There is no reason not to wire up the default netdev trigger for the SFP
LED since we have a separate SFP interface visible.
Link: https://github.com/openwrt/openwrt/pull/15927
Signed-off-by: Robert Marko <robimarko@gmail.com>
Currently, QCA8081 LED is never configured and the default configuration
has the LED polarity inverted so it will be lit when there is nothing
connected to the PHY.
So lets define the LED as active-low and configure the trigger via 01_leds.
Fixes: 85d9fd6f0e ("mvebu: add support for RB5009UG+S+IN")
Link: https://github.com/openwrt/openwrt/pull/15927
Signed-off-by: Robert Marko <robimarko@gmail.com>
This patch adds support for Mikrotik RB5009UG+S+IN.
Specifications:
- SoC: Marvell Armada 7040 (88F7040) - 4 cores, ARMv8 Cortex-A72, 1.4GHz, 64bit
- RAM: 1024MB DDR4
- Flash: 16MB SPI NOR flash, 1024MB NAND
- Ethernet:
* Marvell 88E6393X - Amethyst:
* one 2.5G RJ45 port via Qualcomm QCA8081 PHY
* seven 1G RJ45 ports via built-in PHY-s
* one 10G SFP+ cage
* All ports share the same 10G switch uplink to the CPU
- LED: User, SFP, Hdr1, Hdr2
- Buttons: Reset
- UART: 115200 8n1 on the MikroTik 16 pin header
- USB: One USB3 port
- Power: 24-57 V via
* DC jack
* 802.3af/at PoE on Ethernet 1
* 2-pin terminal on the side
16 Pin header pinout:
1 GND Vcc RX ? GND
#--------------------#
|.-. .-. .-. .-. .-. |
|'-' '-' '-' '-' '-' |
|.-. .-. .-. .-. .-. |
|'-' '-' '-' '-' '-' |
#--------------------#
2 CLK DO /CS TX DI
Do note that the default RouterBoot has disabled UART even when the
required hard-config bit is set to indicate UART support.
Patched RouterBoot must be used if UART is desired.
Also, since ARM64 Linux support does not support in any way appending the
DTB to the kernel image we use mainline U-Boot with added RB5009 support
in order to boot OpenWrt.
MikroTik uses YAFFS to store the boot kernel and we use YAFUT to put U-Boot
as the kernel which RouterBoot then simply boots as an ELF.
Install instructions:
NOTE: In case you are using an existing out of tree version of OpenWrt make
sure to reinstall RouterOS via Netinstall to return the expected partition
layout.
1. Prepare FAT or EXT4 formatted USB drive with OpenWrt initramfs:
* Copy bin/targets/mvebu/cortexa72/openwrt-mvebu-cortexa72-mikrotik_rb5009-initramfs-uImage.itb
to the root of FAT or EXT4 formatted USB drive.
* Plug in the drive to the RB5009 USB port
2. Boot the modified OpenWrt built U-Boot ELF:
u-boot.elf from bin/targets/mvebu/cortexa72/u-boot-rb5009/u-boot.elf
Consult OpenWrt wiki for common instructions on switching to boot from
Ethernet once as well as serving the file:
https://openwrt.org/toh/mikrotik/common
Once U-Boot is booted it will attempt to boot in the following order:
1. NAND
2. USB
3. Network
NAND is expected to fail but USB or Networking need to serve the OpenWrt
initramfs image and after booting it will be accessible from LAN ports
on the default 192.168.1.1 IP with default credentials.
3. Flash modified RouterBoot that enables UART (Optional but recommended):
https://public.robimarko.eu/RB5009/70x0-7.15-uart.fwf
* Copy the file over to the booted OpenWrt initramfs to /tmp
* Run: mtd erase RouterBOOT-primary
* Run: mtd write /tmp/70x0-7.15-uart.fwf RouterBOOT-primary
4. Install U-Boot to boot OpenWrt:
* Copy the u-boot.elf from bin/targets/mvebu/cortexa72/u-boot-rb5009/u-boot.elf
to OpenWrt initramfs to /tmp.
* Run: . /lib/functions.sh
* Run: yafut -d /dev/mtd$(find_mtd_index "YAFFS") -w -i /tmp/u-boot.elf -o kernel -T
This will use yafut to copy the U-Boot as kernel in YAFFS so that RouterBoot boots it.
5. Wipe the NAND UBI partition:
* Run: ubiformat /dev/mtd$(find_mtd_index "ubi") -y
This will prepare the existing RouterOS rootfs partition for OpenWrt.
6. Flash OpenWrt:
* Copy the bin/targets/mvebu/cortexa72/openwrt-mvebu-cortexa72-mikrotik_rb5009-squashfs-sysupgrade.bin
to OpenWrt initramfs to /tmp.
