jock

UPDATE!!
 
Hello, I'm pleased to announce that rk3318 CSC configuration has been accepted into mainline kernel!.
This means that next Armbian release (probably August) will provide regular kernel upgrades offered by Armbian ecosystem via normal apt upgrade command.
Until then, please stay stick to the usual manual upgrade!
 
But there is something more: new update for the rk3318/rk3328 images!
Most important changes:
Kernel upgraded to version v5.18.6 Memory clock set to 667 MHz (was 333 MHz), providing a nice boost in general, desktop and GPU performance; despite this works fine on my board I always warn you to test images first via sdcard Introduces MGLRU patches from @yuzhaogoogle (you can read about here and search google for more details), which should provide much snappier experience especially on low-memory devices You can find the images and deb packages for upgrades browsing the directory pointed on first page as usual.
 
You can visit the Armbian MGLRU topic, if you have questions about the features or kernel issues (like crash dumps which involve kswapd, for example)
 
 

@yuzhaogoogle thanks a lot for the answer; I finally I managed to recompile the kernel v5.18 with v11 patch as-is (without the additional fix mentioned by @hexdump).
 
I removed an offending patch that was in the armbian patch set and the system is now just stable as I expected it to be; just doing the usual desktop business for a while (browsing on half dozen firefox tabs, streaming music via bluetooth, moving files via samba, a couple of terminals, ...) and keeping the device busy for a whole night resulted into perfect stability so far, clean dmesg and 662 megabytes of swap file usage (zram) out of 1gb of swap available.
 
I will look forward to contact you for a the new patchset backported to v5.18 with latest fixes, I think the forum community will be happy to test and give feedback 😉

UPDATE!!
 
Hello, I'm pleased to announce that rk3318 CSC configuration has been accepted into mainline kernel!.
This means that next Armbian release (probably August) will provide regular kernel upgrades offered by Armbian ecosystem via normal apt upgrade command.
Until then, please stay stick to the usual manual upgrade!
 
But there is something more: new update for the rk3318/rk3328 images!
Most important changes:
Kernel upgraded to version v5.18.6 Memory clock set to 667 MHz (was 333 MHz), providing a nice boost in general, desktop and GPU performance; despite this works fine on my board I always warn you to test images first via sdcard Introduces MGLRU patches from @yuzhaogoogle (you can read about here and search google for more details), which should provide much snappier experience especially on low-memory devices You can find the images and deb packages for upgrades browsing the directory pointed on first page as usual.
 
You can visit the Armbian MGLRU topic, if you have questions about the features or kernel issues (like crash dumps which involve kswapd, for example)
 
 

UPDATE!!
 
Hello, I'm pleased to announce that rk3318 CSC configuration has been accepted into mainline kernel!.
This means that next Armbian release (probably August) will provide regular kernel upgrades offered by Armbian ecosystem via normal apt upgrade command.
Until then, please stay stick to the usual manual upgrade!
 
But there is something more: new update for the rk3318/rk3328 images!
Most important changes:
Kernel upgraded to version v5.18.6 Memory clock set to 667 MHz (was 333 MHz), providing a nice boost in general, desktop and GPU performance; despite this works fine on my board I always warn you to test images first via sdcard Introduces MGLRU patches from @yuzhaogoogle (you can read about here and search google for more details), which should provide much snappier experience especially on low-memory devices You can find the images and deb packages for upgrades browsing the directory pointed on first page as usual.
 
You can visit the Armbian MGLRU topic, if you have questions about the features or kernel issues (like crash dumps which involve kswapd, for example)
 
 

UPDATE!!
 
Hello, I'm pleased to announce that rk3318 CSC configuration has been accepted into mainline kernel!.
This means that next Armbian release (probably August) will provide regular kernel upgrades offered by Armbian ecosystem via normal apt upgrade command.
Until then, please stay stick to the usual manual upgrade!
 
But there is something more: new update for the rk3318/rk3328 images!
Most important changes:
Kernel upgraded to version v5.18.6 Memory clock set to 667 MHz (was 333 MHz), providing a nice boost in general, desktop and GPU performance; despite this works fine on my board I always warn you to test images first via sdcard Introduces MGLRU patches from @yuzhaogoogle (you can read about here and search google for more details), which should provide much snappier experience especially on low-memory devices You can find the images and deb packages for upgrades browsing the directory pointed on first page as usual.
 
