I have read a few posts in this section, but it is totally impossible for someone like me (new to smartphones, flashing and the rest) to understand anything. Would you please explain some of the terminologies used here? Some of them are: kernel, 3g, port, system.ext2, BT... and thousands more.
Thank you very much!
you don't really "need" to understand any of that.
all you need to do is to learn how to download files, learn how to extract the downloaded file, learn how to copy them to an sd card, and learn how to run a program inside windows mobile.
if you can do all that, you should be set!!!
just follow steps 1-6 (ignore step 1b - the part about system.ext2) - http://forum.xda-developers.com/showthread.php?t=951962
Well noted AkumaX. Thank you very much!
XDAndroid is a project to port Android onto older HTC phones.
There are two main parts of XDAndroid, which combine to form a complete port:
Kernel/drivers: You can find packages to run Android on old HTC phones from a variety of sources, but whatever package you use, all rely upon the kernels/drivers created by the XDAndroid team to enable the basic hardware.
Android system: The Android system forms all of the parts of the phone's interface that you can directly interact with. Once the kernel/drivers have setup the hardware, you can add on an Android system port of your choice to form a complete build. Many system ports are available, both in terms of different versions (2.1 Eclair, 2.2 Froyo, 2.3 Gingerbread, etc.) and different starting points in the case of ports written by those outside of XDAndroid.
XDAndroid releases an "official" system port you can use, which is directly ported over by the XDAndroid team from the Android Open Source Project, and is very close to stock. Many of the alternative builds you come across are modifications of the XDAndroid system, containing customizations that deviate farther from stock Android, while others have different starting points altogether, and are ports of the ROMs found on official shipping devices that have already been customized (but still use the same basic kernel/drivers found here).
Android is a framework that runs on top of Linux. In order to get Android running on our devices, first we must get Linux running on the hardware with all drivers implemented, and then, we hook Android into these drivers. Thus, broadly viewed, the XDAndroid project is divided into two parts: the kernel/drivers and the Android port.
When you look at the files in your Android directory, you'll probably see something like the following:
zImage: The Linux kernel and drivers.
modules-###: Additional drivers for the kernel. Your system will load without this, but things like wifi may not work, or you may encounter instability.
initrd.gz: Used in the Linux boot process.
system.ext2: Most of the Android framework.
rootfs.img: Additional parts of the Android framework that are customized for our devices.
data.img: This file contains what would be your internal memory on a real Android device. Whenever you install a program it goes in to here. A new empty one will be automatically created if you don't have one.
haret.exe: Reboots you from Windows into XDAndroid.
startup.txt: Commands passed to XDAndroid on bootup that are customized by the user.
ts-calibration: Contains calibration information for the touch screen. If you don't have this file, you will be prompted to calibrate your screen on startup.
AndroidApps: A folder where if you copy any apks into it, they will be automatically installed on bootup.
manekineko said:
XDAndroid is a project to port Android onto older HTC phones.
-------.
Click to expand...
Click to collapse
Good explanation manekineko!...I believe this is what op was looking for.
there is light at the end of the tunnel, it wont take much longer if the devs keep up this good work, until there can be made stable and good builds with good battery life etc. when the time is there i will create an complete noob friendly installation guide (with pics and maybe even an vid).
I'm currently trying to figure out which one to install!
manekineko said:
XDAndroid is a project to port Android onto older HTC phones.
There are two main parts of XDAndroid, which combine to form a complete port:
Kernel/drivers: You can find packages to run Android on old HTC phones from a variety of sources, but whatever package you use, all rely upon the kernels/drivers created by the XDAndroid team to enable the basic hardware.
Android system: The Android system forms all of the parts of the phone's interface that you can directly interact with. Once the kernel/drivers have setup the hardware, you can add on an Android system port of your choice to form a complete build. Many system ports are available, both in terms of different versions (2.1 Eclair, 2.2 Froyo, 2.3 Gingerbread, etc.) and different starting points in the case of ports written by those outside of XDAndroid.
XDAndroid releases an "official" system port you can use, which is directly ported over by the XDAndroid team from the Android Open Source Project, and is very close to stock. Many of the alternative builds you come across are modifications of the XDAndroid system, containing customizations that deviate farther from stock Android, while others have different starting points altogether, and are ports of the ROMs found on official shipping devices that have already been customized (but still use the same basic kernel/drivers found here).
Android is a framework that runs on top of Linux. In order to get Android running on our devices, first we must get Linux running on the hardware with all drivers implemented, and then, we hook Android into these drivers. Thus, broadly viewed, the XDAndroid project is divided into two parts: the kernel/drivers and the Android port.
When you look at the files in your Android directory, you'll probably see something like the following:
zImage: The Linux kernel and drivers.
modules-###: Additional drivers for the kernel. Your system will load without this, but things like wifi may not work, or you may encounter instability.
initrd.gz: Used in the Linux boot process.
system.ext2: Most of the Android framework.
rootfs.img: Additional parts of the Android framework that are customized for our devices.
data.img: This file contains what would be your internal memory on a real Android device. Whenever you install a program it goes in to here. A new empty one will be automatically created if you don't have one.
haret.exe: Reboots you from Windows into XDAndroid.
startup.txt: Commands passed to XDAndroid on bootup that are customized by the user.
ts-calibration: Contains calibration information for the touch screen. If you don't have this file, you will be prompted to calibrate your screen on startup.
AndroidApps: A folder where if you copy any apks into it, they will be automatically installed on bootup.
Click to expand...
Click to collapse
Thank you so much for your explanations, manekineko. I believe that I am now ready to cruise through all the threads of this section without fear.
shatred said:
there is light at the end of the tunnel, it wont take much longer if the devs keep up this good work, until there can be made stable and good builds with good battery life etc. when the time is there i will create an complete noob friendly installation guide (with pics and maybe even an vid).
Click to expand...
Click to collapse
shatred, I am eagerly waiting for two things: (i) for the developers to release the perfect Android builds (my sincere encouragements to them by the way!!!) and (ii) for your installation guide.
gueyenono said:
I'm currently trying to figure out which one to install!
Click to expand...
Click to collapse
tell me your phone type, so an rhod-100? 200? 300? etc.
and tell me what you prefer more, an good battery life and an stable running system without camera support OR less stable system, bad battery life but with camera support.
Tell me and i will help you
shatred said:
tell me your phone type, so an rhod-100? 200? 300? etc.
and tell me what you prefer more, an good battery life and an stable running system without camera support OR less stable system, bad battery life but with camera support.
Tell me and i will help you
Click to expand...
Click to collapse
Uhm... You no longer have to choose. WisTilt2 pulled the latest commits from GIT into his test kernel.
arrrghhh said:
Uhm... You no longer have to choose. WisTilt2 pulled the latest commits from GIT into his test kernel.
Click to expand...
Click to collapse
yeah but if you activate the camera libs the phone wont go into deep sleep mode right? or is that fixed already?
shatred said:
yeah but if you activate the camera libs the phone wont go into deep sleep mode right? or is that fixed already?
Click to expand...
Click to collapse
Seems I was wrong about that. It was the other way around, if the libs are disabled the phone won't sleep.
However, with FRX05 there's no need for the libs. FRX05 + GIT kernel or WisTilt2's newest kernel is all you need for cam.
arrrghhh said:
Seems I was wrong about that. It was the other way around, if the libs are disabled the phone won't sleep.