* Run: sysupgrade /tmp/openwrt-mvebu-cortexa72-mikrotik_rb5009-squashfs-sysupgrade.bin
Device will reboot, boot U-Boot and then OpenWrt.
Recovery:
In case you need to reinstall OpenWrt if it crashes after U-Boot, there is
a recovery mechanism in OpenWrt to boot the OpenWrt initramfs.
You need to hold the reset button while U-Boot is booting and then it will
boot the OpenWrt initramfs from:
1. USB
2. Networking
In recovery mode U-Boot will light all of the LED-s except for the switch
ones.
In case you want to return to RouterOS, you can simply do that via
Netinstall like on any other MikroTik board.
Credits also go to Serhii Serhieiev <adron@mstnt.com> who origininally
figured out the RouterBoot modification for UART, the missing 10G MVPP2
support in U-Boot as well as the custom aux loader to boot directly via
RouterBoot.
Link: https://github.com/openwrt/openwrt/pull/15765
Signed-off-by: Robert Marko <robimarko@gmail.com>
The sysupgrade formware of the Puzzle series is a slightly strange
dual-boot approach while remaining compatible with Marvell's SDK
firmware upgrade binary format -- which happens to be a full-disk
image with GPT partition table. Hence that /lib/upgrade/emmc-puzzle.sh
script is like an exotic disease which results from those decisions,
and as we also want to somehow stay compatible with the IEI-World
stock firmware we got to use it in that same way (we are not
compatible with the QNAP-branded identical hardware device anyway).
Currently, on sysupgrade the result is that one ends up with the old
content of rootfs_data (a GPT partition on those devices) as nothing
ever wipes or in any way re-creates the filesystem there. As a simple
work-around, let's kill the filesystem on rootfs_data so fstools
re-formats it on the next boot.
Signed-off-by: Daniel Golle <daniel@makrotopia.org>
The SolidRun ClearFog Pro is a router based on the SolidRun CN9130 SOM.
Specs:
- SoC: Quad-Core Cortex-A72 CN9130 SoC
- RAM: 4GiB DDR4
- Serial: Micro-USB port on front (FT232R, 115200 8n1)
- Storage: 8GiB eMMC, microSD card slot, 8MiB SPI NOR flash
- Ethernet: 7x GbE (1 port dedicated on SoC, 6 port switch with single GbE CPU port)
- SFP: 1x SFP+
- USB: 1x USB-A 3.1 Gen 1
- PCIe: 2x mini PCIe (one slot with USB and SIM card socket)
- SATA: 1x M.2 Key-B
In addition to the usual connectivity options this device also features
an internal mikroBUS expansion connector.
SATA is currently untested due to lack of a suitable M.2 SSD.
Installation
============
1. Write sdcard sysupgrade image to microSD card using dd or similar
2. Insert microSD card into router and apply power
3. Device boots into OpenWRT
4. (optional) dd sysupgrade image to /dev/mmcblk0 to install to eMMC
Signed-off-by: Tobias Schramm <tobias@t-sys.eu>
ClearFog GT 8K is device sold by SolidRun. It is marketed as a
development board, not a consumer product. The device tree file for this board
is upstream in kernel.org.
Signed-off-by: Logan Blyth <mrbojangles3@gmail.com>
Fix default network configuration of the Puzzle-M902 so all LAN ports
are included in the LAN bridge.
Setup network LED to indicate WAN port link status, like vendor
firmware does as well.
Signed-off-by: Daniel Golle <daniel@makrotopia.org>
Globalscale MOCHAbin is a Armada 7040 based development board.
Specifications:
* Armada 7040 Quad core ARMv8 Cortex A-72 @ 1.4GHz
* 2 / 4 / 8 GB of DDR4 DRAM
* 16 GB eMMC
* 4MB SPI-NOR (Bootloader)
* 1x M.2-2280 B-key socket (for SSD expansion, SATA3 only)
* 1x M.2-2250 B-key socket (for modems, USB2.0 and I2C only)
* 1x Mini-PCIe 3.0 (x1, USB2.0 and I2C)
* 1x SATA 7+15 socket (SATA3)
* 1x 16-pin (2×8) MikroBus Connector
* 1x SIM card slot (Connected to the mini-PCIe and both M.2 slots)
* 2x USB3.0 Type-A ports via SMSC USB5434B hub
* Cortex 2x5 JTAG
* microUSB port for UART (PL2303GL/PL2303SA onboard)
* 1x 10G SFP+
* 1x 1G SFP (Connected to 88E1512 PHY)
* 1x 1G RJ45 with PoE PD (Connected to 88E1512 PHY)
* 4x 1G RJ45 ports via Topaz 88E6141 switch
* RTC with battery holder (SoC provided, requires CR2032 battery)
* 1x 12V DC IN
* 1x Power switch
* 1x 12V fan header (3-pin, power only)
* 1x mini-PCIe LED header (2x0.1" pins)
* 1x M.2-2280 LED header (2x0.1" pins)
* 6x Bootstrap jumpers
* 1x Power LED (Green)
* 3x Tri-color RGB LEDs (Controllable)
* 1x Microchip ATECC608B secure element
Note that 1G SFP and 1G WAN cannot be used at the same time as they are in
parallel connected to the same PHY.
