| Commit message (Collapse) | Author | Age | Files | Lines |
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The bootloader of many ipq40xx boards seems to require the config node
of the FIT image to be 'config@1' (or a secific different value).
This requirement used to be implicitely satisfied because OpenWrt used
to also call the configuration node inside a FIT image 'config@1'.
However, as recent U-Boot now prohibits the use of the '@' symbol as
part of node names, this was changed by
commit 5ec60cbe9d ("scripts: mkits.sh: replace @ with - in nodes")
Explicitely restore the default name of the configuration node to
'config@1' on ipq40xx.
Reported-by: Chen Minqiang <ptpt52@gmail.com>
Signed-off-by: Daniel Golle <daniel@makrotopia.org>
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The variables KERNEL_INITRAMFS_PREFIX and KERNEL_PREFIX are already
defined in include/image.mk and don't have to be redefined in the
target Makefiles.
Signed-off-by: Paul Spooren <mail@aparcar.org>
[also cover imx6]
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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The majority of our targets provide a default value for the variable
SUPPORTED_DEVICES, which is used in images to check against the
compatible on a running device:
SUPPORTED_DEVICES := $(subst _,$(comma),$(1))
At the moment, this is implemented in the Device/Default block of
the individual targets or even subtargets. However, since we
standardized device names and compatible in the recent past, almost
all targets are following the same scheme now:
device/image name: vendor_model
compatible: vendor,model
The equal redundant definitions are a symptom of this process.
Consequently, this patch moves the definition to image.mk making it
a global default. For the few targets not using the scheme above,
SUPPORTED_DEVICES will be defined to a different value in
Device/Default anyway, overwriting the default. In other words:
This change is supposed to be cosmetic.
This can be used as a global measure to get the current compatible
with: $(firstword $(SUPPORTED_DEVICES))
(Though this is not precisely an achievement of this commit.)
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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In preparation of the new mikrotik subtarget split the generic images
into generic.mk
Signed-off-by: Alexander Couzens <lynxis@fe80.eu>
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Both devices use u-boot env variables to boot OpenWrt from its flash
partition. Using u-boot envtools, it is possible to change the bootcmd
back to the stock firmware partition directly from OpenWrt without
attaching a serial cable or even physically accessing the device.
Signed-off-by: Jan Alexander <jan@nalx.net>
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Specifications:
SOC: Qualcomm IPQ4018 (DAKOTA) ARM Quad-Core
RAM: 256 MiB
FLASH1: 4 MiB NOR
FLASH2: 128 MiB NAND
ETH: Qualcomm QCA8075
WLAN1: Qualcomm Atheros QCA4018 2.4GHz 802.11b/g/n 2x2
WLAN2: Qualcomm Atheros QCA4018 5GHz 802.11n/ac W2 2x2
INPUT: Reset
LED: Power, Internet
UART1: On board pin header near to LED (3.3V, TX, RX, GND), 3.3V without pin - 115200 8N1
OTHER: On board with BLE module - by cp210x USB serial chip
On board hareware watchdog with GPIO0 high to turn on, and GPIO4 for watchdog feed
Install via uboot tftp or uboot web failsafe.
By uboot tftp:
(IPQ40xx) # tftpboot 0x84000000 openwrt-ipq40xx-generic-glinet_gl-ap1300-squashfs-nand-factory.ubi
(IPQ40xx) # run lf
By uboot web failsafe:
Push the reset button for 10 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: Dongming Han <handongming@gl-inet.com>
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SOC: IPQ4018 / QCA Dakota
CPU: Quad-Core ARMv7 Processor rev 5 (v71) Cortex-A7
DRAM: 256 MiB
NOR: 32 MiB
ETH: Qualcomm Atheros QCA8075 (2 ports)
PLC: MaxLinear G.hn 88LX5152
WLAN1: Qualcomm Atheros QCA4018 2.4GHz 802.11bgn 2:2x2
WLAN2: Qualcomm Atheros QCA4018 5GHz 802.11a/n/ac 2:2x2
INPUT: RESET, WiFi, PLC Button
LEDS: red/white home, white WiFi
To modify a retail device to run OpenWRT firmware:
1) Setup a TFTP server on IP address 192.168.0.100 and copy the OpenWRT
initramfs (initramfs-fit-uImage.itb) to the TFTP root as 'uploadfile'.
2) Power on the device while pressing the recessed reset button next to
the Ethernet ports. This causes the bootloader to retrieve and start
the initramfs.
3) Once the initramfs is booted, the device will come up with IP
192.168.1.1. You can then connect through SSH (allow some time for
the first connection).
4) On the device shell, run 'fw_printenv' to show the U-boot environment.
Backup this information since it contains device unique factory data.
5) Change the boot command to support booting OpenWRT:
# fw_setenv bootcmd 'sf probe && sf read 0x84000000 0x180000 0x400000 && bootm'
6) Change directory to /tmp, download the sysupgrade (e.g. through wget)
and install it with sysupgrade. The device will reboot into OpenWRT.
Notice that there is currently no support for booting the G.hn chip.
This requires userland software we lack the rights to share right now.
Signed-off-by: Stefan Schake <stefan.schake@devolo.de>
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Device specifications:
* QCA IPQ4019
* 256 MB of RAM
* 32 MB of SPI NOR flash (w25q256)
- 2x 15 MB available; but one of the 15 MB regions is the recovery image
* 2T2R 2.4 GHz
- QCA4019 hw1.0 (SoC)
- requires special BDF in QCA4019/hw1.0/board-2.bin with
bus=ahb,bmi-chip-id=0,bmi-board-id=20,variant=PlasmaCloud-PA2200
* 2T2R 5 GHz (channel 36-64)
- QCA9888 hw2.0 (PCI)
- requires special BDF in QCA9888/hw2.0/board-2.bin
bus=pci,bmi-chip-id=0,bmi-board-id=16,variant=PlasmaCloud-PA2200
* 2T2R 5 GHz (channel 100-165)
- QCA4019 hw1.0 (SoC)
- requires special BDF in QCA4019/hw1.0/board-2.bin with
bus=ahb,bmi-chip-id=0,bmi-board-id=21,variant=PlasmaCloud-PA2200
* GPIO-LEDs for 2.4GHz, 5GHz-SoC and 5GHz-PCIE
* GPIO-LEDs for power (orange) and status (blue)
* 1x GPIO-button (reset)
* TTL pins are on board (arrow points to VCC, then follows: GND, TX, RX)
* 2x gigabit ethernet
- phy@mdio3:
+ Label: Ethernet 1
+ gmac0 (ethaddr) in original firmware
+ used as LAN interface
- phy@mdio4:
+ Label: Ethernet 2
+ gmac1 (eth1addr) in original firmware
+ 802.3at POE+
+ used as WAN interface
* 12V 2A DC
Flashing instructions:
The tool ap51-flash (https://github.com/ap51-flash/ap51-flash) should be
used to transfer the factory image to the u-boot when the device boots up.