You can visit the Armbian MGLRU topic, if you have questions about the features or kernel issues (like crash dumps which involve kswapd, for example)
 
 

UPDATE!!
 
Hello, I'm pleased to announce that rk3318 CSC configuration has been accepted into mainline kernel!.
This means that next Armbian release (probably August) will provide regular kernel upgrades offered by Armbian ecosystem via normal apt upgrade command.
Until then, please stay stick to the usual manual upgrade!
 
But there is something more: new update for the rk3318/rk3328 images!
Most important changes:
Kernel upgraded to version v5.18.6 Memory clock set to 667 MHz (was 333 MHz), providing a nice boost in general, desktop and GPU performance; despite this works fine on my board I always warn you to test images first via sdcard Introduces MGLRU patches from @yuzhaogoogle (you can read about here and search google for more details), which should provide much snappier experience especially on low-memory devices You can find the images and deb packages for upgrades browsing the directory pointed on first page as usual.
 
You can visit the Armbian MGLRU topic, if you have questions about the features or kernel issues (like crash dumps which involve kswapd, for example)
 
 

Done.  I went back to the end of April and tried to pull out all the docker related posts into this new thread.  If you think I should go back farther, or if some of these posts should be moved back to the original thread let me know.

@Contributor/Maintainer
 
Updates on legacy / current kernels (where only a patch version is changed) and u-boot packages (many from Rockchip family are broken on current release / update is anyway optional) are going to repository today, images repack follows. Huge task ...

Ah-ha, nope... or to be precise: I guess you would need the android kernel sources/headers to compile a working driver for it.

Hello @Seth, the TX3PRO board looks a nice one, with a clean design.
Probably your issue is due a low strength for the SDIO pins set by default device tree.
You may try to use the IPB900 (led-conf5) board configuration from rk322x-config, reboot and see if the wireless is detected. IPB900 is clearly not the board you have, so leds will probably not work, but that board has the same problem I think yours has, so it is useful to make a quick test.
 
If it works, we've just spotted the problem; anyway the original android image/backup (or, even better, just the dtb) is useful to make a better suited board configuration for TX3PRO

Hi,
OPI4 LTS is currently supported in armbian master build on github. I have compiled image for my OPI4 LTS and I can say that everything is working fine WiFi, BT, Analog audio. Many thanks for this guys especially to Paolo for his PRs, great work!

No idea, it may work or may not work, surely some hardware will differ and this may cause major or minor issues. You should ask the vendor/manufacturer for software support.

Thank you very much for your help @jock. Reading the description more closely, I realized that I skipped the "erase flash" step with Multitool, but this step is required to run Armbian from the SD card. The Armbian now works great on my TV box. 🙂 Thank you.
 

DISCLAIMERS (PLEASE READ):
Everything you can find in this thread (binaries, texts, code snippets, etc...) are provided AS-IS and are not part of official Armbian project. For this reason not people from Armbian project nor myself are responsible for misuse or loss of functionality of hardware. THIS POST explains very well the troubles with TV Boxes and why they are not suitable for everyone Please don't ask about support or assistance in other non-community forums nor in the official Armbian github repository, instead post your questions in this thread, in the TV Boxes forum section (hardware related) or in the Peer-to-peer support section (general linux/software related).  
Following the recent thread on LibreElec forum about an unofficial image for rk3229 devices, I would like to make public the work made by me and @fabiobassa about bringing rk322x support to armbian.
The project is now in -> mainline Armbian <- development fork -> here <-
 
This first page and the last 3 or 4 pages of the thread are enough to get up to date with recent developments.
Many useful experiences are scattered through the thread, but the most important things are collected here in the first page, so please read it carefully!
 
Mainline kernel is fully supported and will receive most support in the future. Legacy kernel 4.4 is deprecated, but is kept around only for special purposes.
 
