Related
Hello,
First of all, I am not attempting to compete with the other awesome images for the G Tablet available. I am doing this process to learn, and maybe contribute to the community.
I have grabbed the AOSP directly from Google's repo tree, and compiled it in two different ways: Generic build, modifying BoardConfig.mk and other files as necessary. I have also used the Device/Vendor files from the Cyanogen Beta 4 harmony repo tree, and compiled a harmony target with AOSP.
When I compiled the generic build (or the the targeted build), I made sure all proprietary files from the tablet had been extracted and replaced in my system.img. (I got this list from the extract-files.sh script in Cyanogen harmony repo).
I have found that using the stock boot.img from the original nvflash files will boot nearly any system.img (from my update.zip in clockwork). I used this original boot.img, combined with my system.img from the AOSP build (with the proprietary files in place), and made an updater-script which installed things. I found that the system.img was properly extracted to /system.
The problem that occurs -- when booting, the Viewsonic bootup screen will load the GTablet screen, but it will eventually loop back to the Viewsonic screen and report "deleting msc" prior to returning to Recovery Mode on it's own.
I have enabled ADB persistence in the boot ramdisk, and it works fine as long as it's not my system.img. When I use the AOSP system.img, adb devices shows the device, but adb shell/logcat fail until the device power cycles.
Does anyone know what I might be missing?
Also want to add:
I have tried the stock boot.img, which lacks a 'cmdline' parameter, and I have tried using the cmdline parameters from the Cyan Harmony boot.img specifications. I am not sure if this might have something to do with the issue or not.
kornyone said:
Hello,
First of all, I am not attempting to compete with the other awesome images for the G Tablet available. I am doing this process to learn, and maybe contribute to the community.
I have grabbed the AOSP directly from Google's repo tree, and compiled it in two different ways: Generic build, modifying BoardConfig.mk and other files as necessary. I have also used the Device/Vendor files from the Cyanogen Beta 4 harmony repo tree, and compiled a harmony target with AOSP.
When I compiled the generic build (or the the targeted build), I made sure all proprietary files from the tablet had been extracted and replaced in my system.img. (I got this list from the extract-files.sh script in Cyanogen harmony repo).
I have found that using the stock boot.img from the original nvflash files will boot nearly any system.img (from my update.zip in clockwork). I used this original boot.img, combined with my system.img from the AOSP build (with the proprietary files in place), and made an updater-script which installed things. I found that the system.img was properly extracted to /system.
The problem that occurs -- when booting, the Viewsonic bootup screen will load the GTablet screen, but it will eventually loop back to the Viewsonic screen and report "deleting msc" prior to returning to Recovery Mode on it's own.
I have enabled ADB persistence in the boot ramdisk, and it works fine as long as it's not my system.img. When I use the AOSP system.img, adb devices shows the device, but adb shell/logcat fail until the device power cycles.
Does anyone know what I might be missing?
Click to expand...
Click to collapse
Did you ever get your AOSP build to boot?
tjohnsonjr said:
Did you ever get your AOSP build to boot?
Click to expand...
Click to collapse
I did. It's in the Dev section now
I'm looking for a stock kernel that only patches Safetynet checking. Does this exist? If not, is it easy for me to "make it" myself?
I'm not sure if there's a prebuilt one, but building one yourself isn't too hard. The patch is at https://github.com/sultanxda/androi...bc05b16bbd33521c2fffaf491c5657a94bfcfc5.patch. You just follow the steps at http://source.android.com/source/building-kernels.html as usual with the following notes:
Use "kernel/msm" as the source location
Use "marlin_defconfig" as the build configuration
Apply the patch after running the git checkout command
Use the aarch64 prebuilts, not the arm ones
Cares said:
I'm looking for a stock kernel that only patches Safetynet checking. Does this exist? If not, is it easy for me to "make it" myself?
Click to expand...
Click to collapse
Depending on your motivation for a "stock kernel" you might try franco kernel. He doesn't seem to do anything that MIGHT introduce instability or strays very far from stock.
I can vouch for franco. He does minimal performance-only tweaks by default.
josephcsible said:
I'm not sure if there's a prebuilt one, but building one yourself isn't too hard. The patch is at https://github.com/sultanxda/androi...bc05b16bbd33521c2fffaf491c5657a94bfcfc5.patch. You just follow the steps at http://source.android.com/source/building-kernels.html as usual with the following notes:
Use "kernel/msm" as the source location
Use "marlin_defconfig" as the build configuration
Apply the patch after running the git checkout command
Use the aarch64 prebuilts, not the arm ones
Click to expand...
Click to collapse
Hey thanks for the tip. I went ahead and patched the no safetynet patch to the android-msm-marlin-3.18-nougat-mr1 kernel source and compiled it. I now have a Image.gz-dtb file which I zipped (I also just have a binary file named "Image"). What should I with those now, just flash those like I would one of the other kernels? And which file exactly? The gz file? or the just binary file named "Image"?
So essentially "fastboot flash kernel <file_name>"?
When I was compiling I got two warnings by the way:
drivers/soc/qcom/Kconfig:371:warning choice value used outside its choice group
drivers/soc/qcom/Kconfig:376:warning choice value used outside its choice group
Anything I should be concerned about? I've never done this before, but did a lot of reading before I went ahead and used to do some C coding back in the day, so it's not completely unknown to me.
Essentially, these are the steps I followed, after quickly installing Linux Mint:
Code:
Create a working directory in /home/$USER/ (I created /home/sakete/android)
Enter working directory
Download android kernal source
git clone https://android.googlesource.com/kernel/msm
Download prebuilt toolchain
git clone https://android.googlesource.com/platform/prebuilts/gcc/linux-x86/aarch64/aarch64-linux-android-4.9
cd aarch64-linux-android-4.9
export PATH=$(pwd)/prebuilts/gcc/linux-x86/aarch64/aarch64-linux-android-4.9
export CROSS_COMPILE=$(pwd)/bin/aarch64-linux-android-
export ARCH=arm64
export SUBARCH=arm64
Checkout specific kernel branch for Pixel/PixelXL (be in 'msm' folder)
git checkout android-msm-marlin-3.18-nougat-mr1
Get Safetynet Patch (still be in 'msm' folder)
git fetch https://github.com/sultanxda/android_kernel_oneplus_msm8996 cm-13.0-sultan
git cherry-pick abc05b16bbd33521c2fffaf491c5657a94bfcfc5
Build kernel (still be in 'msm' folder)
make clean
make mrproper
make marlin_defconfig
make -j$(grep -c ^processor /proc/cpuinfo)
I initially got some build errors, but running this command solved it: sudo apt-get install build-essential
This is a useful link for those of you who are interested in doing this as well: http://forum.xda-developers.com/showpost.php?p=69627576&postcount=7108
Hey if you can build it and post it here, that would be awesome. This is exactly what I'm looking for.
