupgrade image. OpenWrt
shall boot from flash afterwards.
Return to factory firmware (using firmware upgrade package downloaded from
non-public Huawei website):
1. Start a TFTP server in the directory where
the firmware upgrade package is located
2. Boot to u-boot as described above
3. Install firmware upgrade package and format the config partitions:
> update system FatAP5X30XN_SOMEVERSION.bin
> format_fs
Return to factory firmware (from previously created backup):
1. Copy over the firmware partition backup to /tmp,
for example using scp
2. Use sysupgrade with force to restore the backup:
sysupgrade -F huawei_ap5030dn_fw_backup.bin
3. Boot AP to U-Boot as described above
Quirks and known issues
-----------------------
- On initial power-up, the Huawei-modified bootloader suspends both
ethernet PHYs (it sets the "Power Down" bit in the MII control
register). Unfortunately, at the time of the initial port, the kernel
driver for the B50612E/BCM54612E PHY behind eth0 doesn't have a resume
callback defined which would clear this bit. This makes the PHY unusable
since it remains suspended forever. This is why the backported kernel
patches in this commit are required which add this callback and for
completeness also a suspend callback.
- The stock firmware has a semi dual boot concept where the primary
kernel uses a squashfs as root partition and the secondary kernel uses
an initramfs. This dual boot concept is circumvented on purpose to gain
more flash space and since the stock firmware's flash layout isn't
compatible with mtdsplit.
- The external watchdog's timeout of 1.6s is very hard to satisfy
during bootup. This is why the GPIO15 pin connected to the watchdog input
is configured directly in the LZMA loader to output the CPU_CLK/4 signal
which keeps the watchdog happy until the wdt-gpio kernel driver takes
over. Because it would also take too long to read the whole kernel image
from flash, the uImage header only includes the loader which then reads
the kernel image from flash after GPIO15 is configured.
Signed-off-by: Marco von Rosenberg <marcovr@selfnet.de>
[fixed 6.6 backport patch naming]
Signed-off-by: David Bauer <mail@david-bauer.net>
The uboot-envtools can automatically parse the dts 'u-boot,env'
compatible string. So the env config file is now useless.
Signed-off-by: Shiji Yang <yangshiji66@qq.com>
Key features:
Allwinner H618 SoC (Quad core Cortex-A53)
1/1.5/2/4 GiB LPDDR4 DRAM
1 USB 2.0 type C port (Power + OTG)
1 USB 2.0 host port
1Gbps Ethernet port
Micro-HDMI port
MicroSD slot
Installation:
Write the image to SD Card with dd.
Signed-off-by: Chukun Pan <amadeus@jmu.edu.cn>
This version supports LPDDR4 DRAM of H618 SoC.
Runtime-tested:
Olimex Olinuxino Micro (A20)
Orange Pi Zero 3 (H618)
Pine64 SoPine (A64)
Tested-by: Zoltan HERPAI <wigyori@uid0.hu>
Signed-off-by: Chukun Pan <amadeus@jmu.edu.cn>
With the change in version schema the downloaded files changed, too,
mostly the hash is now prefixed with a tilde `~` instead of a dash `-`.
Since each downloaded archive contains folder with the same name as the
archive, the checksum changed.
Signed-off-by: Paul Spooren <mail@aparcar.org>
Add support for Xiaomi Redmi AX6S to be used as a second-stage
UBI loader.
The defconfig/env is minimal: Boot fit from UBI. If that failed,
load and boot initramfs image from TFTP.
Signed-off-by: Chuanhong Guo <gch981213@gmail.com>
Dual-slot NAS based on Marvell Kirkwood.