However, with FRX05 there's no need for the libs. FRX05 + GIT kernel or WisTilt2's newest kernel is all you need for cam.
Click to expand...
Click to collapse
hmm yeah about that, i tried frx05 with wistilt2 latest kernels but it doesnt work for me, i think its an problem with my user conf... can you perhaps send me your user conf from frx05?
shatred said:
hmm yeah about that, i tried frx05 with wistilt2 latest kernels but it doesnt work for me, i think its an problem with my user conf... can you perhaps send me your user conf from frx05?
Click to expand...
Click to collapse
Same for FRX04... It's in my bundle.
If you remove all of the ln -s and bind mounts, should work just fine...
Hello,
I want to compile Android from source. I want to just build a fully default Gingerbread that would run nice on my phone. I got the Android source, kernel source (kernel-2.6.32-U8800-Froyo) and now I don't know what to do next. I compiled the generic one already (lunch full-eng) and it ran fine on the emulator.
My most important question is, if I make it otapackage and flash it, would it start? If it doesn't, can I recover? What folders/files are essential if I make my own device for example in "device/huawei/u8800"
Also, where can I find a GOOD porting guide? I have found some that are old and not used anymore.
Some links
Start by going through source.android.com for the general basics if you havent already.
Also, even though Google removed the PDK (Platform Developer's Kit) from the site, it has been mirrored on kandroid here: http://www.kandroid.org/online-pdk/guide/index.html
The stuff in the the PDK, although inadequate, is still very important and explains how to create the necessary makefiles to add to the build, configuring for a new market, etc. etc.
Also,
watch these two videos over here. These were very helpful in my ROM development:
http://www.youtube.com/watch?v=1_H4AlQaNa0
http://www.youtube.com/watch?v=rFqELLB1Kk8
Learn to use github. It is helpful for you to keep track of your changes as well as incorporate others works into your own.
http://help.github.com/
Finally, Cyanogenmod repos are your BEST friend. Almost all major AOSP ROM devs owe some sort of thanks to those guys who have done so much. If you want to check out some of the code changes and patches that you want to incorporate look here on their gerrit:
review.cyanogenmod.com
If you want to look at the other changes that are actually in the cyanogenmod builds, best to look at their git repos here:
https://github.com/CyanogenMod
I am still learning right now while I create my ROM but your welcome to PM me if you have any questions
Glad someone helped. Now that ICS is available, I will build that instead. Now, I will follow the kandroid tutorial and add hardware_msm7x30 from cyanogenmod's repos. Then I'll make my own makefiles in the huawei/u8800 and I'll see if that works.
Also, some things I am not still clear. If I am not adding any recovery files, it shouldn't replace it, right? I want to make sure I can recover. However, my phone has a bootloader mode, which should still work, even if other's messed up. And the kernel, if I already have a compiled kernel for android 2.2, should it work for newer versions?
Thanks
Well AOSP as far as I know adds the stock recovery into the build so if you have a stock ROM, then you will lose your recovery (unless you change the source to skip the adding of recovery to otapackage).
Your bootloader should be fine. so you will theoretically be able to re-flash a custom recovery with fastboot as long as your bootloader is unlocked (assuming your phone is already rooted and has a custom rom, then it should be unlocked)
If you are using CM7 as base, then you dont have to worry about it as it is configured to NOT replace the recovery during the building and creating the otapackage.
The kernel should not be compatible as there were significant changes from Froyo and you should not use it. By the way, for now, work on the ROM first. Creating a custom kernel from scratch is hard work and should be left as the last task to do (assuming you know linux kernel development). Just use the stock pre-built kernel that comes with the source.
Also, according to Google:
Starting with IceCreamSandwich, the Android Open-Source Project can't be used from pure source code only, and requires additional hardware-related proprietary libraries to run, specifically for hardware graphics acceleration.
Click to expand...
Click to collapse
This means you need to find the correct hardware drivers first. Where to find that is beyond me. Check CM repos. It would be easy if everyone had a Nexus S/ Galaxy Nexus as the drivers are immediately available on source.android.com. Ah...well....
Personally, I am going to wait a few weeks before dabbling into ICS ROMs. Wait till CM7 comes out with a nightly for my nexus one and then rip the drivers from their ROM and use it for mine
I got ICS source and made the necessary Android.mk, AndroidProducts.mk, BoardConfig.mk and u8800(my device).mk, also vendorsetup.sh . Now, when I am trying to build it doesn't give me an error, more of a suggestion. It says to include "LOCAL_MODULE_TAGS := optional" in the hardware/msm7k/liblights/Android.mk. I added that, and tried again. Got that message again, but with other type /libril/Android.mk
About fastboot, I am not sure if my device has that. It can be turned on with volume up and down + power, but it boots to so called "pink screen". When I mount phone using usb to my pc, I can browse the recovery.img and other related stuff. If I have the otapackage, can I just take the recovery out from there or what should I modify in source? Add something to the makefiles?
Yeah I am pretty sure you should add the LOCAL_MODULE_TAGS to all of the relevant pre-built files. maybe they made the compiler less harsh in ICS when compared to the one for gingerbread. In gingerbread, it outright crashed the compile and asked you to add the tags.
According to Google engineers, here is the reason why they use these tags:
Short answer: lack of time.
The urgent concern was to prevent new modules from using a user tag
(implicitly or explicitly), and we took care of that. We haven't had
time to deal with the existing modules, there are over 1000 of those.
JBQ
Click to expand...
Click to collapse
By the way, I hope you have git setup and the changes you have made are being staged and commited to your repo in github. If you ever make a mistake that hardcore crashes your compile and you dont know what you did, git will be there for you to rollback the changes as well as keep track of everything you have done from commit to commit
As far as I know, CM repos dont have everything complete for a full build of ICS but I could be wrong.
So you are working with AOSP correct?
As for the fastboot every android phone should have a fastboot by default but I believe each phone has a slightly different version. I will post how my fastboot looks like in a bit.
As for the removal of recovery, there should be somewhere in either source, makefiles or argument for the otapackage command that should leave out the recovery when making update.zip. You could just remove the recovery from the update.zip, change the updater-script and repackage it but its not a clean solution and those changes should be done in a uniform manner so you dont repeat this step every time you do a new build.
Where exactly is it, I have yet to know. Still learning much of this myself.
I now completely understand what modes of turning on my phone has... First one is normal, second is recovery, third is update-bootloader(I can access all files with it too) and four being the fastboot. The custom recovery I have on has an issue that it wants to boot to charging mode when I type "adb reboot bootloader". I can get to fastboot with the custom ROM I have on right now though. I think I am safe if I have issues.
I edited msm7k Android.mk to remove libaudio and libgralloc (errors with those), and it compiles to the step where it says it has no rule to make kernel requied by boot.img. I have put into BoardConfig.mk the line TARGET_PREBUILT_KERNEL with my kernel. I don't understand, what's wrong now...
My goal is to simply get it booting up. I'll look into libraries and other later.
-e-
Got the kernel thing sorted out. Copied device.mk from tuna device and edited to fit my device. Also modified full_u8800.mk and made the call to inherit from device.mk. Compiling now and I think I got past that.