What works:
Should boot and work flawlessy on all boards with RK3228a, RK3228b and RK3229, with either DDR2 and DDR3 memories. Mainline u-boot Proprietary OPTEE provided as Trusted Execution Environment (needed for DRAM frequency scaling) All 4 cores are working Ethernet Serial UART (configured at 115200 bps, not 1.5Mbps!) Thermals, CPU and DRAM frequency scaling OTG USB 2.0 port (also as boot device!) EHCI/OHCI USB 2.0 ports MMC subsystem (including eMMC, SD and sdio devices) Hardware video acceleration NAND is available only on legacy kernel. To fully boot from NAND, use the Multitool and its steP-nand installation (instructions are below) Various WIFI over SDIO are supported (SSV6051P, SSV6256P, ESP8089, Realtek chips, etc...), ssv6256p driver is available only on legacy kernel Full GPU acceleration U-boot boot order priority: first the sdcard, then the USB OTG port and eventually the internal eMMC; you can install u-boot (and the whole system) in the internal eMMC and u-boot will always check for images on external sdcard/USB first.  
Unbrick:
Technically, rockchip devices cannot be bricked. If the internal flash does not contain a bootable system, they will always boot from the sdcard. If, for a reason, the bootable system on the internal flash is corrupted or is unable to boot correctly, you can always force the maskrom mode shorting the eMMC clock pin on the PCB. Here there is the procedure, but you can also google around if you get stuck on a faulty bootloader, the technique is pretty simple and requires a simple screwdriver.
 
There are however some unfortunate cases (expecially newer boards) where shorting the eMMC clock pin is difficult or impossibile, like eMMC or eMCP BGA chips with no exposed pins. In those cases pay double attention when burning something on the internal eMMC/eMCP and always test first the image from the sdcard to be sure it works before burning anything on eMMC/eMCP.
 
Some useful links with pins, pads or procedures for some boards:
Generic procedure for boards with non-BGA eMMC MXQPRO_V71 - eMCP H20 - eMCP ZQ01 - eMCP  
NAND vs eMMC vs eMCP difference:
RK3228 and RK3229 tv boxes comes with three different flash memory chips: eMMC, NAND and eMCP.
It does not depend upon the market name of the tv box and neither the internal board; manufacturers put whatever they find cheaper when they buy the components.
 
NAND chip is just the non-volatile memory eMMC chip contains both the non-volatile memory plus a controller. eMCP chip contains the non-volatile memory, a controller for the non-volatile memory (like eMMC), but also contains a bank of DDR SDRAM memory on the same physical chip.  
The difference is very important, because eMMC and eMCP are far easier to support at various levels: the controller deals with the physical characteristics of the non-volatile memory, so the software has no to deal with.
NAND chips instead are harder to support, because the software is required to deal with the physical characteristics and non-standard things that depends upon the NAND manufacturer.
 
If you have a NAND chips you're unlucky because mainline kernel currently cannot access it, but also because you need special care and instructions explained later.
 
You can discover if you have a NAND, eMMC or eMCP chip looking on the board are reading the signature on the flash memory chip.
The Multitool (see later) also can detect which chip you have onboard: the program will warn you at startup if you have a NAND chip.
 
NAND bootloader upgrade:
IMPORTANT: don't do this is you have an eMMC or eMCP; skip this paragraph if you are unsure too!
For very expert people who are having issues when (re)booting images, there is the chance to upgrade the bootloader on NAND.
The NAND bootloader is nothing else than a regular idbloader (see official rockchip documentation) but contains some bits to correctly access the data on your flash memory.
Upgrading requires to erase the existing flash content, in the worst case will require you to follow the Unbrick procedure above or restore an older but more compatible bootloader.
If you are not mentally ready to overcome possible further issues, don't do this!
 
The detailed instructions and the binaries are available at this post
 
Multimedia:
Mainline kernel: 3D acceleration is provided by Lima driver and is already enabled. Hardware video decoding: https://forum.armbian.com/topic/19258-testing-hardware-video-decoding-rockchip-allwinner/ Deprecated legacy kernel: multimedia features, like OpenGL/OpenGL ES acceleration, hardware accelerated Kodi, ffmpeg and mpv you can take a look to this post An effective tutorial from @Hai Nguyen on how to configure a box as a hi-quality music player using an USB audio card, and controlling it via remote control is available in this post  
Brief explanation about kernel naming:
current kernel is the mainline LTS kernel version, most maintained and tested. This is the suggested version for production devices. If you don't know what to pick, pick this. legacy kernel (version 4.4) is provided by manufacturer; it is deprecated, unmaintained and not suggested. edge kernel is the development mainline kernel version, with experimental features and drivers; usually stable but perhaps suitable for production devices.  
You can switch from one kernel flavour to another using armbian-config or manually via apt.
 
Installation (via SD card):
Building:
You can build your own image follow the common steps to build armbian for other tv boxes devices: when you are in the moment to choose the target board, switch to CSC/TVB/EOL boards and select "rk322x-box" from the list.
 