Signed-off-by: Marek Lindner <marek.lindner@kaiwoo.ai>
[sven@narfation.org: prepare commit message, rebase, use all LEDs, switch
to dualboot_datachk upgrade script, use eth1 as designated WAN interface]
Signed-off-by: Sven Eckelmann <sven@narfation.org>
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Device specifications:
* QCA IPQ4018
* 256 MB of RAM
* 32 MB of SPI NOR flash (w25q256)
- 2x 15 MB available; but one of the 15 MB regions is the recovery image
* 2T2R 2.4 GHz
- QCA4019 hw1.0 (SoC)
- requires special BDF in QCA4019/hw1.0/board-2.bin with
bus=ahb,bmi-chip-id=0,bmi-board-id=16,variant=PlasmaCloud-PA1200
* 2T2R 5 GHz
- QCA4019 hw1.0 (SoC)
- requires special BDF in QCA4019/hw1.0/board-2.bin with
bus=ahb,bmi-chip-id=0,bmi-board-id=17,variant=PlasmaCloud-PA1200
* 3x GPIO-LEDs for status (cyan, purple, yellow)
* 1x GPIO-button (reset)
* 1x USB (xHCI)
* TTL pins are on board (arrow points to VCC, then follows: GND, TX, RX)
* 2x gigabit ethernet
- phy@mdio4:
+ Label: Ethernet 1
+ gmac0 (ethaddr) in original firmware
+ used as LAN interface
- phy@mdio3:
+ Label: Ethernet 2
+ gmac1 (eth1addr) in original firmware
+ 802.3af/at POE(+)
+ used as WAN interface
* 12V/24V 1A DC
Flashing instructions:
The tool ap51-flash (https://github.com/ap51-flash/ap51-flash) should be
used to transfer the factory image to the u-boot when the device boots up.
Signed-off-by: Marek Lindner <marek.lindner@kaiwoo.ai>
[sven@narfation.org: prepare commit message, rebase, use all LEDs, switch
to dualboot_datachk upgrade script, use eth1 as designated WAN interface]
Signed-off-by: Sven Eckelmann <sven@narfation.org>
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Adjust spelling of vendor name to what is used in other places.
Also move definition in shared section.
Signed-off-by: Moritz Warning <moritzwarning@web.de>
[improve commit title/message]
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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The OpenMesh related files were not updated since a while and the new
coding style requirements weren't integrated. This can cause problems
for new devices when an author uses these files as starting point.
* use SPDX-License-Identifiers instead of full license texts
* drop linux,default-trigger with value default-off for LEDs
* led nodes with label "abc:xyz" should have name "xyz_abc"
* led DT labels for "xyz_abc" should be "led_xyz_abc"
* "m25p80@0" flash node should be renamed to "flash@0"
* drop unnecessary empty lines
Signed-off-by: Sven Eckelmann <sven@narfation.org>
[minor commit title and message adjustments]
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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This adds several stylistic and functional improvements of the recently
added Edgecore ECW5211, especially:
* Drop the local BDFs as those are already in the upstream under different names
* Add SPDX tag to DTS
* Add label MAC address
* Move LED trigger to DTS
* Remove unnecessary status="okay"
* Disable unused SS USB phy as the USB port only supports USB 2.0
* Make uboot-env partition writable
* Remove qcom,poll_required_dynamic property as the driver does not use it
* Tidy up the device recipe
Fixes: 4488b260a02e ("ipq40xx: add Edgecore ECW5211 support")
Signed-off-by: Sungbo Eo <mans0n@gorani.run>
Acked-by: Robert Marko <robert.marko@sartura.hr>
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* split up DEVICE_TITLE into DEVICE_{VENDOR,MODEL}
* use SOC instead of DEVICE_DTS
Signed-off-by: Sungbo Eo <mans0n@gorani.run>
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The Linksys MR8300 is based on QCA4019 and QCA9888
and provides three, independent radios.
NAND provides two, alternate kernel/firmware images
with fail-over provided by the OEM U-Boot.
Hardware Highlights:
SoC: IPQ4019 at 717 MHz (4 CPUs)
RAM: 512MB RAM
SoC: Qualcomm IPQ4019 at 717 MHz (4 CPUs)
RAM: 512M DDR3
FLASH: 256 MB NAND (Winbond W29N02GV, 8-bit parallel)
ETH: Qualcomm QCA8075 (4x GigE LAN, 1x GigE Internet Ethernet Jacks)
BTN: Reset and WPS
USB: USB3.0, single port on rear with LED
SERIAL: Serial pads internal (unpopulated)
LED: Four status lights on top + USB LED
WIFI1: 2x2:2 QCA4019 2.4 GHz radio on ch. 1-14
WIFI2: 2x2:2 QCA4019 5 GHz radio on ch. 36-64
WIFI3: 2x2:2 QCA9888 5 GHz radio on ch. 100-165
Support is based on the already supported EA8300.
Key differences:
EA8300 has 256MB RAM where MR8300 has 512MB RAM.
MR8300 has a revised top panel LED setup.
Installation:
"Factory" images may be installed directly through the OEM GUI using
URL: https://ip-of-router/fwupdate.html (Typically 192.168.1.1)
Signed-off-by: Hans Geiblinger <cybrnook2002@yahoo.com>
[copied Hardware-highlights from EA8300. Fixed alphabetical order.
fixed commit subject, removed bogus unit-address of keys,
fixed author (used Signed-off-By to From:) ]
Signed-off-by: Christian Lamparter <chunkeey@gmail.com>
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Luma Home WRTQ-329ACN, also known as Luma WiFi System, is a dual-band
wireless access point.
Specification
SoC: Qualcomm Atheros IPQ4018
RAM: 256 MB DDR3
Flash: 2 MB SPI NOR
128 MB SPI NAND
WIFI: 2.4 GHz 2T2R integrated
5 GHz 2T2R integrated
Ethernet: 2x 10/100/1000 Mbps QCA8075
USB: 1x 2.0
Bluetooth: 1x 4.0 CSR8510 A10, connected to USB bus
LEDS: 16x multicolor LEDs ring, controlled by MSP430G2403 MCU
Buttons: 1x GPIO controlled
EEPROM: 16 Kbit, compatible with AT24C16
UART: row of 4 holes marked on PCB as J19, starting count from the side
of J19 marking on PCB
1. GND, 2. RX, 3. TX, 4. 3.3V
baud: 115200, parity: none, flow control: none
The device supports OTA or USB flash drive updates, unfotunately they
are signed. Until the signing key is known, the UART access is mandatory
for installation. The difficult part is disassembling the casing, there
are a lot of latches holding it together.
Teardown
Prepare three thin, but sturdy, prying tools. Place the device with back
of it facing upwards. Start with the wall having a small notch. Insert
first tool, until You'll feel resistance and keep it there. Repeat the
procedure for neighbouring walls. With applying a pressure, one edge of
the back cover should pop up. Now carefully slide one of the tools to
free the rest of the latches.
There's no need to solder pins to the UART holes, You can use hook clips,
but wiring them outside the casing, will ease debuging and recovery if
problems occur.
Installation
1. Prepare TFTP server with OpenWrt initramfs image.
2. Connect to UART port (don't connect the voltage pin).
3. Connect to LAN port.
4. Power on the device, carefully observe the console output and when
asked quickly enter the failsafe mode.
5. Invoke 'mount_root'.
6. After the overlayfs is mounted run:
fw_setenv bootdelay 3
This will allow to access U-Boot shell.
7. Reboot the device and when prompted to stop autoboot, hit any key.
8. Adjust "ipaddr" and "serverip" addresses in U-Boot environment, use
'setenv' to do that, then run following commands:
tftpboot 0x84000000 <openwrt_initramfs_image_name>
bootm 0x84000000
and wait till OpenWrt boots.
9. In OpenWrt command line run following commands:
fw_setenv openwrt "setenv mtdids nand1=spi_nand; setenv mtdparts mtdparts=spi_nand:-(ubi); ubi part ubi; ubi read 0x84000000 kernel; bootm 0x84000000"
fw_setenv bootcmd "run openwrt"
10. Transfer OpenWrt sysupgrade image to /tmp directory and flash it
with:
ubirmvol /dev/ubi0 -N ubi_rootfs
sysupgrade -v -n /tmp/<openwrt_sysupgrade_image_name>
11. After flashing, the access point will reboot to OpenWrt, then it's
ready for configuration.