-e2-
Got it built successfully. Fastboot won't let it install, because it has no mount points. Added mount points and let's see...
Nice to see you are making progress.
Got it built, but the fastboot is kinda buggy in my device, maybe custom rom issue. I can't make otapackage, it says "no rule to make target otapackage". I have a possible fix, trying that later.
Otherwise, I read its possible to flash system.img from recovery via advanced restore, update.zip package or advanced flash_image, but I don't know. Will post results.
Sent from my u8800
-e-
Tried make otapackage again. It still says "make: *** No rule to make target `otapackage'. Stop.". Maybe some things are still missing, I don't know. adb flash_image command will always post -1 to me, update.zip didn't work, advanced restore is not for this. I have a compiled image and I can't wait to test it, but I can't flash it...
If nothing works I'll revert to stock ROM and try again.
Blefish said:
Got it built, but the fastboot is kinda buggy in my device, maybe custom rom issue. I can't make otapackage, it says "no rule to make target otapackage". I have a possible fix, trying that later.
Otherwise, I read its possible to flash system.img from recovery via advanced restore, update.zip package or advanced flash_image, but I don't know. Will post results.
Sent from my u8800
-e-
Tried make otapackage again. It still says "make: *** No rule to make target `otapackage'. Stop.". Maybe some things are still missing, I don't know. adb flash_image command will always post -1 to me, update.zip didn't work, advanced restore is not for this. I have a compiled image and I can't wait to test it, but I can't flash it...
If nothing works I'll revert to stock ROM and try again.
Click to expand...
Click to collapse
If you successfully compiled, take the boot.img and system.img and package them into a zip and use dsixda's kitchen to make it flashable
Blefish, is it possible for you to share your device/vendor structures somewhere? I just finished setting up a build machine for ICS (using Cyanogenmod's repos in my case), and made a working full-eng image that seems to boot just fine in the emulator, so I'm seemingly all ready to hack around our device's specifics. But I would rather not do duplicate work, so I decided to ask
I'm also grabbing Huawei's new 2.6.35-based package to get the new kernel config, can't wait for them to release the actual sources for the update.
I'll share them on GitHib once I get a working build. I haven't got much time, and I changed to CM9 alpha now (repo branch ics). Since we got a 2.3 update, my first task is to port the latest clockworkmod recovery and then the ICS.
Compiling Android is long task and I'll do it in weekends, but the recovery should be available sometime, it shouldn't be hard to port that.
Oh yeah, look up stockwell's, dzo's and genokolar's github, they have done the device configuration. You can get much help from there. This weekend I'll propably test the build, I got otapackage command working now (it needed some things I can't write on mobile).
Sent from my U8800 using Tapatalk
This is a cross-post from a reddit thread I started, but this is probably a more appropriate location for it.
I have been trying to modify files in the system folder for the Android container on the Asus Flip so I can install SuperSu, but have run into some problems.
The system folder is contained in a squashfs image on the chromebook at /opt/google/containers/android/system.raw.img. Mounted squashfs images appear to not support read-write access. I have been able to unsquash the image, add the SuperSU apk to the /system/priv-app folder and su to the /system/xbin folder, and remake the image. This boots, but SuperSU force closes as soon as it starts.
To make tinkering easier, I've tried building a writable image using dd and mkfs. I placed it in a location that has rw access and modified the /etc/init/android-ureadahead.conf script which mounts it to enable rw access. Unfortunately though it won't boot. The boot logs for the android container show a litany of SELinux errors for different things that it could not set context, operation not permitted. I can post the exact log if necessary. Some googling led me to find that the SELinux security context attributes weren't being replicated in my image, so I tried mounting with context and fscontext options equal to the contexts from the original image, but I get the same problem.
If anyone has any ideas I'd be especially grateful.
lionclaw said:
This is a cross-post from a reddit thread I started, but this is probably a more appropriate location for it.
I have been trying to modify files in the system folder for the Android container on the Asus Flip so I can install SuperSu, but have run into some problems.
The system folder is contained in a squashfs image on the chromebook at /opt/google/containers/android/system.raw.img. Mounted squashfs images appear to not support read-write access. I have been able to unsquash the image, add the SuperSU apk to the /system/priv-app folder and su to the /system/xbin folder, and remake the image. This boots, but SuperSU force closes as soon as it starts.
To make tinkering easier, I've tried building a writable image using dd and mkfs. I placed it in a location that has rw access and modified the /etc/init/android-ureadahead.conf script which mounts it to enable rw access. Unfortunately though it won't boot. The boot logs for the android container show a litany of SELinux errors for different things that it could not set context, operation not permitted. I can post the exact log if necessary. Some googling led me to find that the SELinux security context attributes weren't being replicated in my image, so I tried mounting with context and fscontext options equal to the contexts from the original image, but I get the same problem.
If anyone has any ideas I'd be especially grateful.
Click to expand...
Click to collapse
Wayyyy out of my area of expertise, but here's my (completely novice) best guess.
>All Chromebooks are write-protected with a screw on the motherboard
>Putting a Chromebook in developer mode allows for some tinkering ie things like chroots, and on the asus flip, the ability to install apks from unknown sources.
>Unscrewing the write-protect screw allows for the ability to completely install a new operating system or dual boot setup.
>Maybe you need to do that before you're able to accomplish root access?
My other idea would be to try and figure out a way of doing a systemless root?
Also, total aside but since this is the only thread I've found on XDA about this device, I think chroots are theoretically possible now without the need to be in developer mode via Android apps (even without root on Android). Download the GIMP port from the Play Store to see what I'm talking about. Playing around with that for a few minutes really made me wish that it didn't use emulated mouse/keyboard in it's implementation. Also, it appears that apt-get is broken, but regardless it might interest someone out there looking for a project.
back from the dead, any progress on this?
I have been able to successfully root the Android image on my Asus Flip.
I built a blank image with dd in /usr/local, formatted it with mkfs, mounted it to a folder, mounted the original system.raw.img to a folder, copied the files across, placed *all* the SuperSU files listed as 'required' in the SuperSU update-binary in the relevant places in /system in my new image, set permissions & contexts for those files, edited arc-system-mount.conf and arc-ureadahead.conf to point to the new image and, finally, patched /etc/selinux/arc/policy/policy.30 with the SuperSU sepolicy patching tool in order to boot my rooted Android instance with selinux set to enforcing.
I have created a couple of scripts which more-or-less fully automate this procedure, which can be downloaded from nolirium.blogspot.com. Please feel free to download, open the scripts in a text editor to check them out, and try them out if you like. Only tested on Asus Flip, though.
I seem to be unable to post attachments at the moment so I will just add the descriptions here, I could probably post the entire scripts here too if anyone wants. Feel free to let me know what you think.
DESCRIPTIONS:
1-3.sh
Combines the first three scripts listed below.
01Makecontainer.sh
Creates an 900MB filesystem image in /usr/local/Android_Images, formats it, then copies Android system files therein.
02Editconf.sh
Modifies two system files: arc-system-mount.conf - changing the mount-as-read-only flag and replacing the Android system image location with a new location; and arc-ureadahead.conf - again replacing the Android system image location. Originals are renamed .old - copies of which are also placed in /usr/local/Backup.
03Androidroot.sh
Mounts the previously created Android filesystem image to a folder, and copies SuperSU files to the mounted image as specified in the SuperSU update-binary.