It will let me preemptively unlock my Verizon bootloader before flashing the latest OTA, while keeping Android Pay.
Has Google already posted the source for the 7.1.1 update kernel?
The source I pulled (android-msm-marlin-3.18-nougat-mr1) should be what's in the December update. It should be 7.1.1
Sakete said:
Hey thanks for the tip. I went ahead and patched the no safetynet patch to the android-msm-marlin-3.18-nougat-mr1 kernel source and compiled it. I now have a Image.gz-dtb file which I zipped (I also just have a binary file named "Image"). What should I with those now, just flash those like I would one of the other kernels? And which file exactly? The gz file? or the just binary file named "Image"?
Click to expand...
Click to collapse
The Image.gz-dtb file is the one you want.
Sakete said:
So essentially "fastboot flash kernel <file_name>"?
Click to expand...
Click to collapse
I've never done it like that, but that's apparently how Franco's kernel installs, so it's worth a shot I guess. Another way of doing it is to unpack the stock boot image with either pbatard's unmkbootimg or osm0sis's Android Image Kitchen, replace its kernel with your Image.gz-dtb, then repack and flash the new boot.img to the boot partitions.
Sakete said:
When I was compiling I got two warnings by the way:
drivers/soc/qcom/Kconfig:371:warning choice value used outside its choice group
drivers/soc/qcom/Kconfig:376:warning choice value used outside its choice group
Anything I should be concerned about? I've never done this before, but did a lot of reading before I went ahead and used to do some C coding back in the day, so it's not completely unknown to me.
Click to expand...
Click to collapse
Nothing you need to worry about.
josephcsible said:
The Image.gz-dtb file is the one you want.
I've never done it like that, but that's apparently how Franco's kernel installs, so it's worth a shot I guess. Another way of doing it is to unpack the stock boot image with either pbatard's unmkbootimg or osm0sis's Android Image Kitchen, replace its kernel with your Image.gz-dtb, then repack and flash the new boot.img to the boot partitions.
Nothing you need to worry about.
Click to expand...
Click to collapse
Great, thanks, I'll try flashing the kernel tomorrow night and will post it if successful.
Interestingly it seems that Pixel (sailfish) and Pixel XL (marlin) use the same kernel / kernel source? There at least doesn't seem to be a sailfish specific source. Will be interesting to see how it pans out tomorrow.
Sakete said:
Interestingly it seems that Pixel (sailfish) and Pixel XL (marlin) use the same kernel / kernel source? There at least doesn't seem to be a sailfish specific source. Will be interesting to see how it pans out tomorrow.
Click to expand...
Click to collapse
Indeed. The same kernel binary can run on both devices. (The ElementalX and Franco kernels don't even have separate builds for the two.)
Would you mind posting the image you built?
iPwn_ said:
Would you mind posting the image you built?
Click to expand...
Click to collapse
I'm at work now, will post it tonight.
Sent from my Pixel using Tapatalk
Stock Kernel + SafetyNet Patch applied
Well holy crap, it actually worked! Just flashed the kernel, set up android pay no problem! And everything else works just fine too.
Attached is a zip.
Steps to install (make sure you have adb and fastboot set up):
- Download file and unzip
- Reboot into bootloader (power down, hold Power + Volume Down)
- Attach device to computer
- Enter command: fastboot flash kernel <kernel_image>
- Enter command: fastboot reboot
- Disconnect device and wait for it to finish booting. That's it!
You're my hero.
Might be a lot to ask, but it would be dope if you maintained where you update the build every month for Google's latest release.
iPwn_ said:
You're my hero.
Might be a lot to ask, but it would be dope if you maintained where you update the build every month for Google's latest release.
Click to expand...
Click to collapse
I'm creating a thread in the dev section.
Edit: thread is up.
Cares said:
I'm looking for a stock kernel that only patches Safetynet checking. Does this exist? If not, is it easy for me to "make it" myself?
Click to expand...
Click to collapse
A bit late, but just for the record, ElementalX is just like stock with added features. If you don't use those features, you are essentially using the stock kernel.
I am thinking about going this route.. but I am not sure the process to flash a custom kernel on my Pixel.. would anyone be able to walk me through it? thanks!
Since Xiaomi released source code for kernel, I tried to build it.
https://github.com/Dhoine/android_kernel_cereus
Current status of this - it compiles, boots, but unusable.
Bugs:
Broken bluetooth
Broken wifi
Soft-reboots after some time
Propably, more bugs that remained undiscovered because of reboots.
Tested with miui 9 on cereus 3/32.
--------
You can test builded kernel using this:
GDrive
Use Carliv image Kitchen to repack your rom's boot.img, then flash it via fastboot (UNLOCKED BOOTLOADER REQUIRED). To restore working state after testing, flash stock boot image again.
WARNING
Our kernel uses android regular boot.img format, not MTK.
---------
If you want to build this, any manual for building kernel will fit. I used google's android arm eabi 4.9 toolchain, our arch is arm, defconfig is cereus_defconfig.
For now, I don't have enough time to take a closer look at this (work, university exams), so, any help (last_kmsg, dmesg, pull requests) will be appreciated.
Wait seriously? Does that mean that i can buil LOS rom now? I have my UbuntuVM with whole LOS source code downloaded but i got stuck at no kernel found for cereus. So it might work now(Im extremely new to linux) I'll try to build the rom asap
TanRayCz said:
Wait seriously? Does that mean that i can buil LOS rom now? I have my UbuntuVM with whole LOS source code downloaded but i got stuck at no kernel found for cereus. So it might work now(Im extremely new to linux) I'll try to build the rom asap
Click to expand...
Click to collapse
This kernel for now won't really help with building los. I haven't find any device tree for our SoC (or close). MTK always requre a ton of patches to android sources. But i have reference MTK 9.0 android sources for this SoC - ALPS (can't share, it's probably illegal, but you can find them on 4pda.ru, if you want). It builds on almost unmodified reference device tree, but i haven't tested it on device. First, we need to make this kernel usable.
[email protected] said:
This kernel for now won't really help with building los. I haven't find any device tree for our SoC (or close). MTK always requre a ton of patches to android sources. But i have reference MTK 9.0 android sources for this SoC - ALPS (can't share, it's probably illegal, but you can find them on 4pda.ru, if you want). It builds on almost unmodified reference device tree, but i haven't tested it on device. First, we need to make this kernel usable.
Click to expand...
Click to collapse
This may not really help, but can you try that kernel again after upgrading to MIUI 10.2.4 ?
EDIT : See https://www.kimovil.com/en/list-smartphones-by-processor/mediatek-helio-p22-mt6762 for a list of devices with MT6762. Probably we can check out their trees?