Installation:
Copy dtb from build_dir to bin/ and run tftpserver there:
$ cp ./build_dir/target-aarch64_cortex-a72_musl/linux-mvebu_cortexa72/image-armada-7040-mochabin.dtb bin/targets/mvebu/cortexa72/
$ in.tftpd -L -s bin/targets/mvebu/cortexa72/
Connect to the device UART via microUSB port and power on the device.
Power on the device and hit any key to stop the autoboot.
Set serverip (host IP) and ipaddr (any free IP address on the same subnet), e.g:
$ setenv serverip 192.168.1.10 # Host
$ setenv ipaddr 192.168.1.15 # Device
Set the ethernet device (Example for the 1G WAN):
$ setenv ethact mvpp2-2
Ping server to confirm network is working:
$ ping $serverip
Using mvpp2-2 device
host 192.168.1.15 is alive
Tftpboot the firmware:
$ tftpboot $kernel_addr_r openwrt-mvebu-cortexa72-globalscale_mochabin-initramfs-kernel.bin
$ tftpboot $fdt_addr_r image-armada-7040-mochabin.dtb
Boot the image:
$ booti $kernel_addr_r - $fdt_addr_r
Once the initramfs is booted, transfer openwrt-mvebu-cortexa72-globalscale_mochabin-squashfs-sdcard.img.gz
to /tmp dir on the device.
Gunzip and dd the image:
$ gunzip /tmp/openwrt-mvebu-cortexa72-globalscale_mochabin-squashfs-sdcard.img.gz
$ dd if=/tmp/openwrt-mvebu-cortexa72-globalscale_mochabin-squashfs-sdcard.img of=/dev/mmcblk0 && sync
Reboot the device.
Hit any key to stop the autoboot.
Reset U-boot env and set the bootcmd:
$ env default -a
$ setenv bootcmd 'load mmc 0 ${loadaddr} boot.scr && source ${loadaddr}'
Optionally I would advise to edit the console env variable to remove earlycon as that
causes the kernel to never use the driver for the serial console.
Earlycon should be used only for debugging before the kernel can configure the console
and will otherwise cause various issues with the console.
$ setenv console 'console=ttyS0,115200'
Save and reset
$ saveenv
$ reset
OpenWrt should boot from eMMC now.
Signed-off-by: Robert Marko <robert.marko@sartura.hr>
While an image layout based on MBR and 'bootfs' partition may be easy
to understand for users who are very used to the IBM PC and always have
the option to access the SD card outside of the device (and hence don't
really depend on other recovery methods or dual-boot), in my opinion
it's a dead end for many desirable features on embedded systems,
especially when managed remotely (and hence without an easy option to
access the SD card using another device in case things go wrong, for
example).
Let me explain:
* using a MSDOS/VFAT filesystem to store kernel(s) is problematic, as a
single corruption of the bootfs can render the system into a state
that it no longer boots at all. This makes dual-boot useless, or at
least very tedious to setup with then 2 independent boot partitions
to avoid the single point of failure on a "hot" block (the FAT index
of the boot partition, written every time a file is changed in
bootfs). And well: most targets even store the bootloader environment
in a file in that very same FAT filesystem, hence it cannot be used
to script a reliable dual-boot method (as loading the environment
itself will already fail if the filesystem is corrupted).
* loading the kernel uImage from bootfs and using rootfs inside an
additional partition means the bootloader can only validate the
kernel -- if rootfs is broken or corrupted, this can lead to a reboot
loop, which is often a quite costly thing to happen in terms of
hardware lifetime.
* imitating MBR-boot behavior with a FAT-formatted bootfs partition
(like IBM PC in the 80s and 90s) is just one of many choices on
embedded targets. There are much better options with modern U-Boot
(which is what we use and build from source for all targets booting
off SD cards), see examples in mediatek/mt7622 and mediatek/mt7623.
Hence rename the 'sdcard' feature to 'legacy-sdcard', and prefix
functions with 'legacy_sdcard_' instead of 'sdcard_'.