04SEpatch.sh
Copies an SELinux policy file found at /etc/selinux/arc/policy/policy.30 to the Downloads folder, opens an Android root shell for the SuperSU policy patching command to be entered, then copies the patched policy back to the original location. A copy of the original policy.30 is saved at /etc/selinux/arc/policy/policy.30.old and /usr/local/Backup/policy.30.old
Uninstall.sh
Removes the folder /usr/local/Android_Images and attempts to restore the modified system files arc-system-mount.conf and arc-ureadahead.conf.
ok so two questions, one do you think this would work on the Acer r13 convertable? and 2 where can I find the actual instructions/scripts
keithkaaos said:
ok so two questions, one do you think this would work on the Acer r13 convertable? and 2 where can I find the actual instructions/scripts
Click to expand...
Click to collapse
The R13 has a 64-bit Mediatek processor, right?
I have added a version for ARM64, but I haven't tested it.
You can find the instructions and scripts at nolirium.blogspot.com
ya, its a mediatek. and thanks ill go see if i can find it
---------- Post added at 03:31 AM ---------- Previous post was at 02:58 AM ----------
wow, ok. i can do this but im not sure i want to.. after reading the possible problems i may run into. Im going to be getting the G. Home in a couple weeks and i gotta keep things running smooth. This seems like going a tad too far then i need to. The other day i had action launcher going and it looked pretty damn good but i really want to try and get the action3.apk that i have put into the pri-app folder or whatever the chromebook uses i found the syst folder but cant access it. Im wondering if i make the machine writable it would work but im afraid of losing my updates, as long as i could do them manualy, i guess that would be cool. Also since im already going on... has anyone found a way to disable the dev boot screen without tinkering with the physical chromebook yet?
SuperSU on Chromebook
Hey there I love this post but unfortunately im on the mediatek (well not unfortunately cause i love it) but i do really want super su .. But i found this other post that i tried out but i am having a problem executing the scripts. When i go to run the first one, it says can not open "name of script" but the dev takes a pretty cool approach. Im still new to Chrome OS but thanks for the post and if you have any advice on executing scripts id love to hear it!! http://nolirium.blogspot.com/
I'm guessing the above post was moved from another thread...
Anyway, it turns out that zipping/unzipping the files in Chrome OS's file manager sets all the permissions to read-only. Apologies! sudo chmod+x *scriptname* should fix it...
Regarding OS updates, I actually haven't had a problem receiving auto-updates with software write-protect switched off; the main possible potential issue I could imagine arising from the procedure I outlined would involve restoring the original conf files if both sets of backups get deleted/overwritten. This seems unlikely, but in that case either manually editing the files to insert the original string (/opt/google/containers/android/system.raw.img), or doing a powerwash with forced update might be necessary in order to get the original Android container booting again.
I don't think anyone's found a way to shorten/disable the dev boot screen without removing the hardware write-protect screw - from what I've read, the flags are set in a part of the firmware which is essentially read-only unless the screw is removed. Perhaps at some point the Chrome OS devs will get fed up of reading reports from users whose relatives accidentally reset the device by pressing spacebar, and change the setup. Here's hoping.
Hey just jumpig in the thread right quick to see if these instructions are old or what-- got a chromebook pro and the notion of having to update a squashed filesystem every timeto install su seems like a pain..
Is there any kind of authoritative documentation/breakdown regarding what Chromeos is mounting where before I start breaking things? Also anyone happen to know if there's a write-protect screw anywhere in the chromebook plus/pro?
Other questions:
* adbd is running, but is not accessible from adb in the (linux) shell, which shows no devices. Do I need to access adb from another device (i'm short a usb c cable right now) or can I use adb (which is there!) on the chrome side to access adbd on the android side?
* Anyone know if adb via tcp/ip is available? Don't see it in the android settings.
Hey,
There's no real documentation AFAIK, the thing is that ARC++ is a bit of a moving target, as it's so actively being developed/reworked. For instance, with the method described earlier in the thread - it started off being possible to just swap out a file location in arc-ureadahead.conf, then they changed it to arc-setup-conf, and now, since a few CrOS versions ago, the rootfs squashfs image is mounted in a loop fashion via the /usr/sbin/arc-setup binary instead, making an overview of the setup somewhat opaque to the casual observer.
I was kind of hoping to implement a kind of hybrid systemless root style setup myself, but unfortunately I haven't really managed to find the time to sit down and fully figure out a few parts of the puzzle, in particular relating to minijail and working with namespaces. So, I'm still using the method mentioned in posts above for my rooting needs at the moment, the only significant changes being that at the moment I'm replacing /opt/google/containers.android.system.raw.img with a symlink to my writeable rooted rootfs img, and also that in recent CrOS versions the mount-as-read only and debuggable flags can be found in /etc/init/arc-setup-env ("Environment variables for /usr/sbin/arc-setup").
In general though, one can kind of get an idea of what's going on in the default setup by reading through the various /etc/init/arc-* Chrome OS upstart jobs (and their logs in /var/log). Though, like I say, things keep changing around somewhat with every CrOS update, as the implementation 'improves'. As time goes by, and the subsystem matures, it'll certainly be interesting to see what other approaches are possible relating to customizing Android on Chrome OS.
There should definitely be a write protect screw somewhere on the motherboard for the Samsungs, but so far I haven't come across any pics showing exactly which screw it is. So far, no-one seems to have been brave/foolhardy enough to fully tear down their own machine and locate the screw!
Regarding adb, on my device I found the following in arc-setup-env:
# The IPV4 address of the container.
export ARC_CONTAINER_IPV4_ADDRESS=100.115.92.2/30
adb 100.115.92.2 (in Chrome OS's shell) works fine for me, the authorisation checkbox pops up and then good to go. su works fine through adb as expected. There's also a useful little nsenter script in Chrome OS to get into the android shell; /usr/sbin/android-sh, which I've been using in my script to help patch SE linux.
I actually just updated my rooting scripts recently to support 7.1.1, though I've only tested on my own Armv7 device (Flip C100).
I'll attach them to this post in case anyone wants to take a look. There's a readme in the zip, some more details can also be found here and below
EDIT: Fixed the SE Linux issue occurring with the previous version I uploaded (it was launching daemonsu from u:r:init:s0 instead of u:r:supersu:s0).
Anyone considering giving them a spin should bear in mind that the method does involve creating a fairly large file on the device as a rooted copy of the android rootfs. (1GB for arm, 1.4GB for Intel). There's a readme in the zip but the other couple of important points are that:
a) The SuperSU 2.82 SR1 zip also needs to be downloaded and extracted to ~/Downloads on the Chromebook.
b) Rootfs verification needs to be off. The command to force this is:
Code:
sudo /usr/share/vboot/bin/make_dev_ssd.sh --remove_rootfs_verification --force --partitions $(( $(rootdev -s | sed -r 's/.*(.)$/\1/') - 1))
or the regular command to do it is:
Code:
sudo /usr/share/vboot/bin/make_dev_ssd.sh --remove_rootfs_verification
c) If, subsequent to running the scripts, there's a problem loading Android apps (e.g. after a powerwash or failed install), the command to restore the original rootfs image is:
Code:
sudo mv /opt/google/containers/android/system.raw.img.bk /opt/google/containers/android/system.raw.img
Hey this is a great response.. thanks!