Reverting to OEM firmware
1. Execute installation guide steps: 1, 2, 3, 7, 8.
2. In OpenWrt command line run following commands:
ubirmvol /dev/ubi0 -N rootfs_data
ubirmvol /dev/ubi0 -N rootfs
ubirmvol /dev/ubi0 -N kernel
ubirename /dev/ubi0 kernel1 kernel ubi_rootfs1 ubi_rootfs
ubimkvol /dev/ubi0 -S 34 -N kernel1
ubimkvol /dev/ubi0 -S 320 -N ubi_rootfs1
ubimkvol /dev/ubi0 -S 264 -N rootfs_data
fw_setenv bootcmd bootipq
3. Reboot.
Known issues
The LEDs ring doesn't have any dedicated driver or application to control
it, the only available option atm is to manipulate it with 'i2cset'
command. The default action after applying power to device is spinning
blue light. This light will stay active at all time. To disable it
install 'i2c-tools' with opkg and run:
i2cset -y 2 0x48 3 1 0 0 i
The light will stay off until next cold boot.
Additional information
After completing 5. step from installation guide, one can disable asking
for root password on OEM firmware by running:
sed -e 's/root:x:/root::/' -i /etc/passwd
This is useful for investigating the OEM firmware. One can look
at the communication between the stock firmware and the vendor's
cloud servers or as a way of making a backup of both flash chips.
The root password seems to be constant across all sold devices.
This is output of 'led_ctl' from OEM firmware to illustrate
possibilities of LEDs ring:
Usage: led_ctl [status | upgrade | force_upgrade | version]
led_ctl solid COLOR <brightness>
led_ctl single COLOR INDEX <brightness 0 - 15>
led_ctl spinning COLOR <period 1 - 16 (lower = faster)>
led_ctl fill COLOR <period 1 - 16 (lower = faster)>
( default is 5 )
led_ctl flashing COLOR <on dur 1 - 128> <off dur 1 - 128>
(default is 34) ( default is 34 )
led_ctl pulsing COLOR
COLOR: red, green, blue, yellow, purple, cyan, white
Signed-off-by: Tomasz Maciej Nowak <tomek_n@o2.pl>
[squash "ipq-wifi: add BDFs for Luma Home WRTQ-329ACN" into commit,
changed ubi volumes for easier integration, slightly reworded
commit message, changed ubi volume layout to use standard names all
around]
Signed-off-by: Christian Lamparter <chunkeey@gmail.com>
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flashing the unit
* first update to latest edcore FW as per the PDF instructions
* boot the initramfs
- tftpboot 0x88000000 openwrt-ipq40xx-generic-edgecore_oap100-initramfs-fit-uImage.itb; bootm
* inside the initramfs call the following commiands
- ubiattach -p /dev/mtd0
- ubirmvol /dev/ubi0 -n0
- ubirmvol /dev/ubi0 -n1
- ubirmvol /dev/ubi0 -n2
* scp the sysupgrade image to the board and call
- sysupgrade -n openwrt-ipq40xx-generic-edgecore_oap100-squashfs-nand-sysupgrade.bin
Signed-off-by: John Crispin <john@phrozen.org>
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This patch adds support for the Edgecore ECW5211 indoor AP.
Specification:
- SoC: Qualcomm Atheros IPQ4018 ARMv7-A 4x Cortex A-7
- RAM: 256MB DDR3
- NOR Flash: 16MB SPI NOR
- NAND Flash: 128MB MX35LFxGE4AB SPI-NAND
- Ethernet: 2 x 1G via Q8075 PHY connected to ethernet adapter via PSGMII (802.3af POE IN on eth0)
- USB: 1 x USB 3.0 SuperSpeed
- WLAN: Built-in IPQ4018 (2x2 802.11bng, 2x2 802.11 acn)
- CC2540 BLE connected to USB 2.0 port
- Atmel AT97SC3205T I2C TPM
Signed-off-by: Robert Marko <robert.marko@sartura.hr>
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Buffalo WTR-M2133HP is a Tri-Band router based on IPQ4019.
Specification
-------------
- SoC: Qualcomm IPQ4019
- RAM: 512MiB
- Flash Memory: NAND 128MiB (MXIC MX30LF1G18AC)
- Wi-Fi: Qualcomm IPQ4019 (2.4GHz, 1ch - 13ch)
- Wi-Fi: Qualcomm IPQ4019 (5GHz, 36ch - 64ch)
- Wi-Fi: Qualcomm QCA9984 (2T2R, 5GHz, 100ch - 140ch)
- Ethernet: 4x 10/100/1000 Mbps (1x WAN, 3x LAN)
- LED: 4x white LED, 4x orange LED, 1x blue LED
- USB: 1x USB 3.0 port
- Input: 2x tactile switch, 2x slide switch (2x SP3T)
- Serial console: 115200bps, pinheader JP5 on PCB
- Power: DC 12V 2A
Flash instruction
-----------------
1. Set up a TFTP server (IP address: 192.168.11.10)
2. Rename "initramfs-fit-uImage.itb" to "WTR-M2133HP-initramfs.uImage"
and put it into the TFTP server directory.
3. Connect the TFTP server and WTR-M2133HP.
4. Hold down the AOSS button, then power on the router.
5. After booting OpenWrt initramfs image, connect to the router by SSH.
6. Transfer "squashfs-nand-factory.ubi" to the router.
7. Execute the following commands.
# ubidetach -p /dev/mtd15
# ubiformat /dev/mtd15 -f /tmp/openwrt-ipq40xx-generic-buffalo_wtr-m2133hp-squashfs-nand-factory.ubi
# fw_setenv bootcmd bootipq
8. Perform reboot.
Recover to stock firmware
-------------------------
1. Execute the following command.
# fw_setenv bootcmd bootbf
2. Reboot and wait several minutes.
Signed-off-by: Yanase Yuki <dev@zpc.sakura.ne.jp>
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Specifications:
SOC: Qualcomm IPQ4029 (DAKOTA) ARM Quad-Core
RAM: 512 MiB
FLASH1: 16 MiB NOR - SPI0
FLASH2: 8 GiB eMMC
ETH: Qualcomm QCA8075
WLAN1: Qualcomm Atheros QCA4029 2.4GHz 802.11b/g/n 2x2
WLAN2: Qualcomm Atheros QCA4029 5GHz 802.11n/ac W2 2x2
INPUT: Reset, WPS
LED: Power, Mesh, WLAN
UART1: On board pin header near to LED (3.3V, TX, RX, GND), 3.3V without pin - 115200 8N1
UART2: On board with BLE module
SPI1: On board socket for Zigbee module
Install via tftp
- NB: need to flash transition image firstly
Firstly install transition image:
(IPQ40xx) # tftpboot 0x84000000 s1300-factory-to-openwrt.img
(IPQ40xx) # sf probe && imgaddr=0x84000000 && source :script
Secondly install openwrt sysupgrade bin:
(IPQ40xx) # run lf
Revert to factory image:
(IPQ40xx) # tftpboot 0x84000000 s1300-openwrt-to-factory.img
(IPQ40xx) # sf probe && imgaddr=0x84000000 && source :script
The kernel and rootfs of factory firmware are on eMMC, and openwrt
firmware is on NOR flash. The transition image includes U-boot
and partition table, which decides where to load kernel and rootfs.