Download prebuilt images from the following links:
Archive builds (GPG-signed) - https://imola.armbian.com/dl/rk322x-box/archive/ SUGGESTED - Nightly built from trunk each week by Armbian servers (GPG-signed) - https://github.com/armbian/community Old images provided by me (unsigned and outdated) - https://users.armbian.com/jock/rk322x/armbian/stable  
Archived/older images:
https://armbian.hosthatch.com/archive/rk322x-box/archive/
 
Multitool:
The Multitool is a small but powerful tool to do quick backup/restore of internal flash, but also burn images and general system rescue and maintenance via terminal or SSH.
Compressed images will be uncompressed on fly.
Multitool - A small but powerful image for RK322x TV Box maintenance (instructions to access via network here)  
Quick installation instructions on eMMC:
Build or download your preferred Armbian image and a copy of the Multitool; Burn the Multitool on an SD card; once done, place the Armbian image in images folder of the SD card NTFS partition; Plug the SD card in the TV box and plug in the power cord. After some seconds the blue led starts blinking and the Multitool appears; OPTIONAL: you can do a backup of the existing firmware with "Backup flash" menu option; Choose "Burn image to flash" from the menu, then select the destination device (usually mmcblk2) and the image to burn; Wait for the process to complete, then choose "Shutdown" from main menu; Unplug the power cord and the SD card, then replug the power cord; Wait for 10 seconds, then the led should start blinking and HDMI will turn on. The first time the boot process will take a couple of minutes or more because the filesystem is going to be resized, so be patient and wait for the login prompt. On first boot you will be asked for entering a password for root user of your choice and the name and password for a regular user Run sudo rk322x-config and select your board characteristics to enable leds, wifi chips, high-speed eMMC, etc... Run sudo armbian-config to configure timezone, locales and other personal options Congratulations, Armbian is now installed and configured!  
Despite the procedure above is simple and reliable, I always recommend to first test that your device boots Armbian images from SD Card.
Due to the really large hardware variety, there is the rare chance that the images proposed here may not boot. If a bad image is burned in eMMC, the box may not boot anymore forcing you to follow the unbrick section at the top of this post.
 
Quick installation instructions on NAND:
Build or download your preferred Armbian image and a copy of the Multitool; Burn the Multitool on an SD card; once done, place the Armbian legacy kernel image in images folder of the SD card NTFS partition; Plug the SD card in the TV box and plug in the power cord. After some seconds the blue led starts blinking and the Multitool appears; OPTIONAL: you can do a backup of the existing firmware with "Backup flash" menu option; Choose "Burn Armbian image via steP-nand" from the menu, then select the destination device (usually rknand0) and the image to burn; Wait for the process to complete, then choose "Shutdown" from main menu; Unplug the power cord and the SD card, then replug the power cord; Wait for 10 seconds, then the led should start blinking and HDMI will turn on. The first time the boot process will take a couple of minutes or more because the filesystem is going to be resized, so be patient and wait for the login prompt. On first boot you will be asked for entering a password for root user of your choice and the name and password for a regular user Run sudo rk322x-config and select your board characteristics to enable leds, wifi chips, etc... Run armbian-config to configure timezone, locales and other personal options Congratulations, Armbian is now installed!  
Alternative: you can install the bootloader in NAND and let it boot from SD Card or USB:
Download a copy of the Multitool and burn it on an SD card; Plug the SD card in the TV box and plug in the power cord. After some seconds the blue led starts blinking and the Multitool appears; RECOMMENDED: make a backup of the existing firmware with "Backup flash" menu option; Choose "Install Jump Start for Armbian" menu option: the Jump Start uses the internal NAND to boot from external SD Card or external USB Stick; Follow the general instructions to boot from SD Card below, skip the first erase eMMC step.  
Quick installation instructions to boot from SD Card:
If you are already running Armbian from eMMC, skip to the next step. Instead if you are running the original firmware you need to first erase the internal eMMC; to do so download the Multitool, burn it on an SD Card, plug the SD Card and power the TV Box. Use "Backup flash" if you want to do a backup of the existing firmware, then choose "Erase flash" menu option. Build or download your preferred Armbian image; Uncompress and burn the Armbian image on the SD Card; Plug the SD Card in the TV Box and power it on; Wait for 10 seconds, then the led should start blinking and HDMI will turn on. The first time the boot process will take a couple of minutes or more because the filesystem is going to be resized, so be patient and wait for the login prompt; On first boot you will be asked for entering a password for root user of your choice and the name and password for a regular user Run sudo rk322x-config and select your board characteristics to enable leds, wifi chips, high-speed eMMC or NAND, etc... Run armbian-config to configure timezone, locales and other personal options, or also to transfer the SD Card installation to internal eMMC; Congratulations, Armbian is running from SD Card!  
A note about boot device order:
With Armbian also comes mainline U-boot. If you install Armbian or just the bootloader in the eMMC or the Jump Start on internal NAND, the bootloader will look for valid bootable images in this order:
External SD Card External USB Stick in OTG Port Internal eMMC  
Installation (without SD card, board with eMMC)
If you have no sd card slot and your board has an eMMC, you can burn the armbian image directly on the internal eMMC using rkdeveloptool and a male-to-male USB cable:
 