Nolirum said:
Hey,
There's no real documentation AFAIK, the thing is that ARC++ is a bit of a moving target, as it's so actively being developed/reworked. For instance, with the method described earlier in the thread - it started off being possible to just swap out a file location in arc-ureadahead.conf, then they changed it to arc-setup-conf, and now, since a few CrOS versions ago, the rootfs squashfs image is mounted in a loop fashion via the /usr/sbin/arc-setup binary instead, making an overview of the setup somewhat opaque to the casual observer.
Click to expand...
Click to collapse
verity
Yeah playing with it now, I'm looking at these /etc/init/arc-*-conf files... I see that the /dev/loop# files are being set up... (more below)
Nolirum said:
I was kind of hoping to implement a kind of hybrid systemless root style setup myself, but unfortunately I haven't really managed to find the time to sit down and fully figure out a few parts of the puzzle, in particular relating to minijail and working with namespaces. So, I'm still using the method mentioned in posts above for my rooting needs at the moment, the only significant changes being that at the moment I'm replacing /opt/google/containers.android.system.raw.img with a symlink to my writeable rooted rootfs img, and also that in recent CrOS versions the mount-as-read only and debuggable flags can be found in /etc/init/arc-setup-env ("Environment variables for /usr/sbin/arc-setup").
Click to expand...
Click to collapse
Sorry not sure what you mean by "hybrid systemless root style setup"? I take it you're modifying the startup script and replaced the squashfs file in /opt... my concern about doing it was whether they were implementing some kind of dm-verity equivalent to the squashfs file to make sure it hasn't been tampered with (say, by adding /sbin/su or whatever) or whether it's safe to replace that file.. Sounds like you're saying it is? (update: I guess that's what rootfs verification does, and we can turn it off....)
Also you mean arc-setup.conf:
env ANDROID_DEBUGGABLE = 0
right?
Nolirum said:
In general though, one can kind of get an idea of what's going on in the default setup by reading through the various /etc/init/arc-* Chrome OS upstart jobs (and their logs in /var/log). Though, like I say, things keep changing around somewhat with every CrOS update, as the implementation 'improves'. As time goes by, and the subsystem matures, it'll certainly be interesting to see what other approaches are possible relating to customizing Android on Chrome OS.
Click to expand...
Click to collapse
I hadn't realized the boot was still in flux-- I'd have figured they'd worked that out by now...
Nolirum said:
There should definitely be a write protect screw somewhere on the motherboard for the Samsungs, but so far I haven't come across any pics showing exactly which screw it is. So far, no-one seems to have been brave/foolhardy enough to fully tear down their own machine and locate the screw!
Click to expand...
Click to collapse
Heh.. not gonna be me..
Nolirum said:
Regarding adb, on my device I found the following in arc-setup-env:
# The IPV4 address of the container.
export ARC_CONTAINER_IPV4_ADDRESS=100.115.92.2/30
adb 100.115.92.2 (in Chrome OS's shell) works fine for me, the authorisation checkbox pops up and then good to go. su works fine through adb as expected. There's also a useful little nsenter script in Chrome OS to get into the android shell; /usr/sbin/android-sh, which I've been using in my script to help patch SE linux.
Click to expand...
Click to collapse
Cool-- adb connect 100.115.92.2 does indeed work I was gonna use netcat to open port 5555 in chromeos and pipe it through, but looks like nc isn't here and I'm not yet ready to start changing the FS..though probably will be soon... btw any idea which partitions get overwritten when chrome it does it's updates? Will /root and /etc get overwritten, for example... would a "powerwash" overwrite it or can you get easily get into an unbootable state on these things?
It's also kind of strange that adb is listening to port 30 at that (internal?) bridge address by default witho no UI to turn it off.. and it's inaccessible from outside.. i wonder if there's an easy way to change the bridge to share the same IP as the actual interface...
Final thought-- I'd love to build that system image myself soup-to-nuts, but I can't find any "caroline" device tree set up... do you or anyone else happen to know if there's a standalone AOSP device tree for the chromebooks? It would be cool to have a mashup AOSP/lineageos if such a think could be possible-- I'm guessing chromiumos is just taking the android tree, building it and then adding it into their build... I Haven't build chromiumos for many years now so I can't even begin to imagine how this android build integrates with the whole emerge thing they had going.. but I bet it takes a while
Nolirum said:
I actually just updated my rooting scripts recently to support 7.1.1, though I've only tested on my own Armv7 device (Flip C100).
Click to expand...
Click to collapse
Cool I'll take a look at these scripts.
So I haven't yet run the scripts-- just looking through them-- I noticed the section starting:
if [ -e /etc/init/arc-setup-env ]; then
echo "Copying /etc/init/arc-setup-env to /usr/local/Backup"
This doesn't exist on the x86 CB Pro. There's an arc-setup.conf that sets up the environment variables though. It sets WRITABLE_MOUNT to 0, but then so does arc-system-mount.conf
Not sure if these are different between x86 and ARM or if it's just in the latest update.. but figured I'd let you know. Wanna throw thse scripts up on github somewhere? (Or I can do it) and we can maybe look at keeping them up to date and/or standardizing them? It wouldn't be hard to determine if it's running on ARM or x86_64 (uname -i for example)..
fattire said:
So I haven't yet run the scripts-- just looking through them-- I noticed the section starting:
if [ -e /etc/init/arc-setup-env ]; then
echo "Copying /etc/init/arc-setup-env to /usr/local/Backup"
This doesn't exist on the x86 CB Pro. There's an arc-setup.conf that sets up the environment variables though. It sets WRITABLE_MOUNT to 0, but then so does arc-system-mount.conf
Not sure if these are different between x86 and ARM or if it's just in the latest update.. but figured I'd let you know. Wanna throw thse scripts up on github somewhere? (Or I can do it) and we can maybe look at keeping them up to date and/or standardizing them? It wouldn't be hard to determine if it's running on ARM or x86_64 (uname -i for example)..
Click to expand...
Click to collapse
Oh, the arc-setup-env thing is intentional. There does appear to be another issue with the x86 version though. I've written up a detailed response to your previous post; it's in a text file at the moment so I'll copy it over and format it for posting here with quotes etc now - should only take a few minutes. Yeah, sticking them on github might be a good idea; I've been meaning to create an account over there anyway.
Yeah, so... Regarding the scripts, since I've put them up here for people to download - I should mention that the first person to test them (aside from me) has reported that something's not working right (I'm waiting for confirmation but I think he tried out the x86 version). It's likely either an error on my part when copying across from my Arm version, or perhaps something not working right with conditionals, meant to deal with the various OS versions ('if; then' statements, I mean). Once I find out more, I'll edit my earlier post...
fattire said:
Sorry not sure what you mean by "hybrid systemless root style setup"? I take it you're modifying the startup script and replaced the squashfs file in /opt... my concern about doing it was whether they were implementing some kind of dm-verity equivalent to the squashfs file to make sure it hasn't been tampered with (say, by adding /sbin/su or whatever) or whether it's safe to replace that file.. Sounds like you're saying it is?
Click to expand...