After you firstly install openwrt image, you can switch between
factory and openwrt firmware by flashing transition image.
Signed-off-by: Dongming Han <handongming@gl-inet.com>
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The Device/Default definition sets a default IMAGE/sysupgrade.bin,
but does not enable it by setting IMAGES. This is not consistent,
and has led to IMAGES being defined at various other places in the
file.
Thus, this patch consolidates the default value for IMAGES by putting
it in Device/Default. Since it's still overwritten where necessary,
this patch is cosmetic.
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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The ZyXEL NBG6617 has a separate kernel partition which is 4MiB large.
Add the kernel size to validate the kernel won't be bigger than this
fixed limit.
Signed-off-by: David Bauer <mail@david-bauer.net>
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This adds image size checks for various devies using an automatic
mtdsplit.
Signed-off-by: David Bauer <mail@david-bauer.net>
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The NETGEAR EX61500v2 and EX6150v2 U-Boot does not support booting LZMA
compressed images. Currently, they are using GZIP compressed kernels,
which results in ledd flash being available to the root and overlay
filesystems.
Using a zImage results in a smaller kernel and therefore increases
available space for rootfs and overlayfs.
Size reduced: ~1.1 MiB
Signed-off-by: David Bauer <mail@david-bauer.net>
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SOC: IPQ4018 / QCA Dakota
CPU: Quad-Core ARMv7 Processor rev 5 (v7l) Cortex-A7
DRAM: 256 MiB
NOR: 32 MiB
ETH: Qualcomm Atheros QCA8072 (2 ports)
USB: 1 x 2.0 (Host 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: RESET Button
LEDS: White, Blue, Red, Orange
Flash instruction:
From EnGenius firmware to OpenWrt firmware:
In Firmware Upgrade page, upgrade your openwrt-ipq40xx-generic-engenius_emr3500-squashfs-factory.bin directly.
From OpenWrt firmware to EnGenius firmware:
1. Setup a TFTP server on your computer and configure static IP to 192.168.99.8
Put the EnGenius firmware in the TFTP server directory on your computer.
2. Power up EMR3500. Press 4 and then press any key to enter u-boot.
3. Download EnGenius firmware
(IPQ40xx) # tftpboot 0x84000000 openwrt-ipq40xx-emr3500-nor-fw-s.img
4. Flash the firmware
(IPQ40xx) # imgaddr=0x84000000 && source 0x84000000:script
5. Reboot
(IPQ40xx) # reset
Signed-off-by: Yen-Ting-Shen <frank.shen@senao.com>
[squashed update patch, updated to 5.4, dropped BOARD_NAME,
migrated to SOC]
Signed-off-by: Christian Lamparter <chunkeey@gmail.com>
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Hardware
--------
SoC: Qualcomm IPQ4029
RAM: 512M DDR3
FLASH: - 128MB NAND (Macronix MX30LF1G18AC)
- 4MB SPI-NOR (Macronix MX25R3235F)
TPM: Atmel AT97SC3203
BLE: Texas Instruments CC2540T
attached to ttyMSM0
ETH: Atheros AR8035
LED: System (red / green / amber)
BTN: Reset
The USB port on the device is (in contrast to other Aruba boards) real
USB. The AP uses a CP2101 USB TTY converter on the board.
Console baudrate is 9600 8n1.
To enable a full list of commands in the U-Boot "help" command, execute
the literal "diag" command.
Installation
------------
1. Get the OpenWrt initramfs image. Rename it to ipq40xx.ari and put it
into the TFTP server root directory. Configure the TFTP server to
be reachable at 192.168.1.75/24. Connect the machine running the TFTP
server to the ethernet port of the access point.
2. Connect to the serial console. Interrupt autobooting by pressing
Enter when prompted.
3. Configure the bootargs and bootcmd for OpenWrt.
$ setenv bootargs_openwrt "setenv bootargs console=ttyMSM1,9600n8"
$ setenv nandboot_openwrt "run bootargs_openwrt; ubi part aos1;
ubi read 0x85000000 kernel; bootm 0x85000000"
$ setenv ramboot_openwrt "run bootargs_openwrt;
setenv ipaddr 192.168.1.105; setenv serverip 192.168.1.75;
netget; set fdt_high 0x87000000; bootm"
$ setenv bootcmd "run nandboot_openwrt"
$ saveenv
4. Load OpenWrt into RAM:
$ run ramboot_openwrt
5. After OpenWrt booted, transfer the OpenWrt sysupgrade image to the
/tmp folder on the device.
6. Flash OpenWrt:
Make sure you use the mtd partition with the label "ubi" here!
$ ubidetach -p /dev/mtd1
$ ubiformat /dev/mtd1
$ sysupgrade -n /tmp/openwrt-sysupgrade.bin
To go back to the stock firmware, simply reset the bootcmd in the
bootloader to the original value:
$ setenv bootcmd "boot"
$ saveenv
Signed-off-by: David Bauer <mail@david-bauer.net>
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Cell C RTL30VW is a LTE router with tho gigabit ethernets and integrated
QMI mPCIE modem.
This is stripped version of ASKEY RTL0030VW.
Hardware:
Specification:
-CPU: IPQ4019
-RAM: 256MB
-Flash: NAND 128MB + NOR 16MB
-WiFi: Integrated bgn/ac
-LTE: mPCIe card (Modem chipset MDM9230)
-LAN: 2 Gigabit Ports
-USB: 2x USB2.0
-Serial console: RJ-45 115200 8n1
-Unsupported VoIP
Known issues:
None so far.
Instruction install:
There are two methods: Factory web-gui and serial + tftp.
Web-gui:
1. Apply factory image via stock web-gui.
Serial + initramfs:
1. Rename OpenWrt initramfs image to "image"
2. Connect serial console (115200,8n1)
3. Set IP to different than 192.168.1.11, but 24 bit mask, eg. 192.168.1.4.
4. U-Boot commands:
sf probe && sf read 0x80000000 0x180000 0x10000
setenv serverip 192.168.1.4
set fdt_high 0x85000000
tftpboot 0x84000000 image
bootm 0x84000000
5. Install sysupgrade image via "sysupgrade -n"
Back to stock:
All is needed is swap 0x4c byte in mtd8 from 0 to 1 or 1 to 0,
do firstboot and factory reset with OFW:
1. read mtd8:
dd if=/dev/mtd8 of=/tmp/mtd8
2. go to tmp:
cd /tmp/
3. write first part of partition:
dd if=mtd8 of=mtd8.new bs=1 count=76
4. check which layout uses bootloader:
cat /proc/mtd
5a. If first are kernel_1 and rootfs_1 write 0:
echo -n -e '\x00' >> mtd8.new
5b. If first are kernel and rootfs write 1:
echo -n -e '\x01' >> mtd8.new
6. fill with rest of data:
dd if=mtd8 bs=1 skip=77 >> mtd8.new
7. CHECK IF mtd8.new HAVE CHANGED ONLY ONE BYTE! e.g with:
hexdump mtd8.new
8. write new mtd8 to flash:
mtd write mtd8.new /dev/mtd8
9. do firstboot
10.reboot
11. Do back to factory defaults in OFW GUI.
Based on work: Cezary Jackiewicz <cezary@eko.one.pl>
Signed-off-by: Pawel Dembicki <paweldembicki@gmail.com>
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MobiPromo CM520-79F is an AC1300 dual band router based on IPQ4019
Specification:
SoC/Wireless: QCA IPQ4019
RAM: 512MiB
Flash: 128MiB SLC NAND
Ethernet PHY: QCA8075
Ethernet ports: 1x WAN, 2x LAN
LEDs: 7 LEDs
2 (USB, CAN) are GPIO
other 5 (2.4G, 5G, LAN1, LAN2, WAN) are connected to a shift register
Button: Reset
Flash instruction:
Disassemble the router, connect UART pins like this:
GND TX RX
[x x . . x .]