Specifications:
- Marvell 88F6281 @1GHz
- 128Mb RAM
- 256Mb NAND
- 1x GbE LAN (Marvell 88E1116)
- 1x USB 2.0
- 2x SATA
- PCF8563 RTC
- LM75 sensor
- TC654 PWM fan controller
- Serial on J2 (115200,8n1)
- Newer bootROM so kwboot-ing via serial is possible
Installation:
1. Serial console
- Connect your levelshifter to the serial console
on J2 (refer to the wiki page for pinout)
2. Update u-boot
- Download the u-boot.kwb image for the device
- Powercycle the NAS
- Run "kwboot -b ./u-boot.kwb /dev/ttyUSB0 -p"
- Connect to the serial console with minicom
- tftp 0x0800000 netgear_stora-u-boot.kwb
- nand erase 0x0 100000
- nand write 0x0800000 0x0 0x100000
- reset
3. Install OpenWrt
- Boot up the initramfs image
- tftpboot 0x800000 openwrt-kirkwood-netgear_stora-initramfs-uImage; bootm 0x800000
- Download the sysupgrade image and perform sysupgrade
The fan is controlled in 3 stages by a script running every minute
from cron, measuring the CPU temperature.
Snippets taken from bodhi <mibodhi@gmail.com>
Signed-off-by: Zoltan HERPAI <wigyori@uid0.hu>
Make sure patch sequence number is unique by moving patch
440-add-jdcloud_re-cp-03.patch -> 441-add-jdcloud_re-cp-03.patch
Signed-off-by: Daniel Golle <daniel@makrotopia.org>
Contrary to common ipTIME NOR devices, the "Config" partition of T5004
and AX2004M contain normal U-Boot environment variables. Renaming the
partition into "u-boot-env" serves for better description, and it also
conforms to common naming practice in OpenWrt.
This patch might also be extended to A3004T, but its u-boot-env
partition layout has not been confirmed yet.
Signed-off-by: Sungbo Eo <mans0n@gorani.run>
Probing of the fitblk driver in some situations happens after Linux
attempts to mount rootfs, which then fails.
Always use 'rootwait' kernel parameter when using fitblk for rootfs.
Signed-off-by: Daniel Golle <daniel@makrotopia.org>
Netgear WAX214 is a 802.11 ax dual-band AP
with PoE. (similar to Engenius EWS357APV3)
Specifications:
• CPU: Qualcomm IPQ6010 Quad core Cortex-A53
• RAM: 512MB of DDR3
• Storage: 128MB NAND (Macronix MX30UF1G18AC)
• Ethernet: 1x 1G RJ45 port (QCA8072) PoE
• WIFI:
2.4GHz: Qualcomm QCN5022 2x2 802.11b/g/n/ax 574 Mbps PHY rate
5GHz: Qualcomm QCN5052 2x2 802.11a/b/g/n/ac/ax 1201 PHY rate
• LEDs:
4 x GPIO-controlled LEDs
- 1 Power LED (orange)
- 1 LAN LED (blue)
- 1 WIFI 5g LED (blue)
- 1 WIFI 2g LED (blue)
black_small_square Buttons: 1x soft reset
black_small_square Power: 12V DC jack or PoE (802.3af )
An populated serial header is onboard, format is
1.25mm 4p (DF13A-4P-1.25H)
RX/TX is working, bootwait is active, secure boot is not
enabled.
The root password of the stock firmware is unknown,
but failsafe mode can be entered to reset the password.
Installation Instructions:
- obtain serial access
- stop auto boot (press "4", Entr boot command line
interface)
- setenv active_fw 0 (to boot from the primary rootfs,
or set to 1 to boot from the secondary rootfs
partition)
- saveenv
- tftpboot the initramfs image
- bootm
- copy
openwrt-qualcommax-ipq60xx-netgear_wax214-squashfs-factory.ubi
to the device
- write the image to the NAND:
- cat /proc/mtd and look for rootfs partition (should
be mtd11,
or mtd12 if you choose active_fw 1)
- ubiformat /dev/mtd11 -f -y
openwrt-qualcommax-ipq60xx-netgear_wax214-squashfs-factory.ubi
- reboot
Note: the firmware is senao-based. But I was unable to build
a valid senao-header into the image.
Maybe they changed the header format and senaoFW isn't
working any more.
Signed-off-by: Dirk Buchwalder <buchwalder@posteo.de>
hostpkg python from packages feed can be picked when do a incremental
build because hostpkg has higher priority in PATH. It may lead build
faliure as it's heavily trimmed (e.g. lacks necessary modules).
For uboot which uses binman and intree dtc, this is forced as hostpkg
python will never provide those modules by default.
Signed-off-by: Tianling Shen <cnsztl@immortalwrt.org>