Download your preferred Armbian image from Armbian download page and decompress it. Download the rk322x bootloader: rk322x_loader_v1.10.238_256.bin Download a copy of rkdeveloptool: a compiled binary is available in the official rockchip-linux rkbin github repository. Unplug the power cord from the tv box Plug an end of an USB Male-to-male cable into the OTG port (normally it is the lone USB port on the same side of the Ethernet, HDMI, analog AV connectors) while pressing the reset microbutton with a toothpick. You can find the reset microbutton in a hole in the back of the box, but sometimes it is hidden into the AV analog jack Plug the other end of the USB Male-to-male cable into an USB port of your computer If everything went well, run lsusb: you should see a device with ID 2207:320b Run sudo rkdeveloptool rd 3 (if this fails don't worry and proceed to next step) Run sudo rkdeveloptool db rk322x_loader_v1.10.238_256.bin Run sudo rkdeveloptool wl 0x0 image.img (change image.img this with the real Armbian image filename) Unplug the power cord Done!  
Installation (without SD card, board with NAND)
If you are in the unfortunate case you can't use an SD card for installation and your board has a NAND chip, you still have an option to use the quick Multitool installation steps via USB.
 
Obtain a copy of rkdeveloptool: a compiled binary is available in the official rockchip-linux rkbin github repository. Unplug the power cord from the tv box Plug an end of an USB Male-to-male cable into the OTG port (normally it is the lone USB port on the same side of the Ethernet, HDMI, analog AV connectors) while pressing the reset microbutton with a toothpick. You can find the reset microbutton in a hole in the back of the box, but sometimes it is hidden into the AV analog jack Plug the other end of the USB Male-to-male cable into an USB port of your computer If everyting went well, using lsusb you should see a device with ID 2207:320b Run sudo rkdeveloptool wl 0x4000 u-boot-main.img (download u-boot-main.img.xz , don't forget to decompress it!) Unplug the power cord  
Now you can follow the instructions on how to install on eMMC/NAND via SD card, just use instead an USB stick to do all the operations and plug it into the USB OTG port. Once you reboot, USB OTG port will be used as a boot device.
 
NOTE: NAND users without SD slot may be unhappy to know that it will be difficult to do extra maintenance with Multitool in case something breaks in the installed Armbian system: installing u-boot-main.img makes the installed system unbootable because it is missing the NAND driver.
 
 
Alternative backup, restore and erase flash for EXPERTS:
These backup, restore and erase flash procedures are for experts only. They are kept here mostly for reference, since the Multitool is perfectly able to do same from a very comfy interface and is the suggested way to do maintenance.
 
Backup:
Obtain a copy of rkdeveloptool: a compiled binary is available in the official rockchip-linux rkbin github repository. If you prefer, you can compile it yourself from the sources available at official rockchip repository Unplug the power cord from the tv box Plug an end of an USB Male-to-male cable into the OTG port (normally it is the lone USB port on the same side of the Ethernet, HDMI, analog AV connectors) while pressing the reset microbutton with a toothpick. You can find the reset microbutton in a hole in the back of the box, but sometimes it is hidden into the AV analog jack Plug the other end of the USB Male-to-male cable into an USB port of your computer If everyting went well, using lsusb you should see a device with ID 2207:320b change directory and move into rkbin/tools directory, run ./rkdeveloptool rfi then take note of the FLASH SIZE megabytes (my eMMC is 8Gb, rkdeveloptool reports 7393 megabytes) run ./rkdeveloptool rl 0x0 $((FLASH_SIZE * 2048)) backup.data (change FLASH_SIZE with the value you obtained the step before) once done, the internal eMMC is backed up to backup.data file  
Restore: first we have to restore the original bootloader, then restore the original firmware.
Running rkdeveloptool with these switches will accomplish both the jobs:
./rkdeveloptool db rk322x_loader_v1.10.238_256.bin Downloading bootloader succeeded. ./rkdeveloptool ul rk322x_loader_v1.10.238_256.bin Upgrading loader succeeded. ./rkdeveloptool wl 0x0 backup.data Write LBA from file (100%) Download here:
 