[. . . . . .]
(QCA8075 and IPQ4019 below)
Baud-rate: 115200
Set up TFTP server: IP 192.168.1.188/24
Power on the router and interrupt the booting with UART console
env backup (in case you want to go back to stock and need it there):
printenv
(Copy the output to somewhere save)
Set bootenv:
setenv set_ubi 'set mtdids nand0=nand0; set mtdparts mtdparts=nand0:0x7480000@0xb80000(fs); ubi part fs'
setenv bootkernel 'ubi read 0x84000000 kernel; bootm 0x84000000#config@1'
setenv cm520_boot 'run set_ubi; run bootkernel'
setenv bootcmd 'run cm520_boot'
setenv bootargs
saveenv
Boot initramfs from TFTP:
tftpboot openwrt-ipq40xx-generic-mobipromo_cm520-79f-initramfs-fit-zImage.itb
bootm
After initramfs image is booted, backup rootfs partition in case of reverting to stock image
cat /dev/mtd12 > /tmp/mtd12.bin
Then fetch it via SCP
Upload nand-factory.ubi to /tmp via SCP, then run
mtd erase rootfs
mtd write /tmp/*nand-factory.ubi rootfs
reboot
To revert to stock image, restore default bootenv in uboot UART console
setenv bootcmd 'bootipq'
printenv
use the saved dump you did back when you installed OpenWrt to verify that
there are no other differences from back in the day.
saveenv
upload the backed up mtd12.bin and run
tftpboot mtd12.bin
nand erase 0xb80000 0x7480000
nand write 0x84000000 0xb80000 0x7480000
The BOOTCONFIG may have been configured to boot from alternate partition (rootfs_1) instead
In case of this, set it back to rootfs:
cd /tmp
cat /dev/mtd7 > mtd7.bin
echo -ne '\x0b' | dd of=mtd7.bin conv=notrunc bs=1 count=1 seek=4
for i in 28 48 68 108; do
dd if=/dev/zero of=mtd7.bin conv=notrunc bs=1 count=1 seek=$i
done
mtd write mtd7.bin BOOTCONFIG
mtd write mtd7.bin BOOTCONFIG1
Signed-off-by: DENG Qingfang <dengqf6@mail2.sysu.edu.cn>
[renamed volume to ubi to support autoboot,
as per David Lam's test in PR#2432]
Signed-off-by: Christian Lamparter <chunkeey@gmail.com>
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Now that check-size uses IMAGE_SIZE by default, we can skip the argument from
image recipes to reduce redundancy.
Signed-off-by: Sungbo Eo <mans0n@gorani.run>
[do not touch ar71xx]
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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Place DEVICE_VARS assignments at the top of the file or above Device/Default
to make them easier to find.
For ramips, remove redundant values already present in parent file.
Signed-off-by: Sungbo Eo <mans0n@gorani.run>
[do not touch ar71xx, extend commit message]
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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${} and $() are exactly the same. Follow the convention of using $().
Signed-off-by: Sungbo Eo <mans0n@gorani.run>
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Generate a cpximg that is compatible with the cpximg loader in Compex' u-boot.
The cpximg loader can be started either by holding the reset button during power
up or by entering the u-boot prompt and entering 'cpximg'.
Once it's running, a TFTP-server under 192.168.1.1 will accept an image
appropriate for the board revision that is etched on the board (e.g. 6A04).
The image can be pushed using tftp:
tftp -v -m binary 192.168.1.1 -c put openwrt-ipq40xx-generic-compex_wpj428-squashfs-cpximg-6a04.bin
cpximg files can also be used with the sysupgrade utility in stock images.
(add SSH key in luci for root access)
In mkmylofw_32m, the calculation of the "partition size" has been preferred
to just padding the partition as this will result in less block transfers
during flashing (while the additional complexity is bearable).
Signed-off-by: Leon M. George <leon@georgemail.eu>
Co-developed-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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This patch adds support for the 8devices Habanero development board.
Specs are:
CPU: QCA IPQ4019
RAM: DDR3L 512MB
Storage: 32MB SPI-NOR and optional Parallel SLC NAND(Some boards ship with it and some without)
WLAN1: 2.4 GHz built into IPQ4019 (802.11n) 2x2
WLAN2: 5 GHz built into IPO4019 (802.11ac Wawe-2) 2x2
Ethernet: 5x Gbit LAN (QCA 8075)
USB: 1x USB 2.0 and 1x USB 3.0 (Both built into IPQ4019)
MicroSD slot (Uses SD controller built into IPQ4019)
SDIO3.0/EMMC slot (Uses the same SD controller)
Mini PCI-E Gen 2.0 slot (Built into IPQ4019)
5x LEDs (4 GPIO controllable)
2x Pushbutton (1 is connected to GPIO, other to SoC reset)
LCD ZIF socket (Uses the LCD controller built into IPQ4019 which has no driver support)
1x UART 115200 rate on J18
2x breakout development headers
12V DC Jack for power
DIP switch for bootstrap configuration
Installation instructions:
Since boards ship with vendors fork of OpenWrt sysupgrade can be used.
Signed-off-by: Robert Marko <robimarko@gmail.com>
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SOC: IPQ4019 / QCA Dakota
CPU: Quad-Core ARMv7 Processor rev 5 (v7l) Cortex-A7
DRAM: 256 MiB
FLASH: NOR 4 MiB + NAND 128 MiB
ETH: Qualcomm Atheros QCA8072
WLAN1: Qualcomm Atheros QCA4019 2.4GHz 802.11bgn 2:2x2
WLAN2: Qualcomm Atheros QCA4019 5GHz 802.11a/n/ac 2:2x2
WLAN2: Qualcomm Atheros QCA9888 5GHz 802.11a/n/ac 2:2x2
INPUT: WPS Button
LEDS: Power, LAN1, LAN2, WLAN 2.4GHz, WLAN 5GHz-1, WLAN 5GHz-2, OPMODE
1. Load Ramdisk via U-Boot
To set up the flash memory environment, do the following:
a. As a preliminary step, ensure that the board console port is connected to the PC using these RS232 parameters:
* 115200bps
* 8N1
b. Confirm that the PC is connected to the board using one of the Ethernet ports.
c. Set a static ip 192.168.99.8 for Ethernet that connects to board.
d. The PC must have a TFTP server launched and listening on the interface to which the board is connected.
e. At this stage power up the board and, after a few seconds, press 4 and then any key during the countdown.
U-BOOT> set serverip 192.168.99.9 && tftpboot 0x84000000 192.168.99.8:openwrt.itb && bootm
Signed-off-by: Steven Lin <steven.lin@senao.com>
[copied 4.19 dts to 5.4]
Signed-off-by: Christian Lamparter <chunkeey@gmail.com>
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SOC: IPQ4018 / QCA Dakota
CPU: Quad-Core ARMv7 Processor rev 5 (v7l) Cortex-A7
DRAM: 256 MiB
NOR: 32 MiB
ETH: Qualcomm Atheros QCA8072 (1 port)
WLAN1: Qualcomm Atheros QCA4018 2.4GHz 802.11bgn 2:2x2
WLAN2: Qualcomm Atheros QCA4018 5GHz 802.11a/n/ac 2:2x2
INPUT: RESET Button
LEDS: White, Blue, Red, Orange
Flash instruction:
From EnGenius firmware to OpenWrt firmware:
In Firmware Upgrade page, upgrade your openwrt-ipq40xx-generic-engenius_emd1-squashfs-factory.bin directly.