EDIT 2 : It seems like our Redmi 6 is the only device with available kernel source in that list.
EDIT 3 : Try this?
minhducsun2002 said:
EDIT : See https://www.kimovil.com/en/list-smar...lio-p22-mt6762 for a list of devices with MT6762. Probably we can check out their trees?
EDIT 2 : It seems like our Redmi 6 is the only device with available kernel source in that list.
Click to expand...
Click to collapse
Maybe them exists, but I haven't found them.
minhducsun2002 said:
This may not really help, but can you try that kernel again after upgrading to MIUI 10.2.4 ?
---------------------
EDIT 3 : Try this?
Click to expand...
Click to collapse
I finally finished my university exams, so now I have some free time to play with it.
The kernel you link is just forked xiaomi sources merged to linux 4.9 kernel. It shouldn't be buildable at all, since there is the same problem in sources I "fixed" with this.
Probably, this too.
[email protected] said:
I finally finished my university exams, so now I have some free time to play with it.
The kernel you link is just forked xiaomi sources merged to linux 4.9 kernel. It shouldn't be buildable at all, since there is the same problem in sources I "fixed" with this.
Probably, this too.
Click to expand...
Click to collapse
[email protected] said:
Maybe them exists, but I haven't found them.
Click to expand...
Click to collapse
You're right, they're identical.
By the way, I couldn't find any implementation available for our Helio P22; the chipset itself is fairly new, thus not many devices have the source code available.
minhducsun2002 said:
This may not really help, but can you try that kernel again after upgrading to MIUI 10.2.4 ?
Click to expand...
Click to collapse
Ok, i've tested it on latest GS. It seems to work a way better. At least, it doesnt reboot after few seconds of usage. It makes things a lot easier.
Tested a few more things:
-sound - works
-camera (both photo and video) - works
- mobile data - works
- phone calls - work
- dual sim -works
- all sensors work
The only thing i was unable to test is gps. It didn't worked for me, but i was inside 9-floor building near the window to inner corner of building... So idk.
And usb otg - since i don't have adapder.
After this I can tell, that there are only 2 major bugs - wifi and bluetooth.
Maybe gps, fm radio and exfat too. This is modules loading problem, I think (though, there shouldn't be any modules, drivers are marked as built-in in config, but .ko files for them exist in /vendor/lib/modules)
[email protected] said:
Ok, i've tested it on latest GS. It seems to work a way better. At least, it doesnt reboot after few seconds of usage. It makes things a lot easier.
Tested a few more things:
-sound - works
-camera (both photo and video) - works
- mobile data - works
- phone calls - work
- dual sim -works
- all sensors work
The only thing i was unable to test is gps. It didn't worked for me, but i was inside 9-floor building near the window to inner corner of building... So idk.
And usb otg - since i don't have adapder.
After this I can tell, that there are only 2 major bugs - wifi and bluetooth.
Maybe gps, fm radio and exfat too. This is modules loading problem, I think (though, there shouldn't be any modules, drivers are marked as built-in in config, but .ko files for them exist in /vendor/lib/modules)
Click to expand...
Click to collapse
Yeah, Treble definitely makes things easier.
Nevertheless I'm trying to integrate those kernel modules into the compiled zImage - there's no modprobe in Android, sadly.
Adding modules support and disabling modules versions check in config didn't help.
I can't find any source files in kernel sources, from which these modules can be built. Maybe, they are built from separate platform code (they are placed in vendor, so...) Need to download ALPS (brrr, around 50 gb of tar.bz2 archives) to check it.
I've looked into reference mediatek 4.9 kernel sources and found this:
Code:
# Do build-in for Makefile checking
# export CONFIG_WLAN_DRV_BUILD_IN=y
ifeq ($(CONFIG_WLAN_DRV_BUILD_IN),y)
PATH_TO_WMT_DRV = vendor/mediatek/kernel_modules/connectivity/common
PATH_TO_WLAN_CHR_DRV = vendor/mediatek/kernel_modules/connectivity/wlan/adaptor
PATH_TO_WLAN_DRV = vendor/mediatek/kernel_modules/connectivity/wlan/core/gen4m
ABS_PATH_TO_WMT_DRV = $(srctree)/../$(PATH_TO_WMT_DRV)
ABS_PATH_TO_WLAN_CHR_DRV = $(srctree)/../$(PATH_TO_WLAN_CHR_DRV)
ABS_PATH_TO_WLAN_DRV = $(srctree)/../$(PATH_TO_WLAN_DRV)
# check wlan driver folder
ifeq (,$(wildcard $(ABS_PATH_TO_WMT_DRV)))
$(error $(ABS_PATH_TO_WMT_DRV) is not existed)
endif
ifeq (,$(wildcard $(ABS_PATH_TO_WLAN_CHR_DRV)))
$(error $(ABS_PATH_TO_WLAN_CHR_DRV) is not existed)
endif
ifeq (,$(wildcard $(ABS_PATH_TO_WLAN_DRV)))
$(error $(ABS_PATH_TO_WLAN_DRV) is not existed)
endif
$(warning symbolic link to $(PATH_TO_WMT_DRV))
$(warning symbolic link to $(PATH_TO_WLAN_CHR_DRV))
$(warning symbolic link to $(PATH_TO_WLAN_DRV))
$(shell unlink $(srctree)/$(src)/wmt_drv)
$(shell unlink $(srctree)/$(src)/wmt_chrdev_wifi)
$(shell unlink $(srctree)/$(src)/wlan_drv_gen4m)
$(shell ln -s $(ABS_PATH_TO_WMT_DRV) $(srctree)/$(src)/wmt_drv)
$(shell ln -s $(ABS_PATH_TO_WLAN_CHR_DRV) $(srctree)/$(src)/wmt_chrdev_wifi)
$(shell ln -s $(ABS_PATH_TO_WLAN_DRV) $(srctree)/$(src)/wlan_drv_gen4m)
# for gen4m options
export CONFIG_MTK_COMBO_WIFI_HIF=axi
export MTK_COMBO_CHIP=CONNAC
export WLAN_CHIP_ID=6765
export MTK_ANDROID_WMT=y
# Do build-in for xxx.c checking
subdir-ccflags-y += -D MTK_WCN_REMOVE_KERNEL_MODULE
subdir-ccflags-y += -D MTK_WCN_BUILT_IN_DRIVER
obj-y += wmt_drv/
obj-y += wmt_chrdev_wifi/
obj-y += wlan_drv_gen4m/
endif
No such code in xiaomi's source. And this prooves my words: these modules CAN BE BUILT IN and SOURCES FOR THEM ARE IN ALPS. I have to download this ton of ****...