Erase the flash memory: clearing the internal eMMC/NAND memory makes the SoC look for external SD Card as first boot option.
If there isn't any suitable SD Card, the SoC enters maskrom mode, which can then be used for full eMMC/NAND access using rkdeveloptool. This is perfectly fine if your box has an eMMC flash memory.
NOTE: In case you have a NAND flash memory this option is however discouraged. The original bootloader contains some special parameters to correctly access the data. Clearing the flash memory will probably garbage the NAND data and restoring the bootloader may require some special instructions.
 
Obtain a copy of rkdeveloptool: a compiled binary is available in the official rockchip-linux rkbin github repository. If you prefer, you can compile it yourself from the sources available at official rockchip repository Unplug the power cord from the board Plug an end of an USB Male-to-male cable into the OTG port (normally it is the lone USB port on the same side of the Ethernet, HDMI, analog AV connectors) while pressing the reset microbutton with a toothpick. You can find the reset microbutton in a hole in the back of the box, but sometimes it is hidden into the AV analog jack Plug the other end of the USB Male-to-male cable into an USB port of your computer If everyting went well, using lsusb you should see a device with ID 2207:320b run ./rkdeveloptool ef and wait a few seconds once done, the internal eMMC is erased and the device will boot from the sdcard from now on  
Partecipation and debugging:
If you want to partecipate or need help debugging issues, do not hesitate to share your experience with the installation procedure of the boxes.
In case of issues and missed support, provide as many as possible of these things is very useful to try and bring support for an unsupported board:
 
some photos of both sides of the board. Details of the eMMC, DDR and Wifi chips are very useful! upload the device tree binary (dtb) of your device. We can understand a lot of things of the hardware from that small piece of data; and alternative is a link to the original firmware (you can do a full backup with the Multitool); dmesg and other logs (use armbianmonitor -u that automatically collects and uploads the logs online) attach a serial converter to the device and provide the output of the serial port;  
Critics, suggestions and contributions are welcome!
 
Credits:
@fabiobassa for his ideas, inspiration, great generosity in giving the boards for development and testing. The project of bringing rk322x into armbian would not have begun without his support! Justin Swartz, for his work and research to bring mainline linux on rk3229 (repository here) @knaerzche for his great contribution to libreelec support and mainline patches @Alex83 for his patience in testing the NAND bootloader upgrade procedure on his board @Jason Duhamell for his generous donation that allowed researching eMCP boards and esp8089 wifi chip

@hexdumppointed me to this discussion -- thank you for all the testing, much appreciated!
 
If you have MGLRU related questions, please feel free to shoot me emails.
 
The following option occasionally causes problems, so please set it to zero. The analyses from Ubuntu, Debian and a few others I'm too lazy to quote
$ cat /proc/sys/vm/watermark_boost_factor 0  
I'll submit a fix later today and hopefully it'll be in v5.20.

@Revsearcher that's a completely new board and it looks like this is the first board with eMCP on rk3318 to me.
Indeed the serial log would be very useful, but I see the serial is buried somewhere and not immediately accessible.
I will take a look to the dtb...
 
Ah, the photos are quite low resolution, I can't read anything on the board and neither the chip details are readable...

Well, usually f2fs is the generally recommended filesystem for flash-based devices, but it's a matter of personal opinion, since many people say they get good results with btrfs or even ext4...
 

Thanks a lot, ended up that yesterday I tested kernel v5.18.0 on rk322x with the old version of the extra patch compiling the whole debian mesa packages ecosystem with success. The box was sporting just 1gb of ram, 512mb of zram swap space and 2gb of extra USB HDD swap file.
The conditions were absolutely heavy and unhealthy, but the whole packages rebuilding from sources finally completed without errors, even after extreme swapping and hours of compilation time. The system was always responsive to SSH shells, which is a great achievement by itself!
 