From OpenWrt firmware to EnGenius firmware:
1. Setup a TFTP server on your computer and configure static IP to 192.168.99.8
Put the EnGenius firmware in the TFTP server directory on your computer.
2. Power up EMD1. Press 4 and then press any key to enter u-boot.
3. Download EnGenius firmware
(IPQ40xx) # tftpboot 0x84000000 openwrt-ipq40xx-emd1-nor-fw-s.img
4. Flash the firmware
(IPQ40xx) # imgaddr=0x84000000 && source 0x84000000:script
5. Reboot
(IPQ40xx) # reset
Signed-off-by: Yen-Ting-Shen <frank.shen@senao.com>
[removed BOARD_NAME]
Signed-off-by: Christian Lamparter <chunkeey@gmail.com>
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Specifications
==============
- SOC: IPQ4018
- RAM: DDR3 256MB
- Flash: SPI NOR 16MB
- WiFi:
- 2.4GHz: IPQ4018, 2x2, front end SKY85303-11
- 5GHz: IPQ4018, 2x2, front end SKY85717-21
- Ethernet: 1x 10/100/1000Mbps, POE 802.3af
- PHY: QCA8072
- UART: GND, blocked, 3.3V, RX, TX / 115200 8N1
- LED: 1x red / green
- Button: 1x reset / factory default
- U-Boot bootloader with tftp and "emergency web server" accessible
using serial port.
Installation
============
Flash factory image from D-Link web UI. Constraints in the D-Link web UI
makes the factory image unnecessarily large. Flash again using
sysupgrade from inside OpenWrt to reclaim some flash space.
Return to stock D-Link firmware
===============================
Partition layout is preserved, and it is possible to return to the stock
firmware simply by downloading it from D-Link and writing it to the
firmware partition.
# mtd -r write dap2610-firmware.bin firmware
Quirks
======
To be flashable from the D-Link http server, the firmware must be larger
then 6MB, and the size in the firmware header must match the actual file
size. Also, the boot loader verifies the checksum of the firmware before
each boot, thus the jffs2 must be after the checksum covered part. This
is solved in the factory image by having the rootfs at the very end of
the image (without pad-rootfs).
The sysupgrade image which does not have to be flashable from the D-Link
web UI may be smaller, and the checksum in the firmware header only
covers the kernel part of the image.
Signed-off-by: Fredrik Olofsson <fredrik.olofsson@anyfinetworks.com>
[added WRGG Variables to DEVICE_VARS, squashed spi pinconf/mux,
added emd1's gmac0 config,fix dtc warnings]
Signed-off-by: Christian Lamparter <chunkeey@gmail.com>
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The Aruba AP-303H is the hospitality version of the Aruba AP-303 with a
POE-passthrough enabled ethernet switch instead of a sigle PHY.
Hardware
--------
SoC: Qualcomm IPQ4029
RAM: 512M DDR3
FLASH: - 128MB SPI-NAND (Macronix)
- 4MB SPI-NOR (Macronix MX25R3235F)
TPM: Atmel AT97SC3203
BLE: Texas Instruments CC2540T
attached to ttyMSM1
ETH: Qualcomm QCA8075
LED: WiFi (amber / green)
System (red / green /amber)
PSE (green)
BTN: Reset
USB: USB 2.0
To connect to the serial console, you can solder to the labled pads next
to the USB port or use your Aruba supplied UARt adapter.
Do NOT plug a standard USB cable into the Console labled USB-port!
Aruba/HPE simply put UART on the micro-USB pins. You can solder yourself
an adapter cable:
VCC - NC
D+ - TX
D- - RX
GND - GND
The console setting in bootloader and OS is 9600 8N1. Voltage level is
3.3V.
To enable a full list of commands in the U-Boot "help" command, execute
the literal "diag" command.
Installation
------------
1. Get the OpenWrt initramfs image. Rename it to ipq40xx.ari and put it
into the TFTP server root directory. Configure the TFTP server to
be reachable at 192.168.1.75/24. Connect the machine running the TFTP
server to the E0 (!) ethernet port of the access point, as it only
tries to pull from the WAN port.
2. Connect to the serial console. Interrupt autobooting by pressing
Enter when prompted.
3. Configure the bootargs and bootcmd for OpenWrt.
$ setenv bootargs_openwrt "setenv bootargs console=ttyMSM0,9600n8"
$ setenv nandboot_openwrt "run bootargs_openwrt; ubi part aos1;
ubi read 0x85000000 kernel; set fdt_high 0x87000000;
bootm 0x85000000"
$ setenv ramboot_openwrt "run bootargs_openwrt;
setenv ipaddr 192.168.1.105; setenv serverip 192.168.1.75;
netget; set fdt_high 0x87000000; bootm"
$ setenv bootcmd "run nandboot_openwrt"
$ saveenv
4. Load OpenWrt into RAM:
$ run ramboot_openwrt
5. After OpenWrt booted, transfer the OpenWrt sysupgrade image to the
/tmp folder on the device. You will need to plug into E1-E3 ports of
the access point to reach OpenWrt, as E0 is the WAN port of the
device.
6. Flash OpenWrt:
$ ubidetach -p /dev/mtd16
$ ubiformat /dev/mtd16
$ sysupgrade -n /tmp/openwrt-sysupgrade.bin
To go back to the stock firmware, simply reset the bootcmd in the
bootloader to the original value:
$ setenv bootcmd "boot"
$ saveenv
Signed-off-by: David Bauer <mail@david-bauer.net>
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Hardware:
SOC: Qualcomm IPQ4018
RAM: 128 MB Nanya NT5CC64M16GP-DI
FLASH: 16 MB Macronix MX25L12805D
ETH: Qualcomm QCA8075 (4 Gigabit ports, 3xLAN, 1xWAN)
WLAN: Qualcomm IPQ4018 (2.4 & 5 Ghz)
BUTTON: Shared WPS/Reset button
LED: RGB Status/Power LED
SERIAL: Header J8 (UART, Left side of board). Numbered from
top to bottom:
(1) GND, (2) TX, (3) RX, (4) VCC (White triangle
next to it).
3.3v, 115200, 8N1
Tested/Working:
* Ethernet
* WiFi (2.4 and 5GHz)
* Status LED
* Reset Button (See note below)
Implementation notes:
* The shared WPS/Reset button is implemented as a Reset button
* I could not find a original firmware image to reverse engineer, meaning
currently it's not possible to flash OpenWrt through the Web GUI.
Installation (Through Serial console & TFTP):
1. Set your PC to fixed IP 192.168.1.12, Netmask 255.255.255.0, and connect to
one of the LAN ports
2. Rename the initramfs image to 'C0A8010B.img' and enable a TFTP server on
your pc, to serve the image
2. Connect to the router through serial (See connection properties above)
3. Hit a key during startup, to pause startup
4. type `setenv serverip 192.168.1.12`, to set the tftp server address
5. type `tftpboot`, to load the image from the laptop through tftp
6. type `bootm` to run the loaded image from memory
6. (If you want to return to stock firmware later, create an full MTD backup,
e.g. using instructions here https://openwrt.org/docs/guide-user/installation/generic.backup#create_full_mtd_backup)
7. Transfer the 'sysupgrade' OpenWrt firmware image from PC to router, e.g.:
`scp xxx-squashfs-sysupgrade.bin root@192.168.1.1:/tmp/upgrade.bin`
8. Run sysupgrade to permanently install OpenWrt to flash: `sysupgrade -n /tmp/upgrade.bin`
Revert to stock:
To revert to stock, you need the MTD backup from step 6 above:
1. Unpack the MTD backup archive
2. Transfer the 'firmware' partition image to the router (e.g. mtd8_firmware.backup)
3. On the router, do `mtd write mtd8_firmware.backup firmware`
Signed-off-by: Tom Brouwer <tombrouwer@outlook.com>
[removed BOARD_NAME, OpenWRT->OpenWrt, changed LED device name to board name]
Signed-off-by: Christian Lamparter <chunkeey@gmail.com>
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This patch uses the SOC variable to calculate DTS names automatically
based on the SOC and the device definition node name.