-------
I tried to backpors drivers from 9.0 - no success. It compiles,but doesn't boot. I tried to hack modules loading - no success too.
[email protected] said:
Adding modules support and disabling modules versions check in config didn't help.
I can't find any source files in kernel sources, from which these modules can be built. Maybe, they are built from separate platform code (they are placed in vendor, so...) Need to download ALPS (brrr, around 50 gb of tar.bz2 archives) to check it.
Click to expand...
Click to collapse
Most of the time those binaries are not open-source (you probably know vendor blobs for Google devices are too, but that is a different story). Nevertheless I don't really get why kernel modules are placed in
Code:
/vendor
- after all, mobile devices don't have hot-plugging hardware that requires dynamic LKM loading, why do they separate them out?
I'll attempt to crawl the web for those sources while waiting for Mi Unlock to allow my device being unlocked (the waiting period sucks).
[email protected] said:
I've looked into reference mediatek 4.9 kernel sources and found this:
No such code in xiaomi's source. And this prooves my words: these modules CAN BE BUILT IN and SOURCES FOR THEM ARE IN ALPS. I have to download this ton of ****...
-------
I tried to backpors drivers from 9.0 - no success. It compiles,but doesn't boot. I tried to hack modules loading - no success too.
Click to expand...
Click to collapse
1. Backports? How?
2. In which file did you got those lines?
3. Indeed those modules' source are removed from our tree - if you have the link, I don't really mind having another 50GB occupied on my PC to get those source code.
minhducsun2002 said:
1. Backports? How?
2. Indeed those modules' source are removed from our tree - if you have the link, I don't really mind having another 50GB occupied on my PC to get those source code.
Because attached below is the existence of the modules. /shrug
Click to expand...
Click to collapse
I already said that i have leaked mtk alps 9.0 sources These modules have sources, they are not prebuilt. I managed to built in them, but kernel doesn't boot at all after that. And i can't take any logs because the system dies before adb init.
Ok, after one little, but very cruel hack modules are fixed. Enjoy testing the kernel.
https://drive.google.com/open?id=1Z3p2fAWOZFyp045QMNV6vhLZvj9ZZPSY
[email protected] said:
Ok, after one little, but very cruel hack modules are fixed. Enjoy testing the kernel.
Click to expand...
Click to collapse
does it work well?
Lonewolf_1210 said:
does it work well?
Click to expand...
Click to collapse
Users from 4pda reported it fully working.
---------------------
Soon will be build with usb network adapters support enabled (requested by romanxdream from 4pda).
P.S. I'm not adding everything requested to kernel. But this was only config modification.
-------
I don't check xda often, so there can be a huge delay in my responses.
[email protected] said:
Users from 4pda reported it fully working.
---------------------
Soon will be build with usb network adapters support enabled (requested by romanxdream from 4pda).
P.S. I'm not adding everything requested to kernel. But this was only config modification.
-------
I don't check xda often, so there can be a huge delay in my responses.
Click to expand...
Click to collapse
Great job then, hope for a custom rom coming soon
Ok, download link to all versions. I'll edit the first post later.
https://drive.google.com/open?id=1yEZRS8L8bPgkk58tT5Uv2b-vsLqk7aql
Should we make a telegram group for this?
Introduction
This thread contains the LineageOS 17.1 custom firmware images for the Unihertz Atom L, a rugged Android phone released by Unihertz in July 2020, and the accompanying LineageOS Recovery used for flashing the firmware.
Please note that this ROM is one of my side projects, for which I could provide zero warranty. By installing this ROM, you acknowledge that you take all the risks that come with installing custom firmwares on your devices, including but not limited to bricking your device, losing your data, etc. You are always suggested to keep backups and make sure you know how to flash back to official ROM before trying any custom ROMs.
Please find the download links in the Download section. The following sections are guides to installing the ROM.
WARNING: DO NOT try to install this on Atom XL. This is ONLY for the Atom L.
Working Features
- All basic features (Telephony, VoLTE, Audio, Camera, NFC, WiFi, Bluetooth, ....)
- Programmable PTT (red) button (Functionality can be set in Settings - System - Buttons, under the "Search Button" section)
- 48MP camera seems to be working (unlike on many other super resolution devices)
Known Issues
- VoLTE is working (at least for me) but sometimes quirky. If you find it somehow stopped working, usually turning it off and back on again (in Settings - Network - Mobile Network) will fix it. Putting the device to SELinux Permissive mode also fixes most of the VoLTE quirks but this is not recommended (a few quirks in Enforcing mode is better than having the whole device Permissive)
Unlocking
1. Boot your Atom L to the official OS
2. Go into Settings - About phone, tap "build number" several times to enable developer settings
3. Go to Settings - System - Developer Settings, enable OEM unlocking and ADB debugging
4. Run `adb reboot bootloader` on your PC (there is no way to enter bootloader directly, only possible through adb)
5. Run `adb flashing unlock` and comfirm unlock on device (THIS WILL WIPE ALL DATA)
6. Reboot and now you should see an unlocked warning during boot screen.
Installing LineageOS Recovery
For now the only working recovery is the LineageOS Recovery, because the device's kernel does not load the touch driver in recovery mode for whatever reason, rendering TWRP useless.
1. Download `lineage_recovery_XXX.img` and `vbmeta.zip`, unpack `vbmeta.zip` to get three .img files starting with `vbmeta`
2. Run `adb reboot bootloader` to put your device in bootloader mode
3. Run `fastboot flash --disable-verification --disable-verity vbmeta vbmeta.img`
4. Run `fastboot flash --disable-verification --disable-verity vbmeta_system vbmeta_system.img`
5. Run `fastboot flash --disable-verification --disable-verity vbmeta_vendor vbmeta_vendor.img`
6. Run `fastboot flash recovery lineage_recovery_XXX.img`
7. Run `fastboot reboot recovery` to reboot into the newly-installed LineageOS Recovery
The LineageOS Recovery is operated by volume keys as selection and power as confirmation (or entering sub-menus). To return to upper levels of menus from sub-menus, press volume up until the selection goes to the first item and then disappears, then press power (i.e. there's a hidden "Go Back" item at the very top of each sub-menu).
The recovery will show a verification failed prompt for most packages that are not signed with the AOSP keys. This is safe to ignore.
Installing LineageOS 17.1
The LineageOS image must be installed via LineageOS recovery.