Click to collapse
Oh, sorry for being a bit vague - I just mean perhaps implementing a kind of systemless root à la Magisk/SuperSU (from what I understand of how these work) - avoiding the need to actually replace files in /system. Since I'm mainly just using su for the privileges rather than actually wanting to write to /system, I had the idea that perhaps a sort of overlay on e.g. xbin and a few other locations, rather than actually rebuilding the whole of /system, might be an interesting approach....
Yep, I've been replacing /opt/google/containers/android/system.raw.img with a symlink to my modified image lately. Works fine... I think they've been focused on just getting the apps working properly, maybe something like dm-verity is still to come.
Although, one of the cool things with Chromebooks IMO is that once the Developer Mode (virtual) switch has been flipped, the system's pretty open to being hacked around with. I think a large part of the much-trumpeted "security" of the system is thanks to the regular mode/Dev mode feature, once in Dev Mode with verified boot disabled on the rootfs, we can pretty much do what we want (I like the message that comes up in the shell when entering the first command I posted under the spoiler - it literally says "YOU ARE ON YOUR OWN!").
So yeah, with Dev Mode switched off, verified boot switched on, we can't even get into the shell (just the walled-off 'crosh' prompt), making the system indeed rather secure (but, for some of us, rather limited).
fattire said:
Also you mean arc-setup.conf:
env ANDROID_DEBUGGABLE = 0
right?
Click to expand...
Click to collapse
That's what I mean by a moving target, lol. On my device the Canary channel is at Chrome OS version 61; I think they started to move out some ARC++ (the acronym stands for Android Runtime on Chrome, version 2, if anyone's wondering, btw) environment variables to a separate file in version 60, or maybe 61. Problems with being on the more 'bleeding edge' channels include:
#Sometimes stuff gets broken as they commit experimental changes.
#Any updates sometimes overwrite rootfs customizations; the higher the channel - the more frequent the updates occur.
#Some of the stuff that gets updated, may later get reverted.
And so on...
fattire said:
I hadn't realized the boot was still in flux-- I'd have figured they'd worked that out by now...
Click to expand...
Click to collapse
Yeah you'd think so. Honestly, the more I use CrOS the more it seems like a (very polished) work-in-progress to me. Though, I guess most modern OSs are also works-in-progress though. (I don't mean the former statement in a critical way; I'm very happy that new features keep getting added to the OS - Android app support being a perfect case in point, that was a lovely surprise, greatly extending the functionality of my Chromebook).
fattire said:
Cool-- adb connect 100.115.92.2 does indeed work I was gonna use netcat to open port 5555 in chromeos and pipe it through, but looks like nc isn't here and I'm not yet ready to start changing the FS..though probably will be soon...
Click to expand...
Click to collapse
Netcat's not there but socat, which I haven't any experience with but have seen described as a "more advanced version of netcat", is listed in /etc/portage/make.profile/package.installable, meaning that adding it to CrOS is supported, and as simple as:
Code:
sudo su -
dev_install #(sets up portage in /usr/local)
emerge socat
I tried socat out and it seems to work, might be interesting to play around with.
fattire said:
btw any idea which partitions get overwritten when chrome it does it's updates? Will /root and /etc get overwritten, for example...
Click to expand...
Click to collapse
Theres a question. I forget some of the exact details now (gleaned from browsing the developer mailing lists and the documentation on chromium.org), but from what I do remember and my experiences tinkering, I can say:
The auto-update model uses kernel/rootfs pairs, e.g. at the moment my device is booting from partition 2 (KERN-A) with the rootfs being partition 3 (ROOTFS-B). My understanding is that with the next OS update pushed to my device, CrOS will download the deltas of the files to be changed, and apply the changes to partitions 4 and 5 (KERN-B and ROOTS-B), setting new kernel GPT flags (priority=, tries=, successful=), which will, post-reboot, let the BIOS know that 4 and 5 will form the new working kernel/rootfs pair. Then the following update will do the same, but with partitions 2 and 3, and so on and so forth, alternating pairs each time. It's a pretty nifty system, and I think something similar might be happening with new Android devices from version O onward (?).
So partitions 2,3,4,5 are fair game for being overwritten (from the perspective of the CrOS updater program). Partition 1, the 'stateful partition') is a bit special, in addition to a big old encrypted file containing all of the userdata (/home/chronos/ dir?), it also has some extra dirs which get overlaid on the rootfs at boot. If you have a look in /mnt/stateful/, there should also be a dir called 'dev_image', which (on a device in Dev mode) gets mounted up over /usr/local/ at boot. As I mentioned above, if you do
Code:
sudo su -
dev_install
you can then emerge anything listed in /etc/portage/make.profile/package.installable (not a great deal of stuff admittedly, compared to Gentoo), which gets installed to subdirs in /usr/local/. So I think stuff in partition 1; /mnt/stateful/, should be safe from being overwritten with an OS update. I think crouton chroots get put there by default.
Most of the other partitions don't really get used, and shouldn't get touched by the updater, here's a design doc on the disk format, and here's a Reddit post (from a Google/Chromium employee) mentioning dual booting from partitions 6 and 7.
fattire said:
would a "powerwash" overwrite it or can you get easily get into an unbootable state on these things?
Click to expand...
Click to collapse
It's not too hard to mess up the system and get it into an unbootable state, lol. The "powerwash" just seems to remove user data, mainly. If you change up (the contents of) some files in /etc, or /opt, for example, then powerwash, normally they won't get restored to their original state (unless you also change release channel).
But, as long as the write-protect screw's not been removed and the original BIOS overwritten, it's always possible to make a recovery USB in Chrome's Recovery Utility on another device, and then restore the entire disk image fresh (this does overwrite all partitions). Another thing that I did was make a usb to boot into Kali; I was experimenting with the cgpt flags on my internal drive and got it into an unbootable state, but was still able to boot into Kali with Ctrl+U, and restore the flags manually from there. (To successfully boot from USB, it was essential to have previously run the enable_dev_usb_boot or crossystem dev_boot_usb=1 command in CrOS). I understand also that the BIOS type varies with device release date and CPU architecture, and that Intel devices may have some extra potential BIOS options ('legacy boot').
fattire said:
It's also kind of strange that adb is listening to port 30 at that (internal?) bridge address by default with no UI to turn it off.. and it's inaccessible from outside.. i wonder if there's an easy way to change the bridge to share the same IP as the actual interface...
Click to expand...
Click to collapse
I think I saw something related to this on the bug tracker. If I come across any info, I'll let you know...
fattire said:
Final thought-- I'd love to build that system image myself soup-to-nuts, but I can't find any "caroline" device tree set up... do you or anyone else happen to know if there's a standalone AOSP device tree for the chromebooks? It would be cool to have a mashup AOSP/lineageos if such a think could be possible-- I'm guessing chromiumos is just taking the android tree, building it and then adding it into their build... I Haven't build chromiumos for many years now so I can't even begin to imagine how this android build integrates with the whole emerge thing they had going.. but I bet it takes a while
Click to expand...
Click to collapse
Yeah, I haven't built Chromium OS or anything, but apparently, there's an option to create a 'private' overlay for the build, which doesn't get synced with the public stuff.
I think that the higher-ups at Google might be still umming and ahing as to whether or not to make source code available for the Android container, it's certainly not been made public yet. Actually, I remember seeing a Reddit post from a Google/Chromium employee mentioning this.