 

@Felipe Triana DDR memory detection is made by a rockchip proprietary code that is called ddrbin as the very first binary code.
It's a closed source binary, so whatever it does and how it does is not known. It produces some debug messages that may be useful to you (memory arrangement, density, bus width) when the serial adapter is connected to the board.
 
There is a tool, ddrbin_tool, that can be used to alter ddr speed, ddr command rate timing and uart debug speed, but nothing more.
 
If you totally erased the NAND, then the ddrbin in use is the one from the sdcard, if you installed "jump start" with multitool, then the ddrbin in use is from NAND.
 
Multitool can't completely erase the NAND because the kernel driver has some limitations and cannot access the first sectors of the NAND, thus multitool can't neither write or read the installed ddrbin  in NAND.

@jock - i already sent you a pm about this, but meanwhile i tested it to be working for me, so maybe its better to post it here as well in case others are interested too: i got a response from the mglru patch series author and a patch which seems to fix the problem on 32bit arm for me (tested on rk3288 with 2gb ram so far) - the patch can be found here: https://github.com/hexdump0815/kernel-extra-patches/blob/main/multi-gen-lru/v11/v11-15-extra-patch-from-author-with-armv7l-fix.diff
 
good luck and best wishes - hexdump

I guess that many of these issues may come from a bad/unsuitable power supply and microusb connector that is not able to deliver proper current to USB when there is higher demand.
 
Are you feeding the tinkerboard with a microusb connector and a generic USB power adapter or via GPIO pins?
I have had no particular issues with a raspberry pi microusb power adapter rated at 5.1V/2A, but didn't really try demanding devices to USB ports

@hexdump Thanks a lot! I later checked out the patch series and in the description armhf architecture is effectively omitted, so probably is untested and not expected to work. Anyway I don't know how it could enter into mainline if it is allowed to compile on armhf but cause heavy issues: the kconfig file should at least be patched to allow compilation only on amd64 and arm64 architectures.
 
I hope they will provide fix and tests for armhf too - hopefully x86 32 bit too. Those 32 bit architectures are going to benefit a lot from this patch since most memory-constrained devices are 32 bit only.

Until are kernel related problems Is ok discuss here.
Or you can discuss elsewhere, test and then make requests here about missing features in kernel

@cmuki
Assuming the boot you provided is from the original image, I think there is no extra questions to ask: if the ddrbin says that you have 2048 megabytes, that is so.
The ddrbin, which is the first piece of code that is executed at all and initializes the board DDR memory, is the most reliable source from this point of view.
 
Going on with the bootstrap phase, u-boot says the same:
U-Boot 2017.09-gaa00306-201224-dirty #foxluo (Jan 19 2021 - 14:31:53 +0800) PreSerial: 2, raw, 0xff130000 DRAM: 2 GiB  
And obviously even the linux android kernel also detects 2 gigabytes of total RAM:
[ 0.000000] Memory: 1955884K/2064384K available (14910K kernel code, 2056K rwdata, 8884K rodata, 3968K init, 2806K bss, 75732K reserved, 32768K cma-reserved)  
That's it, fake hardware specs; the manufacturer altered the Android image somehow to show fake specs and maybe something is wrong with the DDR chips too (are they have been reprinted? are they just fake chips or not really connected to the board? who knows...)

@cmuki
Assuming the boot you provided is from the original image, I think there is no extra questions to ask: if the ddrbin says that you have 2048 megabytes, that is so.
The ddrbin, which is the first piece of code that is executed at all and initializes the board DDR memory, is the most reliable source from this point of view.
 
Going on with the bootstrap phase, u-boot says the same:
U-Boot 2017.09-gaa00306-201224-dirty #foxluo (Jan 19 2021 - 14:31:53 +0800) PreSerial: 2, raw, 0xff130000 DRAM: 2 GiB  
And obviously even the linux android kernel also detects 2 gigabytes of total RAM:
[ 0.000000] Memory: 1955884K/2064384K available (14910K kernel code, 2056K rwdata, 8884K rodata, 3968K init, 2806K bss, 75732K reserved, 32768K cma-reserved)  
That's it, fake hardware specs; the manufacturer altered the Android image somehow to show fake specs and maybe something is wrong with the DDR chips too (are they have been reprinted? are they just fake chips or not really connected to the board? who knows...)