1. Download `lineage-17.1-Atom_L-XXX.zip`
2. Reboot your device into recovery (`adb reboot recovery` or simply hold volume up while turning power on)
3. Wipe all data (factory reset) (THIS DELETES EVEN INTERNAL STORAGE)
4. Choose Apply Update, then Apply Update from ADB
5. Run `adb sideload lineage-17.1-Atom_L-XXX.zip` from your PC
6. Wait for the process to finish. (The recovery might prompt something about verification failure, just ignore it and continue anyway)
7. At this point, you can then sideload the LATEST Magisk and OpenGAPPS Nano at your will (note that the size of the system partition might only be enough for the `nano` variant of OpenGAPPS) (If installing Magisk / OpenGAPPS fails, you can try rebooting into recovery again in advanced menus, then try installing them again)
8. Reboot into system and enjoy (Note that Magisk might cause your device to boot loop once or two but it will eventually boot)
When updating to a newer build, you have to flash the new zip, and then re-flash whatever mod you have installed previously (Magisk / GAPPS).
Download Links
LineageOS:
lineage-17.1-Atom_L-20200828-peter-signed.zip: https://mega.nz/file/bAgh1BZA#jzMs_0e9NUR9NcALXWp51ZeWttM5rl_3K5T8Or9hAW0
- Synchronized updates from LineageOS upstream.
lineage-17.1-Atom_L-20200728-peter-signed.zip: https://mega.nz/file/vBwlmL5D#wpw8RovBHyVFCLFlhQ2H5QAIb0ECXkT4of0FRijiP6A
LineageOS Recovery:
lineage_recovery_20200728.img: https://mega.nz/file/yc4Dnbyb#yx0Ci9p3q9_lfAiXkGfgWDFnRJI-JSGrv3kyawkU3fw
vbmeta:
vbmeta.zip: https://mega.nz/file/nF51mBoY#ZNY4j92wc_6a1dXch3l5r-w4VFl9QjN7YJaRMKRoEGk
XDA:DevDB Information
LineageOS 17.1 for Unihertz Atom L, ROM for the Android General
Contributors
PeterCxy
Source Code: https://cgit.typeblog.net/android/device/unihertz/Atom_L/
ROM OS Version: Android 10
Version Information
Status: Alpha
Created 2020-07-28
Last Updated 2020-07-28
How different is the Atom XL?
PeterCxy said:
Introduction
WARNING: DO NOT try to install this on Atom XL. This is ONLY for the Atom L.
Unfortunately I've got the XL version which I thought only varied from the L by the presence of a UHF radio! Can you explain to me why its not a suitable candidate for your mods which sound very good!?
And before you ask, I only got this radio for hacking so I don't mind experimenting if that is required. Please let me know if I can help.
The Bitfarmer
Click to expand...
Click to collapse
tvroman said:
PeterCxy said:
Introduction
WARNING: DO NOT try to install this on Atom XL. This is ONLY for the Atom L.
Unfortunately I've got the XL version which I thought only varied from the L by the presence of a UHF radio! Can you explain to me why its not a suitable candidate for your mods which sound very good!?
And before you ask, I only got this radio for hacking so I don't mind experimenting if that is required. Please let me know if I can help.
The Bitfarmer
Click to expand...
Click to collapse
Because Unihertz publishes completely different firmware files for the L and XL, so the safest assumption is that there is more difference than just the UHF radio. If you want to risk it, then you CAN try using this ROM on the XL, as long as you know how to revert back to official if things go wrong. (But I cannot guarantee if the kernel image from L that this ROM uses will not cause serious issues like corrupted baseband or something on the XL)
My suggestion is that instead of trying this ROM directly on the XL, someone with XL can try to modify my device tree for L, replacing the kernel, dtbo images and other vendor blobs from the ones from XL, and then re-compile the ROM for XL. This would be the proper way to handle these two devices.
Click to expand...
Click to collapse
Going XL
Hi.
Great work. :good:
I want to built a ROM for the Atom XL myself. And because I'm no expert on this (for now) I'm in search of guides and hints on how to achieve my goal.
As far as I know the biggest problem with Unihertz is that they use a Mediatek chipset with which they are not allowed to provide the sourcecode of the kernel. Or at least you have to pay for it from Mediatek.
But there are some variants of the chipset (Helio P60; mt6771) used in other mobile phones (e.g. Nokia X5) for which I was able to find kernelsources on Github. Using these and the latest Android kernel from google I tried to compile a kernel as a starting point. I was able to extract the build.config directly from the phone which helped tremendously. This should at least get me to the point where I'm able to assemble a TWRP build. But I believe that I'm still missing some (vital?) drivers which are specific to the actual device. This includes I think the missing touchscreen driver that you mentioned is preventing the recovery to be useful.
So now I'm a little bit stuck, because most of the guides to arrange a LineageOS (or any other custom ROM) build tree I found require the sourcecode from the manufacturer which we don't have. All other guides to build from scratch were too generic for my current level of expertise.
Can you please share your approach to create this build?
If you don't want to do this in the open you could also PM me.
With kind regards
ADT
a-dead-trousers said:
Hi.
Great work. :good:
I want to built a ROM for the Atom XL myself. And because I'm no expert on this (for now) I'm in search of guides and hints on how to achieve my goal.
As far as I know the biggest problem with Unihertz is that they use a Mediatek chipset with which they are not allowed to provide the sourcecode of the kernel. Or at least you have to pay for it from Mediatek.
But there are some variants of the chipset (Helio P60; mt6771) used in other mobile phones (e.g. Nokia X5) for which I was able to find kernelsources on Github. Using these and the latest Android kernel from google I tried to compile a kernel as a starting point. I was able to extract the build.config directly from the phone which helped tremendously. This should at least get me to the point where I'm able to assemble a TWRP build. But I believe that I'm still missing some (vital?) drivers which are specific to the actual device. This includes I think the missing touchscreen driver that you mentioned is preventing the recovery to be useful.
So now I'm a little bit stuck, because most of the guides to arrange a LineageOS (or any other custom ROM) build tree I found require the sourcecode from the manufacturer which we don't have. All other guides to build from scratch were too generic for my current level of expertise.
Can you please share your approach to create this build?
If you don't want to do this in the open you could also PM me.
With kind regards
ADT
Click to expand...
Click to collapse
You don't need the kernel source code to build a working ROM -- just look at my device tree for Atom L. I think you can build a working ROM for the XL by just replacing the prebuilt kernel in my device tree with the one from Atom XL and also re-extracting the vendor blobs from XL using the script in my devcie tree, then rename everything to Atom XL instead of L. I don't know if the integrated amateur radio would still work though.
PeterCxy said:
You don't need the kernel source code to build a working ROM -- just look at my device tree for Atom L. I think you can build a working ROM for the XL by just replacing the prebuilt kernel in my device tree with the one from Atom XL and also re-extracting the vendor blobs from XL using the script in my devcie tree, then rename everything to Atom XL instead of L. I don't know if the integrated amateur radio would still work though.
Click to expand...
Click to collapse
I'm already on to that.
But I seem to have trouble extracting the prebuilt kernel. None of the tools I found gave me the exact files you have got (dtb.img, dtbo.img, Image.gz). What did you use?