"That article is a little misleading in terms of open source. While the wayland-server and services that communicate with the ARC++ container are open source, the actual ARC++ container is not."
Perhaps they're waiting to see how similar implementations of Android within a larger Linux setup (e.g. Anbox) fare.
There doesn't seem to be too much that differs from AOSP in the ARC++ container - a few binaries and bits and pieces linking the hardware to the container (e.g. the camera etc), maybe some stuff related to running in a container with the graphics being piped out to Wayland?, and so on.
Oh, I was searching the bug tracker for something else, and just saw this (quoted below). Looks like it might be possible to run AOSP based images on CrOS soon!
arc: Implement android settings link for AOSP image
Reported by [email protected], Today (72 minutes ago)
Status: Started
Pri: 1
Type: Bug
M-60
When ARC started without the Play Store support there is no way for user to activate Android settings. We need implement corresponded section that has
Title: Android settings:
Link: Manage android preferences:
Inner bug: b/62945384
Click to expand...
Click to collapse
Great response! I read it once and I'll read it again in more detail then will probably have questions For whatever it may be worth, my only experience with chromiumos was building the whole thing maybe 4 years ago for my original 2011 Samsung "snow" Chromebook-- and making a bootable USB (or was it an SDcard?) to run it on (with a modified firmware that did... something I can't remember.. i think it was basically a stripped down uboot and I remember adding a simple menu or something-- I think I was trying to bypass that white startupscreen or something..). However, after doing this a few times to play with it, I realized that Chromiumos without the Chrome goodies kinda sucks and I promptly forgot everything and went back to stock.
I did have it re-partitioned to run linux as a dual boot from the SD slot or something-- I remember using that cgpt thing to select the different boot modes and vaguely recall the way it would A/B the updates (which "O" is now doing)... but anyhoo I was using the armhf ubuntu releases with the native kernel and ran into all kinds of sound issues and framebuffer only was a little crappy so...
I'm gonna re-read in more detail soon and I'm sure I'll have questions-- one of which will be-- assuming that most stuff is the same on x86 vs arm, why are there two scripts? How do they differ?
ol. On my device the Canary channel is at Chrome OS version 61; I think they started to move out some ARC++ (the acronym stands for Android Runtime on Chrome, version 2, if anyone's wondering, btw) environment variables to a separate file in version 60, or maybe 61.
Click to expand...
Click to collapse
This is the -env file I'm missing, I presume?
I think that the higher-ups at Google might be still umming and ahing as to whether or not to make source code available for the Android container, it's certainly not been made public yet. Actually, I remember seeing a Reddit post from a Google/Chromium employee mentioning this.
Click to expand...
Click to collapse
It looks from the response that the gapps portion might be what's in question-- just like ChromiumOS vs Chrome has all the proprietary bits taken out?
Here's what I'd ideally like to see:
* Rooted Android, with a toggle switch to hide su in settings a la lineage (requires a kernel patch something like this one) + settings changes from lineageos
* adb access from outside the device-- critical for quickly testing apks from android studio w/o a cable. Basically put the chromebook in a "device mode" where adb is passed through... I'm going to see if I can pipe adb through with socat as you suggest...
* what else... I dunno watch this space.
An update from a couple of guys that have tested out the scripts on Intel: It seems to be that while they are able to launch daemonsu manually (with daemonsu --auto-daemon), it apparently does not seem to be getting launched at boot.
I am waiting for some more information on this. Previously, for Marshmallow, the script was setting up the app_process hijack method in order to to launch daemonsu at boot; to support Nougat I changed it to instead create an .rc file with a service for daemonsu, and add a line to init.rc importing it. This works for me, and from what I can gather, it copied/created all files successfully on the testers devices, too, so I'm not sure at this point what the issue is there.
Edit: Fixed the issue. I updated my previous post with further details.
fattire said:
I realized that Chromiumos without the Chrome goodies kinda sucks and I promptly forgot everything and went back to stock.
Click to expand...
Click to collapse
lol yeah. True, that.
fattire said:
...assuming that most stuff is the same on x86 vs arm, why are there two scripts? How do they differ?
Click to expand...
Click to collapse
It's literally just two things that differ: the few lines where we copy the su binary over e.g.
/x86/su.pie → /system/xbin/su, daemonsu, sugote
vs
/armv7/su → /system/xbin/su, daemonsu, sugote
...and also the size of the created container. The x86 container is about 30 percent larger than the Arm one.
I had a little look at how to determine the CPU architecture programmatically on Chrome OS a while back, but couldn't seem to find a reliable way of doing this, at least not without maybe getting a bunch of people with different CrOS devices to run something like, as you mentioned, uname -i (which returns 'Rockchip' on my device, uname -m (which returns 'armv7'), or such similar, and collating the results. It was just easier to do separate versions for x86/arm, rather than introduce more conditionals (with potential for errors). I'm certainly not averse to adding a check for $ARCH, and thus standardizing the script, as long as it's reliable.
fattire said:
This is the -env file I'm missing, I presume?
Click to expand...
Click to collapse
Yep! It's just the same few envs as in the .confs, moved into a new file. I'm fairly confident that the script's conditionals deals with them OK.
fattire said:
It looks from the response that the gapps portion might be what's in question-- just like ChromiumOS vs Chrome has all the proprietary bits taken out?
Click to expand...
Click to collapse
Yeah, although the respondant there perhaps doesn't seem to realise that he's talking to a Google/Chromium dev, the way he responds. Not that that makes anything he says in his post is necessarily less valid, though.
fattire said:
Here's what I'd ideally like to see:
* Rooted Android, with a toggle switch to hide su in settings a la lineage (requires a kernel patch something like this one) + settings changes from lineageos
* adb access from outside the device-- critical for quickly testing apks from android studio w/o a cable. Basically put the chromebook in a "device mode" where adb is passed through... I'm going to see if I can pipe adb through with socat as you suggest...
Click to expand...
Click to collapse
Interesting... I agree, those would both be useful additions to the functionality of ARC++...
Quick question-- has Samsung provided the source for the GPL components (including the kernel, obviously)? I looked here but didn't see anything...? Previously the kernel was included along with the chromium source and there was like a kernel and kernel-next repository.. but this was like five years ago. I think the codename for the samsung chromebook pro is called caroline... let me quickly see if I can find a defconfig in the chromium source...
Back.. nothing here in the chromeos-4.4 branch. Nothing here either in the master branch. Maybe I'm looking in the wrong branches-- master is probably mainline kernel. Also the directories.. it took me five minutes to realize it wasn't going to be in arch/arm - force of habit I guess. I'll keep looking unless anyone knows. This "chromium-container-vm-x86" one seems to have dm_verity as an unused option. Ah, this is looking promising.
...and... here!
So it would seem that this would be built as part of the chromiumos build system, which seemed to be half gentoo five years ago building out of a chroot and was kind of a pain to set up... still, I'm guessing that since it's got that weird script to make the defconfig, what you could do is use google's chromiumos build script to make the kernel image (with whatever changes you want), then, assuming that it doesn't care if you replace the kernel, just throw it over the right Kernel A/B partition and see if it boots and starts up chromeos... it's weird cuz the kernel has to do double-duty for chromeos and android.. but I bet you can just replace it and it would work fine...