Tested-by: Stijn Tintel <stijn@linux-ipv6.be>
Signed-off-by: Daniel Golle <daniel@makrotopia.org>
Now that we have a generic sdcard upgrade method, which was copied from
the mvebu platform method, we can switch mvebu to the generic method.
Signed-off-by: Stijn Tintel <stijn@linux-ipv6.be>
So far, board.d files were having execute bit set and contained a
shebang. However, they are just sourced in board_detect, with an
apparantly unnecessary check for execute permission beforehand.
Replace this check by one for existance and make the board.d files
"normal" files, as would be expected in /etc anyway.
Note:
This removes an apparantly unused '#!/bin/sh /etc/rc.common' in
target/linux/bcm47xx/base-files/etc/board.d/01_network
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
Add support for Marvell MACCHIATObin Single Shot, cortex-a72 based
Marvell ARMADA 8040 Community board. Single Shot was broken as the
device tree is different on the Double Shot Board.
Specifications:
- Quad core Cortex-A72 (up to 2GHz)
- DDR4 DIMM slot with optional ECC and single/dual chip select support
- Dual 10GbE (1/2.5/10GbE) SFP+
2.5GbE (1/2.5GbE) via SFP
1GbE via copper
- SPI Flash
- 3 X SATA 3.0 connectors
- MicroSD connector
- eMMC
- PCI x4 3.0 slot
- USB 2.0 Headers (Internal)
- USB 3.0 connector
- Console port (UART) over microUSB connector
- 20-pin Connector for CPU JTAG debugger
- 2 X UART Headers
- 12V input via DC Jack
- ATX type power connector
- Form Factor: Mini-ITX (170 mm x 170 mm)
More details at http://macchiatobin.net
Installation:
Write the Image to your Micro SD Card and insert it in the
MACCHIATObin Single Shot SD Card Slot.
In the U-Boot Environment:
1. reset U-Boot environment:
env default -a
saveenv
2. prepare U-Boot with boot script:
setenv bootcmd "load mmc 1:1 0x4d00000 boot.scr; source 0x4d00000"
saveenv
or manually (hanging lines indicate wrapped one-line command):
setenv fdt_name armada-8040-mcbin-singleshot.dtb
setenv image_name Image
setenv bootcmd 'mmc dev 1; ext4load mmc 1:1 $kernel_addr
$image_name;ext4load mmc 1:1 $fdt_addr $fdt_name;setenv
bootargs $console root=/dev/mmcblk1p2 rw rootwait; booti
$kernel_addr - $fdt_addr'
saveenv
On newer Bootloaders (18.12) the Variables have been changed, use:
setenv fdt_name armada-8040-mcbin-singleshot.dtb
setenv image_name Image
setenv bootcmd 'mmc dev 1; ext4load mmc 1:1 $kernel_addr_r
$image_name;ext4load mmc 1:1 $fdt_addr_r $fdt_name;setenv
bootargs $console root=/dev/mmcblk1p2 rw rootwait; booti
$kernel_addr_r - $fdt_addr_r'
Reported-by: Alexandra Alth <alexandra@alth.de>
Signed-off-by: Tomasz Maciej Nowak <tomek_n@o2.pl>
Tested-by: Alexandra Alth <alexandra@alth.de>
[add specs and installation as provided by Alexandra Alth]
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
Between kernels 4.20 and 5.0, a new variant of this board has been
introduced ("Single Shot"), and the existing one has been renamed
with the appendix "Double Shot". [1]
This also adjusted the first compatible in the list:
marvell,armada8040-mcbin -> marvell,armada8040-mcbin-doubleshot
This patch updates the OpenWrt implementation of this device by
adjusting the relevant references to that compatible (i.e., our
board name).
To still provide support for 4.19 with our setup, this adds a
small patch to change the compatible there as well.
[1] https://git.kernel.org/pub/scm/linux/kernel/git/stable/linux.git/commit/?id=b1f0bbe2700051886b954192b6c1751233fe0f52
Cc: Tomasz Maciej Nowak <tomek_n@o2.pl>
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
Reviewed-by: Tomasz Maciej Nowak <tomek_n@o2.pl>
For the mvebu target in particular, there is a lot of files in
base-files that are only relevant for one subtarget. Improve
overview and reduce size per subtarget by moving/splitting
base-files depending on the subtarget they belong to.
While at it, consolidate 01_leds by using the model part of
the board name as variable.
Signed-off-by: Adrian Schmutzler <freifunk@adrianschmutzler.de>
Acked-by: Tomasz Maciej Nowak <tomek_n@o2.pl>