The best I could get were "dtb", "kernel" and "dtborecovery" (without extensions) which roughly had the same size as yours.
Also, as far as I understand it, with your initial commit (without the modifications for Lineage itself) I should be able to at least compile a recovery image but I got an error regarding a missing dtb.img file in the "out" directory.
Something seems to be missing because, my dtb file is in the "device" directory and not being transfered into "out" during building.
I'm not sure that is because I have got a different naming scheme (renamig it didn't help) or I did something wrong with the extraction.
---------- Post added at 07:30 ---------- Previous post was at 07:14 ----------
Another question I have:
Are the vbmeta-files you used to flash the recovery the ones from the original firmeware zip from unihertz or did you get them from the lineage built?
And reguarding the rather smallish system partition:
I have an idea to bypass that by using the SPFlash Tool from Mediatek. As far as I understand the settings in the scatter-file this tool does a repartitioning of the internal storage. So we only need to "decrease" the userdata, "move" some partitions inbetween and "increase" the system. Only problem is, I couldn't find a partition designated as "system" in the scatter-file, only one big "super" and a "vbmeta-system" (which for my understaning is for verified boot) partition.
What do you think?
a-dead-trousers said:
I'm already on to that.
But I seem to have trouble extracting the prebuilt kernel. None of the tools I found gave me the exact files you have got (dtb.img, dtbo.img, Image.gz). What did you use?
The best I could get were "dtb", "kernel" and "dtborecovery" (without extensions) which roughly had the same size as yours.
Also, as far as I understand it, with your initial commit (without the modifications for Lineage itself) I should be able to at least compile a recovery image but I got an error regarding a missing dtb.img file in the "out" directory.
Something seems to be missing because, my dtb file is in the "device" directory and not being transfered into "out" during building.
I'm not sure that is because I have got a different naming scheme (renamig it didn't help) or I did something wrong with the extraction.
---------- Post added at 07:30 ---------- Previous post was at 07:14 ----------
Another question I have:
Are the vbmeta-files you used to flash the recovery the ones from the original firmeware zip from unihertz or did you get them from the lineage built?
And reguarding the rather smallish system partition:
I have an idea to bypass that by using the SPFlash Tool from Mediatek. As far as I understand the settings in the scatter-file this tool does a repartitioning of the internal storage. So we only need to "decrease" the userdata, "move" some partitions inbetween and "increase" the system. Only problem is, I couldn't find a partition designated as "system" in the scatter-file, only one big "super" and a "vbmeta-system" (which for my understaning is for verified boot) partition.
What do you think?
Click to expand...
Click to collapse
> None of the tools I found gave me the exact files you have got (dtb.img, dtbo.img, Image.gz). What did you use?
There is a tool called `unpack_bootimg` in the Android source code. Just run `make unpack_bootimg` in the root directory of the Android source tree and you will get one in the output directory. (btw I have renamed those extracted files so the names won't exactly match, but you need this tool to extract the correct images. All other tools won't work properly).
> my dtb file is in the "device" directory and not being transfered into "out" during building.
Because most tools other than `unpack_bootimg` extracts dtb incorrectly.
> Are the vbmeta-files you used to flash the recovery the ones from the original firmeware zip from unihertz or did you get them from the lineage built?
Those don't matter. Either will work as long as you flash it with the correct parameters as given in my post.
> And reguarding the rather smallish system partition
No don't do that. Android 10 does not use a separate system partition anymore, instead both system, vendor and product are sub-partitions in a huge super partition. When flashing a new ROM, the partitions are automatically resized to match the new image exactly, instead of leaving free space unused like before Android 10. That's why I need to reserve space in BoardConfig.mk for gapps to be installed correctly.
Still not able to build.
PeterCxy said:
There is a tool called `unpack_bootimg` in the Android source code. Just run `make unpack_bootimg` in the root directory of the Android source tree and you will get one in the output directory. (btw I have renamed those extracted files so the names won't exactly match, but you need this tool to extract the correct images. All other tools won't work properly).
Click to expand...
Click to collapse
I'm still getting an error:
Code:
FAILED: ninja: 'out/target/product/Atom_XL/dtb.img', needed by 'out/target/product/Atom_XL/boot.img', missing and no known rule to make it
Comparing your BoardConfig.mk with mine shows a slight difference in the offset and size values which could be associated with the different kernels of the phones.
But using "unpack_bootimg" I didn't get a value for "BOARD_KERNEL_OFFSET" like you have it in your config. Could this be the problem?
Your BoardConfig.mk
My BoardConfig.mk
Do you see anything else out of the ordinary?
(Because I'm doing everything what you did step-by-step the links point to the best matching commits)
Despite not being able to compile right now I tried to press on with integrating your changes in the hopes that it will be fixed somehow later on
So I'm currently stuck on this commit of yours:
Atom_L: import overlay from official vendor
Where did you get the "config.xml" and "power_profile.xml" from? The best thing I could find was a "power_profile.xml" inside "/vendor/overlay/FrameworkResOverlay/FrameworkResOverlay.apk" which seems to be a "compiled" version of the aforementioned xml-file.
a-dead-trousers said:
I'm still getting an error:
Code:
FAILED: ninja: 'out/target/product/Atom_XL/dtb.img', needed by 'out/target/product/Atom_XL/boot.img', missing and no known rule to make it
Comparing your BoardConfig.mk with mine shows a slight difference in the offset and size values which could be associated with the different kernels of the phones.
But using "unpack_bootimg" I didn't get a value for "BOARD_KERNEL_OFFSET" like you have it in your config. Could this be the problem?
Your BoardConfig.mk
My BoardConfig.mk
Do you see anything else out of the ordinary?
(Because I'm doing everything what you did step-by-step the links point to the best matching commits)
Despite not being able to compile right now I tried to press on with integrating your changes in the hopes that it will be fixed somehow later on
So I'm currently stuck on this commit of yours:
Atom_L: import overlay from official vendor
Where did you get the "config.xml" and "power_profile.xml" from? The best thing I could find was a "power_profile.xml" inside "/vendor/overlay/FrameworkResOverlay/FrameworkResOverlay.apk" which seems to be a "compiled" version of the aforementioned xml-file.
Click to expand...
Click to collapse
> Comparing your BoardConfig.mk with mine shows a slight difference in the offset and size values which could be associated with the different kernels of the phones.
TARGET_KERNEL_OFFSET should normally always be 0x00008000. Also, your other offset values seem to be wrong too -- those values from `unpack_bootimg` cannot be filled in directly to BoardConfig.mk. Instead, you need to subtract BOARD_KERNEL_BASE from them (e.g. BOARD_RAMDISK_OFFSET should be 0x55000000 - 0x40078000, which is 0x14f88000, the same as mine). In fact, I think those parameters should be exactly the same for XL and L. Other than that, I don't think I can see much of a problem about your makefiles.