I had a cursory go at building a couple of kernel modules for my Flip C100 a while back - I didn't get too far though, lol. People do seem to have had success building their own kernels and running them with Chrome OS though, as with most things I suppose it's just how much time/effort you're willing to put in.
I think I used this and maybe this, from the crouton project to guide me.
From what I remember, I just got fed up of all the arcane errors/config choices. I remember that even though I'd imported my current device config from modprobe configs, there were then such an incredibly long string of hoops/config choices to have to go through one by one, to then be confronted with various errors (different every time ISTR) that I think I just thought "screw this". I think there were some other issue with the Ubuntu version I was using at the time as well. I know that sort of stuff's kind of par for the course with kernel compilation, but I was mainly only doing it so I could edit xpad in order to get my joypad working, in the end I found a different solution.
It shouldn't be too much hassle though, in theory I guess.... Oh, also, in order to get a freshly built kernel booting up with the CrOS rootfs, in addition to the gpt flags, I think you might have to sign it, too? (just with the devkeys & vbutil_kernel tool provided on the rootfs), some info here, and here.
From what I remember, the build system would do whatever key signing was necessary.... although I do now remember you're right there was some manual step when I was building the kernel, but I can't remember if that's because of MY changes or that was just part of the build process.
I I just dug out the old VM (Xubuntu) I was using to build and, well, let's just say I'll be doing a LOT of ubuntu updates before I can even realistically look at this. I do kinda recall setting up the environment was a huge pain so I'm going to see if I can just update the 5 year old source, target the pro and just build the kernel image and see what pops out the other end. At least I won't have to deal with the cross compiler, though I think it should hopefully take care of that itself.
Interesting to see that those crouton projects have emerged (no pun intended) so I'll check them out too while ubuntu updates itself
Thanks for the github links.. I'm going to go read that wiki.
Update: Looked at it-- funny they just stripped out the chromeos-specific parts they needed rather than emerge everything which is smart. My only question is now that Android is involved, there's that script I linked to earlier that seems to say "if you want Android support you'll need these bits too"-- wonder if the same config scripts apply, and if there are any other device tree considerations as well...
I may play a bit and see how smoothly it goes.. Unfortunately I don't have unlimited time either :/
Also, please do let me know if you put the scripts on github and I can send you pull requests if I come up with anything.
Update: Finally updated like 3 major versions of ubuntu... the "depot_tools" repo had its last commit in 2013, so I updated that. Wow, this is so much clearer than previous docs... it looks like something called gclient is used now, which I configured with:
gclient config --spec 'solutions = [
{
"url": "https://chromium.googlesource.com/chromium/src.git",
"managed": False,
"name": "src",
"deps_file": ".DEPS.git",
"custom_deps": {},
},
]
'
that let me do gclient sync --nohooks --no-history ...which i think is updating the ancient source. I probably should have just started over, but anyway... we'll see what happens.
Update again: After updating with this new gclinet tool, it appears that the old repo sync method is still required as described here. That hasn't changed after all, so now I'm going to go through this old method, which will probably completely overwhelm my storage as it's downloading with history.. but anyway, in case anyone is trying this-- looks like the whole chroot/repo sync thing may still be how it's done... the /src directory described above may only be for building just the browser, not the whole OS...
...and here it is. I will have zero room to actually build anything tho, but hey.
* [new branch] release-R58-9334.B-caroline-chromeos-3.18 -> cros/release-R58-9334.B-caroline-chromeos-3.18
Note to self: use cros_sdk --enter to actually get in the chroot. Then:
~/trunk/src/scripts $ ./setup_board --board=caroline
to set up the build for caroline. Then to build:
./build_packages --board=caroline --nowithdebug
Useful links:
* Building ChromiumOS
* [URL="http://www.chromium.org/chromium-os/how-tos-and-troubleshooting/portage-build-faq"]eBuild FAQ
[/URL]
Hi everyone,
as title suggests, I'd like to "port" clean AOSP to be able to install and run it on the custom device.
Basically, the situation is following: I got a custom device, based on rockchip rk3288 SoC. The device currently runs Android 5.1 successfully. I'd like to update Android to version 6 (got AOSP sources and AWS builder image up and running), but the company that created Android v5 for us no longer exists.
Thus I am here to ask for advice(s) on how to proceed (or whether it even is a good idea to do that myself, given the fact that I have zero experience with Android ROMs development), possibly a step-by-step guide on what to do.
The question is, do I just find drivers for hardware components present in the device (usb hub, ethernet, etc.) and just somehow "link" those to existing sources (of AOSP) and just run the build with different parameters? Or do I need to build a whole new kernel for the given device-OS combination?
Thank you for any advice or opinion!
Well this is an interesting one. There are several routes you can take here.
If you have the kernel source code, and the source code for the drivers, you could probably build the kernel from source and use it to boot Android, however, as that's unlikely, you're looking at a more regular porting process, which usually consists of pulling the vendor blobs from the existing Android system, building AOSP/Lineage with those blobs involved, and hacking together a new ramdisk that HOPEFULLY will be compatible. It's a very long and very tedious process, but it's certainly possible.
From that you'll then get in to the debugging stage of finding out what works out of the box, you'll very well need to make changes to AOSP for it to work on that SoC.
abtekk said:
Well this is an interesting one. There are several routes you can take here.
If you have the kernel source code, and the source code for the drivers, you could probably build the kernel from source and use it to boot Android, however, as that's unlikely, you're looking at a more regular porting process, which usually consists of pulling the vendor blobs from the existing Android system, building AOSP/Lineage with those blobs involved, and hacking together a new ramdisk that HOPEFULLY will be compatible. It's a very long and very tedious process, but it's certainly possible.
From that you'll then get in to the debugging stage of finding out what works out of the box, you'll very well need to make changes to AOSP for it to work on that SoC.
Click to expand...
Click to collapse
Thanks for pointing in the right (or at least some) direction! I found some guide on porting ROMs which I followed, basically like you said. So I just replaced some files in System image. Will flash later today, so maybe I will get some results!
abtekk said:
From that you'll then get in to the debugging stage of finding out what works out of the box, you'll very well need to make changes to AOSP for it to work on that SoC.
Click to expand...
Click to collapse
So I was following this tutorial, although found some irregularities, let's say: For example, none of those 2 folders contained init.d/ directory, thus I didn't update it. Also, I haven't found META-INF folder therefore haven't updated updater-script.
Basically, when I did (or at least what I think I was doing was that I took /system partition from our current ROM, that is working on that custom device and replaced stuff in there by stuff from the new system I wanted to port. My idea from what I've read was that i took kernel (and boot/recovery) from the original, working ROM and "injected" the new system onto it. Is that correct? Is that what I needed to do? Because the problem is, I cannot boot into the system (might as well be because of Kernel version, because I am trying to port Android 6 on Kernel 3.10. which was used in the current ROM running Android 5). It looks like the device is stuck in bootloader, or "somehow doesn't know what to start" (sorry, I can't put it better), displaying only my device's logo.
When I connect it to the computer via USB cable, running adb devices shows me that device, but when I try to access shell using adb shell I got error saying that /system/bin/sh wasn't found, which made me thinking that somehow the /system partition isn't "linked" properly, like I stated in the beginning.
Was I doing everything correctly? Do I need to do something above that? (maybe do you know about some tutorial). I am trying to port AOSP 6 Android.
Thank you!