This reduces redundancy and (by having to choose DTS name
appropriately) will unify the naming of a device in different places
(image/Makefile, DTS name, compatible, image name). This is supposed
to make life easier for developers and reviewers.
Since the kernel uses a "soc-device.dts" scheme for this target, we
use this for the derivation of DEVICE_DTS, too, and rename the files
not having followed it so far.
Note that for some devices the kernel itself is inconsistent, leaving
us with a manual overwrite for ap.dk01.1-c1 and ap.dk04.1-c1.
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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Signed-off-by: Paul Fertser <fercerpav@gmail.com>
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Hardware
--------
SoC: Qualcomm IPQ4029
RAM: 512M DDR3
FLASH: - 128MB NAND (Macronix MX30LF1G18AC)
- 4MB SPI-NOR (Macronix MX25R3235F)
TPM: Atmel AT97SC3203
BLE: Texas Instruments CC2540T
attached to ttyMSM0
ETH: Atheros AR8035
LED: WiFi (amber / green)
System (red / green)
BTN: Reset
To connect to the serial console, you can solder to the labled pads next
to the USB port or use your Aruba supplied UARt adapter.
Do NOT plug a standard USB cable into the Console labled USB-port!
Aruba/HPE simply put UART on the micro-USB pins. You can solder yourself
an adapter cable:
VCC - NC
D+ - TX
D- - RX
GND - GND
The console setting in bootloader and OS is 9600 8N1. Voltage level is
3.3V.
To enable a full list of commands in the U-Boot "help" command, execute
the literal "diag" command.
Installation
------------
1. Get the OpenWrt initramfs image. Rename it to ipq40xx.ari and put it
into the TFTP server root directory. Configure the TFTP server to
be reachable at 192.168.1.75/24. Connect the machine running the TFTP
server to the ethernet port of the access point.
2. Connect to the serial console. Interrupt autobooting by pressing
Enter when prompted.
3. Configure the bootargs and bootcmd for OpenWrt.
$ setenv bootargs_openwrt "setenv bootargs console=ttyMSM1,9600n8"
$ setenv nandboot_openwrt "run bootargs_openwrt; ubi part aos1;
ubi read 0x85000000 kernel; bootm 0x85000000"
$ setenv ramboot_openwrt "run bootargs_openwrt;
setenv ipaddr 192.168.1.105; setenv serverip 192.168.1.75;
netget; set fdt_high 0x87000000; bootm"
$ setenv bootcmd "run nandboot_openwrt"
$ saveenv
4. Load OpenWrt into RAM:
$ run ramboot_openwrt
5. After OpenWrt booted, transfer the OpenWrt sysupgrade image to the
/tmp folder on the device.
6. Flash OpenWrt:
$ ubidetach -p /dev/mtd1
$ ubiformat /dev/mtd1
$ sysupgrade -n /tmp/openwrt-sysupgrade.bin
To go back to the stock firmware, simply reset the bootcmd in the
bootloader to the original value:
$ setenv bootcmd "boot"
$ saveenv
Signed-off-by: David Bauer <mail@david-bauer.net>
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MeshPoint.One is Wi-Fi hotspot and smart IoT gateway (based upon
Jalapeno module from 8Devices).
MeshPoint.One (https://meshpointone.com) is a unique Wi-Fi hotspot and
smart city gateway that can be installed and powered from street
lighting (even solar power in the future). MeshPoint provides up to 27
hours of interrupted Wi-Fi and IoT services from internal battery even
when external power is not available. MeshPoint.One can be used for
disaster relief efforts in order to provide instant Wi-Fi coverage that
can be easily expanded by just adding more devices that create wide area
mesh network. MeshPoint.One devices have standard Luci UI for
management.
Features:
- 1x 1Gpbs WAN
- 1x 1Gbps LAN
- POE input (eth0)
- POE output (eth1)
- Sensor for temperature, humidity and pressure (Bosch BME280)
- current, voltage and power measurement via TI INA230
- Hardware real time clock
- optional power via Li-Ion battery
- micro USB port with USB to serial chip for easy OpenWrt terminal
access
- I2C header for connecting additional sensors
Installation:
-------------
Simply flash the sysupgrade image from stock firmware.
Or use the built in Web recovery into bootloader:
Hold Reset button for 5 to 20 seconds or use UART and httpd command.
Web UI will appear on 192.168.2.100 by default.
For web recovery use the factory.ubi image.
Signed-off-by: Damir Samardzic <damir.samardzic@sartura.hr>
Signed-off-by: Damir Franusic <damir.franusic@sartura.hr>
Signed-off-by: Valent Turkovic <valent@meshpoint.me>
Signed-off-by: Robert Marko <robert@meshpoint.me>
[commit description long line wrap, usb->USB]
Signed-off-by: Petr Štetiar <ynezz@true.cz>
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This cosmetical patch converts IMAGE_SIZE, KERNEL_SIZE and
BLOCKSIZE definitions to kilobytes, as this is consistent and
easier to read/type.
An exception was made for asus_rt-ac58u, where the IMAGE_SIZE of
20439364 cannot be divided by 1024 (and also does not seem to
match anything in DTS).
Build-tested for all devices.
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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This device contains 2 flash devices. One NOR (32M) and one NAND (128M).
U-boot and caldata are on the NOR, the firmware on the NAND.
SoC: IPQ4019
CPU: 4x 710MHz ARMv7
RAM: 256MB
FLASH: NOR:32MB NAND:128MB
ETH: 2x GMAC Gigabit
POE: 802.3 af/at POE, IEEE802.3af/IEEE802.3at(48-56V)
WIFI: 1x 2.4Ghz Atheros qca4019 2x2 MU-MIMO
1x 5.0Ghz Atheros qca4019 2x2 MU-MIMO
USB: 1x 3.0
PCI: 1x Mini PCIe
SIM: 1x Slot
SD: 1x MicroSD slot
BTN: Reset
LED: - Power
- Ethernet
UART: 1x Serial Port 4 Pin Connector (UART)
1x Serial Port 6 Pin Connector (High Speed UART)
POWER: 12V 2A
Installation
------------
Initial flashing can only be done via u-boot using the following commands:
tftpboot openwrt-ipq40xx-generic-compex_wpj419-squashfs-nand-factory.ubi
nand erase.chip; nand write ${fileaddr} 0x0 ${filesize}
res
Signed-off-by: Daniel Danzberger <daniel@dd-wrt.com>
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If flash size is used as part of a device's title, it should be
specified as DEVICE_VARIANT like for the other devices so far.