However, note that not all of my historical commits represent a compilable state of the device tree. I'd suggest you start directly from the latest state and just replace whatever is relevant instead of starting over. And there should not be much that needs changing at all except device names, fingerprints and the proprietary vendor files.
> Where did you get the "config.xml" and "power_profile.xml" from
Exactly from those apks. Just decompile them using apktool.
PeterCxy said:
TARGET_KERNEL_OFFSET should normally always be 0x00008000. Also, your other offset values seem to be wrong too -- those values from `unpack_bootimg` cannot be filled in directly to BoardConfig.mk. Instead, you need to subtract BOARD_KERNEL_BASE from them (e.g. BOARD_RAMDISK_OFFSET should be 0x55000000 - 0x40078000, which is 0x14f88000, the same as mine). In fact, I think those parameters should be exactly the same for XL and L. Other than that, I don't think I can see much of a problem about your makefiles.
Click to expand...
Click to collapse
Still giving me errors.
So I tried a very unconventional approach: I just copied the file myself into the mentioned "out/target/product/Atom_XL" folder.
For now it's still compiling. Fingers crossed.
PeterCxy said:
However, note that not all of my historical commits represent a compilable state of the device tree. I'd suggest you start directly from the latest state and just replace whatever is relevant instead of starting over. And there should not be much that needs changing at all except device names, fingerprints and the proprietary vendor files.
Click to expand...
Click to collapse
I just reached your biggest commit yet.
Can you tell me how you got the list of needed files? I hope it's not through trial-and-error.
Except for the values in "setup-makefiles.sh" only the "proprietary-files.txt" seems to be device specific. Is there anything else I need to be aware of in this commit?
P.S.: I know it is tedious to go through your commits one by one but I want to learn something of it not just simply copying what you did. To get a feeling where the biggest pitfalls are and what you did to circumvent them.
a-dead-trousers said:
Still giving me errors.
So I tried a very unconventional approach: I just copied the file myself into the mentioned "out/target/product/Atom_XL" folder.
For now it's still compiling. Fingers crossed.
I just reached your biggest commit yet.
Can you tell me how you got the list of needed files? I hope it's not through trial-and-error.
Except for the values in "setup-makefiles.sh" only the "proprietary-files.txt" seems to be device specific. Is there anything else I need to be aware of in this commit?
P.S.: I know it is tedious to go through your commits one by one but I want to learn something of it not just simply copying what you did. To get a feeling where the biggest pitfalls are and what you did to circumvent them.
Click to expand...
Click to collapse
> Still giving me errors.
Looks like that dtb.img error was totally my fault -- it was due to my jerry-rigged solution of using prebuilt dtb image that conflicted with one of Lineage's update in August and I haven't built the ROM for a month. Now I have fixed it in the latest commit.
> Can you tell me how you got the list of needed files?
All of those files are for VoLTE support and I started with the list from a commit in Redmi Note 7 Pro's device tree that imported those VoLTE blobs, and then added what was missing one by one (when something is missing the Phone process will crash and you can see what got missing in the logs). I don't think the list will be any different on Atom XL so you can just use the one in my device tree.
Hi.
Thanks to you everything is running smoothly here. But what bugs me is that TWRP is not working on our devices.
Although for the Atom there is a possibility: https://forum.xda-developers.com/android/development/twrp-modded-to-unihertz-atom-t3885793
Before I want to go public with my build I wanted to solve this last "mystery".
So I tried to include it in my current source tree according to the (official?) guide but some errors prevented me from a successful build.
Naturally I asked for some guidance at the most reasonable places I know of but got nothing so far:
https://forum.xda-developers.com/showpost.php?p=83443611&postcount=4622
https://forum.xda-developers.com/showpost.php?p=83455271&postcount=4623
https://github.com/TeamWin/android_bootable_recovery/issues/70
I even tried different repositories (omnirom/android_bootable_recovery) and revisions (android-9.0) but these resulted in missing library "type" (static vs. shared) errors so I assume these are too old for LineageOS 17.1
What I want to know is how you managed to get TWRP to built for your device even though the touchscreen wasn't working?
Did you use your LineageOS source tree or one of the many "minimal" manifests? If so, which one would be the "best" to use?
wkr ADT
@PeterCxy and @a-dead-trousers
Thanks for all the work on this so far. I've got an Atom L and have gotten the ROM's PeterCxy posted running on them as in the OP. Do either of you have a quick step-by-step workflow of how you got all the Lineage sources set up and built into the various ROMs? I'd like to be able to build the ROMs from scratch and understand the process.
If I can get caught up to where you two are at with the builds, I can help debug, test and work through issues.
dirtylimerick said:
[MENTION=5351691] Do either of you have a quick step-by-step workflow of how you got all the Lineage sources set up and built into the various ROMs? I'd like to be able to build the ROMs from scratch and understand the process.
If I can get caught up to where you two are at with the builds, I can help debug, test and work through issues.
Click to expand...
Click to collapse
I documented my steps to setup up the build environment in the readme of my repo:
https://github.com/ADeadTrousers/android_device_Unihertz_Atom_XL
But leave out the TWRP part. It isn't working yet mostly because TeamWin/android_bootable_recovery and LineageOS/android_bootable_recovery are too similar.
To figure out all the bits and pieces needed for the device I followed the commit log of @PeterCxy build.
Hi, @PeterCxy.
Finally I was able to build a TWRP recovery and surprise, surprise the touchscreen isn't working.
But during my attempts to get a working TWRP build I came acros a guide that explains how to patch the kernel to get the touchscreen to work.
https://forum.hovatek.com/thread-27132.html
So I tried to follow it but failed to identify the "end" of the zipped Image-file (step 18) to remove the payload from the gz-file. Regardless of which of the null-bytes I use for cutting I always get a warning from 7-zip that there is still data at the end.
Do you know a better approach to achieve this whole patching? Maybe even come up with a scripting solution to easily apply this patch in later builds?
wkr ADT
a-dead-trousers said:
Hi, @PeterCxy.
Finally I was able to build a TWRP recovery and surprise, surprise the touchscreen isn't working.
But during my attempts to get a working TWRP build I came acros a guide that explains how to patch the kernel to get the touchscreen to work.
https://forum.hovatek.com/thread-27132.html
So I tried to follow it but failed to identify the "end" of the zipped Image-file (step 18) to remove the payload from the gz-file. Regardless of which of the null-bytes I use for cutting I always get a warning from 7-zip that there is still data at the end.
Do you know a better approach to achieve this whole patching? Maybe even come up with a scripting solution to easily apply this patch in later builds?
wkr ADT
Click to expand...
Click to collapse
There is no sane way to solve the problem without kernel source code. Basically the stock kernel just does not load the touch screen driver in recovery mode. That patching guide is pretty out of date and I imagine it won't work on most recent kernels. The only proper way is to pressure Unihertz to actually obey GPLv2 and release their kernel source code. Or maybe someone can try reverse-engineering the kernel, but at least I won't do it because it'll just be too much of a hassle.
PeterCxy said:
There is no sane way to solve the problem without kernel source code. Basically the stock kernel just does not load the touch screen driver in recovery mode. The only proper way is to pressure Unihertz to actually obey GPLv2 and release their kernel source code.
Click to expand...
Click to collapse
I'm with you on this one, but as long as we don't have the source code we need to resort to other means to achieve our goals.
PeterCxy said:
That patching guide is pretty out of date and I imagine it won't work on most recent kernels.
Click to expand...
Click to collapse
Yeah it's from way back in 2019
Anyway, with a little bit of tinkering I was able to modify my kernel to load the touchscreen driver in recovery mode.
Here is the device tree and the manifest i used.
I wouldn't recommend to use it in it's current state at all though because the fstab needs a little bit of tinkering. Everything seems to be either unordered or not mounted properly and I fear anything you do in there now will mess up the whole device. BUT I got the touchscreen goin for me which is nice.
PeterCxy said:
Or maybe someone can try reverse-engineering the kernel, but at least I won't do it because it'll just be too much of a hassle.
Click to expand...
Click to collapse
As soon as I have everything sorted out that needs to be fixed on my build (e.g. signing, radio, included gapps working properly, TWRP) I want to dig deeper into the kernel.
There are some devices with Helios P60 out there from other vendors which offer kernel sources.
P.S.: I also uploaded a HOW-TO in my device tree.
If you or someone else wants to try it. Also if you want to you can send me a "symbl.txt" (see to the HOW-TO) extracted from your device then I can do the patching for the Atom_L too.
a-dead-trousers said:
I'm with you on this one, but as long as we don't have the source code we need to resort to other means to achieve our goals.
Yeah it's from way back in 2019
Anyway, with a little bit of tinkering I was able to modify my kernel to load the touchscreen driver in recovery mode.
Here is the device tree and the manifest i used.
I wouldn't recommend to use it in it's current state at all though because the fstab needs a little bit of tinkering. Everything seems to be either unordered or not mounted properly and I fear anything you do in there now will mess up the whole device. BUT I got the touchscreen goin for me which is nice.
As soon as I have everything sorted out that needs to be fixed on my build (e.g. signing, radio, included gapps working properly, TWRP) I want to dig deeper into the kernel.
There are some devices with Helios P60 out there from other vendors which offer kernel sources.
P.S.: I also uploaded a HOW-TO in my device tree.
If you or someone else wants to try it. Also if you want to you can send me a "symbl.txt" (see to the HOW-TO) extracted from your device then I can do the patching for the Atom_L too.
Click to expand...
Click to collapse
Happy to hear that you were able to figure the touchscreen out. I tried to port TWRP at the very beginning when I started tinkering with the device but quickly grew frustrated and just ported Lineage Recovery instead. I guess I might try patching the kernel image too at some point later.
BTW, for TWRP to work with devices released after Android 10, I'm pretty sure you need an extra set of patches that are not yet fully merged to the main TWRP repository. I remember there's some guy providing another manifest with all the patches applied but I couldn't remember the name.
Hi.
I just officially announced my build for the Atom XL:
https://forum.xda-developers.com/android/development/rom-lineageos-17-1-unihertz-atom-xl-t4171407
Could you please put a link in your first post for those in search of the Atom XL and found your thread instead. Thanks.
wkr ADT
hi @PeterCxy.
During my daily usage of the phone I encountered a strage problem:
The audio jack isn't working. Plugging in some headphones I get this slight click in the earpieces when the circuits connect but nothing else happens. Neither a "headphone" icon in the status bar nor hearing anything coming from the headphones itself. The main speaker of the phone keeps playing the music. Using bluetooth everything is working as expected though. So I used logcat to see if something is coming up during plugging in but nothing "catchy" shows up in the logs. My guess is that some (vendor?) service is missing or not started during booting. Next I checked If something shows up on logcat during boot but I'm not sure for what to look exactly. There are quite a few errors and warnings though. In my despair I started to "fix" the "avc: denied" (SEPolicy) entries. Thats when I found a specific error reguarding VoLTE. Maybe this would fix the problems you had with VoLTE in enforcing mode:
https://github.com/ADeadTrousers/an..._Atom_XL/blob/master/sepolicy/private/init.te
(The line with "socket_device:sock_file")
My provider doesn't support VoLTE so I'm not sure if this helps or not. Maybe you could check it.
Anyway can you please tell me if your device's audio jack is working or not?
If you're (by some mysterious coincidence) not affected by this, can you at least give me some pointers for what to look for to get this fixed on my side.
The Internet Is not very helpful when searching for "android audio jack" or something similiar.
Thanks in advance.
wkr ADT
Hello I have been trying to extract the kernel from Tucana android 10 source. I would like to know if anyone has a working config to be able to build up the kernel.
I have a config but it does not extract everything, well I don't think it does and would like to know what toolchain is best for Xiaomi devices. Been using Google's AOSP toolchain from pre-builts and I can build the kernel. It becomes 16mb for Image.gz-dtb I flash it using fastboot boot Image.gz-dtb and phone boots to splash screen but does not go any further. Is it normal?
This thread has the config and information https://forum.xda-developers.com/t/my-experience-building-the-tucana-kernel.4240985/
I think this is the solution
How To Use
Xiaomi Mobile Phone Kernel OpenSource. Contribute to MiCode/Xiaomi_Kernel_OpenSource development by creating an account on GitHub.
github.com
Taken from above source link.
need this in order to get the device files for the xiaomi mobile of your choice in the android revision branch of your choice.
Dont think I can use AOSP untill i use this to first get the kernel files built and then able to use the same files with AOSP.
Download Qualcomm Android Enablement Project
Acutally, this step is optional. But this project integrates many tools such as cross compiler which are required for building our kernel. Of course you can use your own tools to compile kernel, but it may be a tough work to configure.
You can download the whole QAEP on Codeaurora
Can indeed confirm that you need the project from Codeaurora instead of AOSP. it has the platform SM6150. over 100+GB download though.
Make sure when after choosing the release branch with your device and about to sync. only use a max of 3 processors. no more then 3. Codeaurora has a bandwidth limiter. so the more you have the longer it will take.
Tested the theory myself.
Downloaded first time, took 9 hours with max -jN then restricted the -jN to -j3, process for over 100GB took only an hour.