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
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Hardware
--------
SoC: Qualcomm IPQ4019
RAM: 256M DDR3
FLASH: 128M NAND
WiFi: 2T2R IPQ4019 bgn
2T2R IPQ4019 a/n/ac
ETH: Atheros AR8033 RGMII PHY
BTN: 1x Connect (WPS)
LED: Power (green/red/yellow)
Installation
------------
1. Grab the uboot for the Device from the 'u-boot-fritz1200'
subdirectory. Place it in the same directory as the 'eva_ramboot.py'
script. It is located in the 'scripts/flashing' subdirectory of the
OpenWRT tree.
2. Assign yourself the IP address 192.168.178.10/24. Connect your
Computer to one of the boxes LAN ports.
3. Connect Power to the Box. As soon as the LAN port of your computer
shows link, load the U-Boot to the box using following command.
> ./eva_ramboot.py --offset 0x85000000 192.168.178.1 uboot-fritz1200.bin
4. The U-Boot will now start. Now assign yourself the IP address
192.168.1.70/24. Copy the OpenWRT initramfs (!) image to a TFTP
server root directory and rename it to 'FRITZ1200.bin'.
5. The Box will now boot OpenWRT from RAM. This can take up to two
minutes.
6. Copy the U-Boot and the OpenWRT sysupgrade (!) image to the Box using
scp. SSH into the Box and first write the Bootloader to both previous
kernel partitions.
> mtd write /path/to/uboot-fritz1200.bin uboot0
> mtd write /path/to/uboot-fritz1200.bin uboot1
7. Remove the AVM filesystem partitions to make room for our kernel +
rootfs + overlayfs.
> ubirmvol /dev/ubi0 --name=avm_filesys_0
> ubirmvol /dev/ubi0 --name=avm_filesys_1
8. Flash OpenWRT peristently using sysupgrade.
> sysupgrade -n /path/to/openwrt-sysupgrade.bin
Signed-off-by: David Bauer <mail@david-bauer.net>
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This commit adds support for the 32MB storage/512MB RAM version of the U4019
IPQ4019-based board from Unielec. The board has the following specifications:
* Qualcomm IPQ4019 (running at 717MHz)
* 512MB DDR3 RAM (optional 256MB/1GB)
* 32MB SPI NOR (optional 8/16MB or NAND)
* Five gigabit ports (Qualcomm QCA8075)
* 1x 2.4 GHz wifi (QCA4019 hw1.0)
* 1x 5 Ghz wifi (QCA4019 hw1.0)
* 1x mini-PCIe slot (only USB-pins connected)
* 1x SIM slot (mini-SIM)
* 1x USB2.0 port
* 1x button
* 1x controllable LED
* 1x micro SD-card reader
Working:
* Ethernet
* Wifi
* USB-port
* mini-PCIe slot + SIM slot
* Button
* Sysupgrade
Not working:
* SD card slot (no upstream support)
Installation instructions:
In order to install OpenWRT on the U4019, you need to go via the
initramfs-image. The installation steps are as follows:
* Connect to board via serial (header exposed and clearly marked).
* Interrupt bootloader by pressing a button.
* Copy the initramfs-image to your tftp folder, call the file C0A80079.img.
* Give the network interface connected to the U4019 the address
192.168.0.156/24.
* Start your tftp-server and run tftpboot on the board.
* Run bootm when the file has been transferred, to boot OpenWRT.
* Once OpenWRT has booted, copy the sysupgrade-image to the device and run
sysupgrade to install OpenWRT on the U4019.
Notes:
- Since IPQ4019 has been moved to 4.19, I have not added support for kernel
4.14.
- There is a bug with hardware encryption on IPQ4019, causing poor performance
with TCP and ipsec (see for example FS#2355). In order to improve performance,
I have disabled hardware encryption in the DTS. We can enable hw. enc. once/if
bug is fixed.
- In order for Ethernet to work, the phy has to be reset by setting gpio 47
low/high. Adding support for phy reset via gpio required patching the
mdio-driver, and the code added comes from the vendor driver. I do not know if
patching the driver is an acceptable approach or not.
v1->v2:
* Do not use wildcard as identifier in the board.d-scripts (thanks
Adrian Schmutzler).
Signed-off-by: Kristian Evensen <kristian.evensen@gmail.com>
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Harri Hursti reported that ALFA Network AP120C-AC does not
work anymore due to: "Unknown package 'ipq-wifi-alfa-network_ap120c-ac'."
This patch fixes the issue by removing the stale package from
the device's dependencies as the calibration data is now
provided by the upstream board-2.bin.
Reported-by: Harri Hursti <harri@nordicinnovationlabs.com>
Fixes: 8f757d427cce ("ipq-wifi: drop upstreamed custom board-2.bin")
Signed-off-by: Christian Lamparter <chunkeey@gmail.com>
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The BDFs for the:
ALFA Network AP120C-AC
ASUS Lyra
AVM FRITZ!Box 7530
AVM FRITZ!Repeater 3000
EnGenius EAP1300
EnGenius ENS620EXT
Netgear Orbi Pro SRK60
boards were upstreamed to the ath10k-firmware repository
and linux-firmware.git.
Furthermore the BDFs for the:
OpenMesh A42 specific BDFs
OpenMesh A62 specific BDFs
Linksys EA6350v3
have been updated.
Signed-off-by: Christian Lamparter <chunkeey@gmail.com>
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Additionally, fix some vendor and board names
Signed-off-by: Luis Araneda <luaraneda@gmail.com>
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The Linksys EA8300 is based on QCA4019 and QCA9888 and provides three,
independent radios. NAND provides two, alternate kernel/firmware
images with fail-over provided by the OEM U-Boot.
Installation:
"Factory" images may be installed directly through the OEM GUI.
Hardware Highlights:
* IPQ4019 at 717 MHz (4 CPUs)
* 256 MB NAND (Winbond W29N02GV, 8-bit parallel)
* 256 MB RAM
* Three, fully-functional radios; `iw phy` reports (FCC/US, -CT):
* 2.4 GHz radio at 30 dBm
* 5 GHz radio on ch. 36-64 at 23 dBm
* 5 GHz radio on ch. 100-144 at 23 dBm (DFS), 149-165 at 30 dBm
#{ managed } <= 16, #{ AP, mesh point } <= 16, #{ IBSS } <= 1
* All two-stream, MCS 0-9
* 4x GigE LAN, 1x GigE Internet Ethernet jacks with port lights
* USB3, single port on rear with LED
* WPS and reset buttons
* Four status lights on top
* Serial pads internal (unpopulated)
"Linksys Dallas WiFi AP router based on Qualcomm AP DK07.1-c1"
Implementation Notes:
The OEM flash layout is preserved at this time with 3 MB kernel and
~69 MB UBIFS for each firmware version. The sysdiag (1 MB) and
syscfg (56 MB) partitions are untouched, available as read-only.
Serial Connectivity:
Serial connectivity is *not* required to flash.
Serial may be accessed by opening the device and connecting
a 3.3-V adapter using 115200, 8n1. U-Boot access is good,
including the ability to load images over TFTP and
either run or flash them.
Looking at the top of the board, from the front of the unit,
J3 can be found on the right edge of the board, near the rear
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J3 |
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|O| | (3.3V seen, open-circuit)
|O| | TXD
|O| | RXD
|O| |
|O| | GND
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Unimplemented:
* serial1 "ttyQHS0" (serial0 works as console)
* Bluetooth; Qualcomm CSR8811 (potentially conected to serial1)
Other Notes:
https://wikidevi.com/wiki/Linksys_EA8300 states
FCC docs also cover the Linksys EA8250. According to the
RF Test Report BT BR+EDR, "All models are identical except
for the EA8300 supports 256QAM and the EA8250 disable 256QAM."
Signed-off-by: Jeff Kletsky <git-commits@allycomm.com>
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